Publications – FX Lab: Research Group of Prof. Matthias Ihme

Bibliographical Information

In this research field, the standard practice is to list authors in the order of their contributions to the research. Students are listed first, advisors are listed last.

2023

F. Simeski, J. Wu, S. Hu, T. T. Tsotsis, K. Jessen, and M. Ihme, “Local Rearrangement in Adsorption Layers of Nanoconfined Ethane,” The Journal of Physical Chemistry C, vol. 127, iss. 34, pp. 17290-17297, 2023.
[Bibtex]

@article{simeski2023rearrangement,
author = {Simeski, Filip and Wu, Jiyue and Hu, Sheng and Tsotsis, Theodore T. and Jessen, Kristian and Ihme, Matthias},
title = {{Local Rearrangement in Adsorption Layers of Nanoconfined Ethane}},
journal = {{The Journal of Physical Chemistry C}},
volume = {127},
number = {34},
pages = {17290-17297},
year = {2023},
doi = {10.1021/acs.jpcc.3c04869},
}

P. Muhunthan, O. Paredes Mellone, T. Kroll, D. Sokaras, and M. Ihme, “The Local Electronic Structure of Supercritical CO2 from X-ray Raman Spectroscopy and Atomistic-Scale Modeling,” The Journal of Physical Chemistry Letters, vol. 14, iss. 21, pp. 4955-4961, 2023.
[Bibtex]

@article{muhunthan2023electronic,
author = {Muhunthan, Priyanka and Paredes Mellone, Oscar and Kroll, Thomas and Sokaras, Dimosthenis and Ihme, Matthias},
title = {{The Local Electronic Structure of Supercritical CO2 from X-ray Raman Spectroscopy and Atomistic-Scale Modeling}},
journal = {{The Journal of Physical Chemistry Letters}},
volume = {14},
number = {21},
pages = {4955-4961},
year = {2023},
doi = {10.1021/acs.jpclett.3c00668},
}

J. Burge, M. R. Bonanni, L. R. Hu, and M. Ihme, “Recurrent Convolutional Deep Neural Networks for Modeling Time-Resolved Wildfire Spread Behavior,” Fire Technology, 2023.
[Bibtex]

@article{burge2023recurrent,
title = {Recurrent {Convolutional} {Deep} {Neural} {Networks} for {Modeling} {Time}-{Resolved} {Wildfire} {Spread} {Behavior}},
issn = {1572-8099},
doi = {10.1007/s10694-023-01469-6},
language = {en},
urldate = {2023-08-10},
journal = {{Fire Technology}},
author = {Burge, John and Bonanni, Matthew R. and Hu, R. Lily and Ihme, Matthias},
month = aug,
year = {2023},
keywords = {Deep neural networks, Machine learning, Recurrent neural networks, Wildland fires},
}

G. C. Fraga, B. Wu, M. Ihme, and X. Zhao, “Assessing requirements for modeling radiation in diffusion flames using an analytical, non-local model,” Combustion and Flame, vol. 255, p. 112907, 2023.
[Bibtex]

@article{fraga2023radiation,
title = {Assessing requirements for modeling radiation in diffusion flames using an analytical, non-local model},
volume = {255},
issn = {0010-2180},
doi = {10.1016/j.combustflame.2023.112907},
language = {en},
journal = {{Combustion and Flame}},
author = {Fraga, Guilherme C. and Wu, Bifen and Ihme, Matthias and Zhao, Xinyu},
month = sep,
year = {2023},
pages = {112907},
}

J. Guo, D. Brouzet, W. T. Chung, and M. Ihme, “Analysis of ducted fuel injection at high-pressure transcritical conditions using large-eddy simulations,” International journal of engine research, p. 14680874231170659, 2023.
[Bibtex]

@article{guo2023ducted,
author = {Jack Guo and Davy Brouzet and Wai Tong Chung and Matthias Ihme},
title ={Analysis of ducted fuel injection at high-pressure transcritical conditions using large-eddy simulations},
journal = {International Journal of Engine Research},
volume = {0},
number = {0},
pages = {14680874231170659},
year = {2023},
doi = {10.1177/14680874231170659},
}

F. Simeski and M. Ihme, “Supercritical fluids behave as complex networks,” Nature Communications, vol. 14, p. 1996, 2023.
[Bibtex]

@article{simeski2023supercritical,
author = {Simeski, Filip and Ihme, Matthias},
year = {2023},
month = {4},
day = {10},
title = {Supercritical fluids behave as complex networks},
journal = {{Nature Communications}},
pages = {1996},
volume = {14},
issue = {1},
doi = {10.1038/s41467-023-37645-z},
}

P. Rosenberger, R. Dagar, W. Zhang, A. Majumdar, M. Neuhaus, M. Ihme, B. Bergues, and M. F. Kling, “Reaction nanoscopy of ion emission from sub-wavelength propanediol droplets,” Nanophotonics, 2023.
[Bibtex]

@article{rosenberger2023nanoscopy,
title = {Reaction nanoscopy of ion emission from sub-wavelength propanediol droplets},
author = {Philipp Rosenberger and Ritika Dagar and Wenbin Zhang and Arijit Majumdar and Marcel Neuhaus and Matthias Ihme and Boris Bergues and Matthias F. Kling},
journal = {Nanophotonics},
doi = {doi:10.1515/nanoph-2022-0714},
year = {2023},
}

P. Sharma, W. T. Chung, B. Akoush, and M. Ihme, “A Review of Physics-Informed Machine Learning in Fluid Mechanics,” Energies, vol. 16, iss. 5, 2023.
[Bibtex]

@article{sharma2023physics,
author = {Sharma, Pushan and Chung, Wai Tong and Akoush, Bassem and Ihme, Matthias},
title = {{A Review of Physics-Informed Machine Learning in Fluid Mechanics}},
journal = {{Energies}},
volume = {16},
year = {2023},
number = {5},
issn = {1996-1073},
doi = {10.3390/en16052343}
}

F. Li, J. Guo, B. Bai, and M. Ihme, “Analysis of real-fluid thermodynamic effects on turbulent statistics in transcritical channel flows,” Physical Review Fluids, vol. 8, iss. 2, p. 24605, 2023.
[Bibtex]

@article{li2023analysis,
author = {Li, Fangbo and Guo, Jack and Bai, Bofeng and Ihme, Matthias},
title = {{Analysis of real-fluid thermodynamic effects on turbulent statistics in transcritical channel flows}},
journal = {{Physical Review Fluids}},
volume = {8},
number = {2},
year = {2023},
pages = {024605},
doi = {https://doi.org/10.1103/PhysRevFluids.8.024605},
}

F. Simeski and M. Ihme, “Corrosive Influence of Carbon Dioxide on Crack Initiation in Quartz: Comparison with Liquid Water and Vacuum Environments,” Journal of Geophysical Research: Solid Earth, vol. 128, iss. 1, p. e2022JB025624, 2023.
[Bibtex]

@article{simeski2023corrosive,
author = {Simeski, Filip and Ihme, Matthias},
title = {{Corrosive Influence of Carbon Dioxide on Crack Initiation in Quartz: Comparison with Liquid Water and Vacuum Environments}},
journal = {{Journal of Geophysical Research: Solid Earth}},
volume = {128},
number = {1},
year = {2023},
pages = {e2022JB025624},
keywords = {crack propagation, stress corrosion, nanoscale geomechanics, carbon dioxide},
doi = {https://doi.org/10.1029/2022JB025624},
}

D. Mohaddes, D. Brouzet, and M. Ihme, “Cost-constrained adaptive simulations of transient spray combustion in a gas turbine combustor,” Combustion and Flame, vol. 249, p. 112530, 2023.
[Bibtex]

@article{mohaddes2023adaptive,
title = {{Cost-constrained adaptive simulations of transient spray combustion in a gas turbine combustor}},
volume = {249},
issn = {0010-2180},
doi = {10.1016/j.combustflame.2022.112530},
language = {en},
urldate = {2023-01-06},
journal = {{Combustion and Flame}},
author = {Mohaddes, Danyal and Brouzet, Davy and Ihme, Matthias},
month = mar,
year = {2023},
keywords = {Adaptive modeling, Combustion modeling, Lean blow-out, Spray combustion},
pages = {112530},
}

D. Mohaddes and M. Ihme, “Wall heat transfer and flame structure transitions in stagnating spray flames,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{mohaddes2023wall,
title = {{Wall heat transfer and flame structure transitions in stagnating spray flames}},
issn = {1540-7489},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922003212},
doi = {10.1016/j.proci.2022.08.037},
journal = {{Proceedings of the Combustion Institute}},
author = {Mohaddes, Danyal and Ihme, Matthias},
year = {2023},
keywords = {Flame-wall interaction, Spray combustion, Wall heat transfer},
volume = {39, In press}
}

W. T. Chung, N. Ly, and M. Ihme, “LES of HCCI combustion of iso-octane/air in a flat-piston rapid compression machine,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{chung2023hcci,
title = {{LES of HCCI combustion of iso-octane/air in a flat-piston rapid compression machine}},
journal = {{Proceedings of the Combustion Institute}},
year = {2023},
issn = {1540-7489},
doi = {https://doi.org/10.1016/j.proci.2022.07.233},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922002590},
author = {Wai Tong Chung and Nguyen Ly and Matthias Ihme},
keywords = {Homogeneous charge compression ignition, Multimode combustion, Rapid compression machine, Low temperature combustion, Large eddy simulation},
volume = {39, In press}
}

N. Ly, A. Majumdar, and M. Ihme, “Regimes of evaporation and mixing behaviors of nanodroplets at transcritical conditions,” Fuel, vol. 331, p. 125870, 2023.
[Bibtex]

@article{ly2023regimes,
title = {Regimes of evaporation and mixing behaviors of nanodroplets at transcritical conditions},
volume = {331},
issn = {0016-2361},
url = {https://www.sciencedirect.com/science/article/pii/S0016236122026941},
doi = {https://doi.org/10.1016/j.fuel.2022.125870},
journal = {Fuel},
author = {Ly, Nguyen and Majumdar, Arijit and Ihme, Matthias},
year = {2023},
keywords = {Diffuse-interface method, Interface resolving, Nanodroplet evaporation, Transcritical condition},
pages = {125870},
}

D. Brouzet, G. Vignat, and M. Ihme, “Dynamics and structure of detonations in stratified product-gas diluted mixtures,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{brouzet2023dynamics,
title = {Dynamics and structure of detonations in stratified product-gas diluted mixtures},
issn = {1540-7489},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922002048},
doi = {10.1016/j.proci.2022.07.173},
journal = {{Proceedings of the Combustion Institute}},
author = {Brouzet, Davy and Vignat, Guillaume and Ihme, Matthias},
year = {2023},
keywords = {Detonation, Detonation velocity, Vitiated flows, ZND theory},
volume = {39, In press}
}

H. A. Michelsen, E. Boigné, P. E. Schrader, O. K. Johansson, M. F. Campbell, R. P. Bambha, and M. Ihme, “Jet-entrainment sampling: A new method for extracting particles from flames,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{michelsen2023jet,
title ={{Jet-entrainment sampling: A new method for extracting particles from flames}},
journal = {{Proceedings of the Combustion Institute}},
year = {2023},
issn = {1540-7489},
doi = {https://doi.org/10.1016/j.proci.2022.07.140},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922001729},
author = {Hope A. Michelsen and Emeric Boigné and Paul E. Schrader and K. Olof Johansson and Matthew F. Campbell and Ray P. Bambha and Matthias Ihme},
volume = {39, In press}
}

G. Vignat, B. Akoush, E. R. Toro, E. Boigné, and M. Ihme, “Combustion of lean ammonia-hydrogen fuel blends in a porous media burner,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{vignat2023ammonia,
title = {Combustion of lean ammonia-hydrogen fuel blends in a porous media burner},
issn = {1540-7489},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922000827},
doi = {https://doi.org/10.1016/j.proci.2022.07.054},
journal = {{Proceedings of the Combustion Institute}},
author = {Vignat, Guillaume and Akoush, Bassem and Toro, Edna R. and Boigné, Emeric and Ihme, Matthias},
year = {2023},
keywords = {Ammonia combustion, Carbon-free combustion, Flame stabilization, Porous media},
volume = {39, In press}
}

M. Bonanni and M. Ihme, “Interaction of preferential evaporation and low-temperature chemistry in multicomponent counterflow spray flames,” Proceedings of the Combustion Institute, vol. 39, In press, 2023.
[Bibtex]

@article{bonanni2023multicomponent,
title = {Interaction of preferential evaporation and low-temperature chemistry in multicomponent counterflow spray flames},
issn = {1540-7489},
url = {https://www.sciencedirect.com/science/article/pii/S1540748922000062},
doi = {10.1016/j.proci.2022.06.006},
journal = {{Proceedings of the Combustion Institute}},
author = {Bonanni, Matthew and Ihme, Matthias},
year = {2023},
keywords = {Counterflow spray flame, Low-temperature chemistry, Preferential evaporation, Spray combustion},
volume = {39, In press}
}

2022

N. Singh, F. Simeski, and M. Ihme, “Computing Thermodynamic Properties of Fluids Augmented by Nanoconfinement: Application to Pressurized Methane,” The Journal of Physical Chemistry B, vol. 126, iss. 43, pp. 8623-8631, 2022.
[Bibtex]

@article{singh2022thermodynamic,
author = {Singh, Narendra and Simeski, Filip and Ihme, Matthias},
title = {{Computing Thermodynamic Properties of Fluids Augmented by Nanoconfinement: Application to Pressurized Methane}},
journal = {{The Journal of Physical Chemistry B}},
volume = {126},
number = {43},
pages = {8623-8631},
year = {2022},
doi = {10.1021/acs.jpcb.2c04347},
url = {https://doi.org/10.1021/acs.jpcb.2c04347},
}

E. Boigné, D. Y. Parkinson, and M. Ihme, “Towards data-informed motion artifact reduction in quantitative CT using piecewise linear interpolation,” IEEE Transactions on Computational Imaging, vol. 8, pp. 917-932, 2022.
[Bibtex]

@article{boigne2022towards,
author={Boign{\'e}, Emeric and Parkinson, Dilworth Y. and Ihme, Matthias},
journal={{IEEE Transactions on Computational Imaging}},
title={{Towards data-informed motion artifact reduction in quantitative CT using piecewise linear interpolation}},
year={2022},
volume={8},
pages={917-932},
doi={10.1109/TCI.2022.3215096}
}

W. T. Chung, K. S. Jung, J. H. Chen, and M. Ihme, “BLASTNet: A call for community-involved big data in combustion machine learning,” Applications in Energy and Combustion Science, vol. 12, p. 100087, 2022.
[Bibtex]

@article{chung2022blastnet,
title = {{BLASTNet: A call for community-involved big data in combustion machine learning}},
journal = {{Applications in Energy and Combustion Science}},
volume = {12},
pages = {100087},
year = {2022},
issn = {2666-352X},
doi = {https://doi.org/10.1016/j.jaecs.2022.100087},
url = {https://www.sciencedirect.com/science/article/pii/S2666352X22000309},
author = {Wai Tong Chung and Ki Sung Jung and Jacqueline H. Chen and Matthias Ihme},
keywords = {Big data, Deep learning, Direct numerical simulation, BLASTNet},
}

D. Brouzet, S. You, M. A. Plascencia, M. Roa, and M. Ihme, “The dynamics of non-premixed flames subjected to a transverse acoustic mode,” Combustion and Flame, vol. 246, p. 112330, 2022.
[Bibtex]

@article{brouzet2022dynamics,
title = {{The dynamics of non-premixed flames subjected to a transverse acoustic mode}},
journal = {{Combustion and Flame}},
volume = {246},
pages = {112330},
year = {2022},
issn = {0010-2180},
doi = {10.1016/j.combustflame.2022.112330},
url = {https://www.sciencedirect.com/science/article/pii/S0010218022003455},
author = {Brouzet, Davy and You, Shanni and Plascencia, Miguel A. and Roa, Mario and Ihme, Matthias},
keywords = {Acoustic excitation, Large eddy simulation, Lifted flames, Non-premixed combustion},
}

N. Ly and M. Ihme, “Destabilization of binary mixing layer in supercritical conditions,” Journal of Fluid Mechanics, vol. 945, p. R2, 2022.
[Bibtex]

@article{ly2022destabilization,
title={Destabilization of binary mixing layer in supercritical conditions},
volume={945},
DOI={10.1017/jfm.2022.570},
journal={{Journal of Fluid Mechanics}},
publisher={Cambridge University Press},
author={Ly, Nguyen and Ihme, Matthias},
year={2022},
pages={R2}
}

C. Wei, N. Perakis, D. I. Pineda, F. N. Egolfopoulos, M. Ihme, and M. R. Spearrin, “Turbulence-induced bias in time-averaged laser absorption tomography of correlated concentration and temperature fields with a first-order correction,” Combustion and Flame, vol. 242, p. 112210, 2022.
[Bibtex]

@article{wei2022turbulence,
title = {Turbulence-induced bias in time-averaged laser absorption tomography of correlated concentration and temperature fields with a first-order correction},
journal = {{Combustion and Flame}},
volume = {242},
pages = {112210},
year = {2022},
issn = {0010-2180},
doi = {https://doi.org/10.1016/j.combustflame.2022.112210},
url = {https://www.sciencedirect.com/science/article/pii/S0010218022002255},
author = {Chuyu Wei and Nikolaos Perakis and Daniel I. Pineda and Fokion N. Egolfopoulos and Matthias Ihme and R. Mitchell Spearrin},
keywords = {Turbulent combustion, Absorption spectroscopy, Large-eddy simulations, Fuel chemistry},
}

M. Ihme, W. T. Chung, and A. A. Mishra, “Combustion machine learning: principles, progress and prospects,” Progress in Energy and Combustion Science, vol. 91, p. 101010, 2022.
[Bibtex]

@article{ihme2022ml,
title = {Combustion machine learning: Principles, progress and prospects},
journal = {{Progress in Energy and Combustion Science}},
volume = {91},
pages = {101010},
year = {2022},
issn = {0360-1285},
doi = {https://doi.org/10.1016/j.pecs.2022.101010},
url = {https://www.sciencedirect.com/science/article/pii/S0360128522000193},
author = {Matthias Ihme and Wai Tong Chung and Aashwin Ananda Mishra},
keywords = {Machine learning, Data-driven methods, Combustion},
}

E. J. Ching, K. Bensassi, Y. Lv, and M. Ihme, “Computation of hypersonic viscous flows with the thermally perfect gas model using a discontinuous galerkin method,” International Journal for Numerical Methods in Fluids, vol. 94, pp. 1-35, 2022.
[Bibtex]

@article{ching2022hypersonic,
title={Computation of hypersonic viscous flows with the thermally perfect gas model using a discontinuous Galerkin method},
volume={94},
doi={10.1002/fld.5079},
journal={{International Journal for Numerical Methods in Fluids}},
author={Ching, Eric J. and Bensassi, Khalil and Lv, Yu and Ihme, Matthias},
year={2022},
pages={1-35}
}

J. Guo, X. I. A. Yang, and M. Ihme, “Structure of the thermal boundary layer in turbulent channel flows at transcritical conditions,” Journal of Fluid Mechanics, vol. 934, p. A45, 2022.
[Bibtex]

@article{guo2022structure,
title={Structure of the thermal boundary layer in turbulent channel flows at transcritical conditions},
volume={934},
doi={10.1017/jfm.2021.1157},
journal={{Journal of Fluid Mechanics}},
publisher={Cambridge University Press},
author={Guo, J. and Yang, X.I.A. and Ihme, M.},
year={2022},
pages={A45}
}

C. Shao, D. Brouzet, N. Rock, and M. Ihme, “Parametric analysis of core-noise from a realistic gas-turbine combustor for cruise and take-off conditions,” Applications in Energy and Combustion Science, vol. 9, p. 100045, 2022.
[Bibtex]

@article{shao2022parametric,
title = {Parametric analysis of core-noise from a realistic gas-turbine combustor for cruise and take-off conditions},
journal = {{Applications in Energy and Combustion Science}},
volume = {9},
pages = {100045},
year = {2022},
issn = {2666-352X},
doi = {https://doi.org/10.1016/j.jaecs.2021.100045},
url = {https://www.sciencedirect.com/science/article/pii/S2666352X2100025X},
author = {Changxiao Shao and Davy Brouzet and Nicholas Rock and Matthias Ihme},
keywords = {Combustion noise, Indirect noise, Gas-turbine combustor, Large-eddy simulation},
}

D. Mohaddes and M. Ihme, “On the hot surface ignition of a wall-stagnating spray flame,” Combustion and Flame, vol. 240, p. 111988, 2022.
[Bibtex]

@article{mohaddes2022hsi,
title = {On the hot surface ignition of a wall-stagnating spray flame},
journal = {{Combustion and Flame}},
volume = {240},
pages = {111988},
year = {2022},
issn = {0010-2180},
doi = {https://doi.org/10.1016/j.combustflame.2022.111988},
url = {https://www.sciencedirect.com/science/article/pii/S0010218022000074},
author = {Danyal Mohaddes and Matthias Ihme},
keywords = {Hot surface ignition, Spray ignition, Flame-wall interaction},
}

E. J. Ching, B. Bornhoft, A. Lasemi, and M. Ihme, “Quail: a lightweight open-source discontinuous galerkin code in python for teaching and prototyping,” SoftwareX, vol. 17, p. 100982, 2022.
[Bibtex]

@article{ching2022quail,
title = {Quail: A lightweight open-source discontinuous Galerkin code in Python for teaching and prototyping},
journal = {{SoftwareX}},
volume = {17},
pages = {100982},
year = {2022},
issn = {2352-7110},
doi = {https://doi.org/10.1016/j.softx.2022.100982},
url = {https://www.sciencedirect.com/science/article/pii/S235271102200005X},
author = {Eric J. Ching and Brett Bornhoft and Ali Lasemi and Matthias Ihme},
keywords = {Discontinuous Galerkin method, High-order methods, Python},
}

W. T. Chung, A. A. Mishra, and M. Ihme, “Interpretable data-driven methods for subgrid-scale closure in LES for transcritical LOX/GCH4 combustion,” Combustion and Flame, vol. 239, p. 111758, 2022.
[Bibtex]

@article{chung2021sgs,
title = {{Interpretable data-driven methods for subgrid-scale closure in LES for transcritical LOX/GCH4 combustion}},
author = {Chung, Wai Tong and Mishra, Aashwin Ananda and Ihme, Matthias},
journal = {{Combustion and Flame}},
volume={239},
pages = {111758},
year = {2022},
issn = {0010-2180},
doi = {https://doi.org/10.1016/j.combustflame.2021.111758},
}

E. Boigné, R. N. Bennett, A. Wang, and M. Ihme, “Structural analysis of biomass pyrolysis and oxidation using in-situ X-ray computed tomography,” Combustion and Flame, vol. 235, p. 111737, 2022.
[Bibtex]

@article{boigne2021structural,
title={{Structural analysis of biomass pyrolysis and oxidation using in-situ X-ray computed tomography}},
author={Boign{\'e}, Emeric and Bennett, N Robert and Wang, Adam and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={235},
year={2022},
pages={111737},
doi={10.1016/j.combustflame.2021.111737}
}

2021

C. Shao, K. Maeda, and M. Ihme, “Analysis of core-noise contributions in a realistic gas-turbine combustor operated near lean blow-out,” Proceedings of the Combustion Institute, vol. 38, iss. 4, pp. 6203-6211, 2021.
[Bibtex]

@article{shao2021corenoise,
title = {Analysis of core-noise contributions in a realistic gas-turbine combustor operated near lean blow-out},
volume = {38},
issn = {1540-7489},
doi = {10.1016/j.proci.2020.07.078},
language = {en},
number = {4},
urldate = {2022-12-19},
journal = {{Proceedings of the Combustion Institute}},
author = {Shao, Changxiao and Maeda, Kazuki and Ihme, Matthias},
month = jan,
year = {2021},
pages = {6203--6211},
}

E. Boigné, R. N. Bennett, A. Wang, and M. Ihme, “Quantitative x-ray computed tomography: prospects for detailed in-situ imaging in bench-scale fire measurements,” Fire Safety Journal, vol. 126, p. 103476, 2021.
[Bibtex]

@article{boigne2021quantitative,
title={Quantitative X-ray computed tomography: Prospects for detailed in-situ imaging in bench-scale fire measurements},
author={Boign{\'e}, Emeric and Bennett, N Robert and Wang, Adam and Ihme, Matthias},
journal={{Fire Safety Journal}},
volume={126},
pages={103476},
year={2021},
publisher={Elsevier},
doi={10.1016/j.firesaf.2021.103476}
}

L. M. Watson, E. M. Dunham, D. Mohaddes, J. Labahn, T. Jaravel, and M. Ihme, “Infrasound radiation from impulsive volcanic eruptions: nonlinear aeroacoustic 2D simulations,” Journal of Geophysical Research: Solid Earth, vol. 126, p. e2021JB021940, 2021.
[Bibtex]

@article{watson2021infrasound,
title={{Infrasound radiation from impulsive volcanic eruptions: nonlinear aeroacoustic 2D simulations}},
author={Watson, Leighton M. and Dunham, Eric M. and Mohaddes, Danyal and Labahn, Jeff and Jaravel, Thomas and Ihme, Matthias},
journal={{Journal of Geophysical Research: Solid Earth}},
volume={126},
issue={9},
pages={e2021JB021940},
year={2021},
publisher={Elsevier},
doi ={10.1029/2021JB021940}
}

N. Perakis, O. Haidn, and M. Ihme, “Heat transfer augmentation by recombination reactions in turbulent reacting boundary layers at elevated pressures,” International Journal of Heat and Mass Transfer, vol. 178, p. 121628, 2021.
[Bibtex]

@article{heat2021perakis,
title={{Heat transfer augmentation by recombination reactions in turbulent reacting boundary layers at elevated pressures}},
author={Perakis, Nikolaos and Haidn, Oskar and Ihme, Matthias},
journal={{International Journal of Heat and Mass Transfer}},
volume={178},
pages={121628},
year={2021},
publisher={Elsevier},
doi ={10.1016/j.ijheatmasstransfer.2021.121628}
}

E. Ching, M. Barnhardt, and M. Ihme, “Sensitivity of hypersonic dusty flows to physical modeling of the particle phase,” Journal of Spacecraft and Rockets, vol. 58, iss. 3, pp. 653-667, 2021.
[Bibtex]

@article{ching2021sensitivity,
title={{Sensitivity of hypersonic dusty flows to physical modeling of the particle phase}},
author={Ching, Eric and Barnhardt, Michael and Ihme, Matthias},
journal={{Journal of Spacecraft and Rockets}},
volume={58},
number={3},
pages={653--667},
year={2021},
publisher={American Institute of Aeronautics and Astronautics},
doi={10.2514/1.A34810}
}

M. S. Dodd, D. Mohaddes, A. Ferrante, and M. Ihme, “Analysis of droplet evaporation in isotropic turbulence through droplet-resolved DNS,” International Journal of Heat and Mass Transfer, vol. 172, p. 121157, 2021.
[Bibtex]

@article{analysis2021dodd,
title={{Analysis of droplet evaporation in isotropic turbulence through droplet-resolved DNS}},
author={Dodd, Michael S. and Mohaddes, Danyal and Ferrante, Antonino and Ihme, Matthias},
journal={{International Journal of Heat and Mass Transfer}},
volume={172},
pages={121157},
year={2021},
publisher={Elsevier},
doi ={10.1016/j.ijheatmasstransfer.2021.121157}
}

D. Mohaddes, P. Boettcher, and M. Ihme, “Hot surface ignition of a wall-impinging fuel spray: Modeling and analysis using large-eddy simulation,” Combustion and Flame, vol. 228, pp. 443-456, 2021.
[Bibtex]

@article{mohaddes2021hot,
title = {{Hot surface ignition of a wall-impinging fuel spray: Modeling and analysis using large-eddy simulation}},
author = {Mohaddes, Danyal and Boettcher, Philipp and Ihme, Matthias},
journal = {{Combustion and Flame}},
volume = {228},
pages = {443--456},
year = {2021},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2021.02.025},
}

W. T. Chung, A. A. Mishra, N. Perakis, and M. Ihme, “Data-assisted combustion simulations with dynamic submodel assignment using random forests,” Combustion and Flame, vol. 227, pp. 172-185, 2021.
[Bibtex]

@article{chung2021data,
title = {{Data-assisted combustion simulations with dynamic submodel assignment using random forests}},
author = {Chung, Wai Tong and Mishra, Aashwin Ananda and Perakis, Nikolaos and Ihme, Matthias},
journal = {{Combustion and Flame}},
volume = {227},
pages = {172--185},
year = {2021},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2020.12.041},
}

U. A. Qadri, L. Magri, M. Ihme, and P. J. Schmid, “Using adjoint-based optimization to enhance ignition in non-premixed jets,” Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 477, iss. 2245, p. 20200472, 2021.
[Bibtex]

@article{qadri2021using,
author = {Qadri, Ubaid Ali and Magri, Luca and Ihme, Matthias and Schmid, Peter J. },
title = {Using adjoint-based optimization to enhance ignition in non-premixed jets},
journal = {{Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences}},
volume = {477},
number = {2245},
pages = {20200472},
year = {2021},
doi = {10.1098/rspa.2020.0472}
}

M. -F. Lin, N. Singh, S. Liang, M. Mo, J. P. F. Nunes, K. Ledbetter, J. Yang, M. Kozina, S. Weathersby, X. Shen, A. A. Cordones, T. J. A. Wolf, C. D. Pemmaraju, M. Ihme, and X. J. Wang, “Imaging the short-lived hydroxyl-hydronium pair in ionized liquid water,” Science, vol. 374, iss. 6563, pp. 92-95, 2021.
[Bibtex]

@article{singh2021hydronium,
author = {M.-F. Lin and N. Singh and S. Liang and M. Mo and J. P. F. Nunes and K. Ledbetter and J. Yang and M. Kozina and S. Weathersby and X. Shen and A. A. Cordones and T. J. A. Wolf and C. D. Pemmaraju and M. Ihme and X. J. Wang },
title = {Imaging the short-lived hydroxyl-hydronium pair in ionized liquid water},
journal = {Science},
volume = {374},
number = {6563},
pages = {92-95},
year = {2021},
doi = {10.1126/science.abg3091}
}

J. C. Ferguson, S. Sobhani, and M. Ihme, “Pore-resolved simulations of porous media combustion with conjugate heat transfer,” Proceedings of the Combustion Institute, vol. 38, iss. 2, pp. 2127-2134, 2021.
[Bibtex]

@article{ferguson2020pore,
title={{Pore-resolved simulations of porous media combustion with conjugate heat transfer}},
author={Ferguson, Joseph C and Sobhani, Sadaf and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={2},
pages={2127--2134},
publisher={Elsevier},
doi={10.1016/j.proci.2020.06.064}
}

D. Mohaddes, W. Xie, and M. Ihme, “Analysis of low-temperature chemistry in a turbulent swirling spray flame near lean blow-out,” Proceedings of the Combustion Institute, vol. 38, iss. 2, pp. 3435-3443, 2021.
[Bibtex]

@article{mohaddes2020analysis,
title={{Analysis of low-temperature chemistry in a turbulent swirling spray flame near lean blow-out}},
author={Mohaddes, Danyal and Xie, Wenwen and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={2},
pages={3435--3443},
publisher={Elsevier},
doi={10.1016/j.proci.2020.08.030}
}

S. Sobhani, P. Muhunthan, E. Boigné, D. Mohaddes, and M. Ihme, “Experimental feasibility of tailored porous media burners enabled via additive manufacturing,” Proceedings of the Combustion Institute, vol. 38, iss. 4, pp. 6713-6722, 2021.
[Bibtex]

@article{sobhani2020experimental,
title={{Experimental feasibility of tailored porous media burners enabled via additive manufacturing}},
author={Sobhani, Sadaf and Muhunthan, Priyanka and Boign{\'e}, Emeric and Mohaddes, Danyal and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={4},
pages={6713--6722},
publisher={Elsevier},
doi={10.1016/j.proci.2020.06.120}
}

E. Boigné, R. N. Bennett, A. Wang, K. Mohri, and M. Ihme, “Simultaneous in-situ measurements of gas temperature and pyrolysis of biomass smoldering via X-ray computed tomography,” Proceedings of the Combustion Institute, vol. 38, iss. 3, pp. 3899-3907, 2021.
[Bibtex]

@article{boigne2020simultaneous,
title={{Simultaneous in-situ measurements of gas temperature and pyrolysis of biomass smoldering via X-ray computed tomography}},
author={Boign{\'e}, Emeric and Bennett, N Robert and Wang, Adam and Mohri, Khadijeh and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={3},
pages={3899--3907},
publisher={Elsevier},
doi={10.1016/j.proci.2020.06.070}
}

J. Wei, A. Ostadhossein, S. Li, and M. Ihme, “Kinetics for the hydrolysis of Ti (OC3H7) 4: A molecular dynamics simulation study,” Proceedings of the Combustion Institute, vol. 38, iss. 1, pp. 1433-1440, 2021.
[Bibtex]

@article{wei2020kinetics,
title={{Kinetics for the hydrolysis of Ti (OC3H7) 4: A molecular dynamics simulation study}},
author={Wei, Jili and Ostadhossein, Alireza and Li, Shuiqing and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
publisher={Elsevier},
volume={38},
number={1},
pages={1433--1440},
doi={10.1016/j.proci.2020.06.345}
}

W. Xie, P. B. Govindaraju, Z. Ren, and M. Ihme, “Structural analysis and regime diagrams of laminar counterflow spray flames with low-temperature chemistry,” Proceedings of the Combustion Institute, vol. 38, iss. 2, pp. 3193-3200, 2021.
[Bibtex]

@article{xie2020structural,
title={{Structural analysis and regime diagrams of laminar counterflow spray flames with low-temperature chemistry}},
author={Xie, Wenwen and Govindaraju, Pavan B and Ren, Zhuyin and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={2},
pages={3193--3200},
publisher={Elsevier},
doi={10.1016/j.proci.2020.06.274}
}

D. Li and M. Ihme, “Stability diagram and blow-out mechanisms of turbulent non-premixed combustion,” Proceedings of the Combustion Institute, vol. 38, iss. 4, pp. 6337-6344, 2021.
[Bibtex]

@article{li2020stability,
title={{Stability diagram and blow-out mechanisms of turbulent non-premixed combustion}},
author={Li, Dong and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
publisher={Elsevier},
volume={38},
number={4},
pages={6337--6344},
doi={10.1016/j.proci.2020.06.225}
}

N. Perakis, O. J. Haidn, and M. Ihme, “Investigation of CO recombination in the boundary layer of CH4/O2 rocket engines,” Proceedings of the Combustion Institute, vol. 38, iss. 4, pp. 6403-6411, 2021.
[Bibtex]

@article{perakis2020investigation,
title={{Investigation of CO recombination in the boundary layer of CH4/O2 rocket engines}},
author={Perakis, Nikolaos and Haidn, Oskar J and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2021},
volume={38},
number={4},
pages={6403--6411},
publisher={Elsevier},
doi={10.1016/j.proci.2020.07.080}
}

2020

N. Singh, M. Kroells, C. Li, E. Ching, M. Ihme, C. J. Hogan, and T. E. Schwartzentruber, “General drag coefficient for flow over spherical particles,” Aiaa journal, pp. 1-11, 2020.
[Bibtex]

@article{singh2020drag,
author = {Singh, Narendra and Kroells, Michael and Li, Chenxi and Ching, Eric and Ihme, Matthias and Hogan, Christopher J. and Schwartzentruber, Thomas E.},
title = {General Drag Coefficient for Flow over Spherical Particles},
journal = {AIAA Journal},
volume = {0},
number = {0},
pages = {1-11},
year = {2020},
doi = {10.2514/1.J060648},
}

F. Simeski, A. M. P. Boelens, and M. Ihme, “Modeling Adsorption in Silica Pores via Minkowski Functionals and Molecular Electrostatic Moments,” Energies, 2020.
[Bibtex]

@article{simeski2020modeling,
title={{Modeling Adsorption in Silica Pores via Minkowski Functionals and Molecular Electrostatic Moments}},
author={Simeski, Filip and Boelens, Arnout M. P. and Ihme, Matthias},
journal={{Energies}},
year={2020},
publisher={MDPI},
doi={10.3390/en13225976}
}

Q. Douasbin, M. Ihme, and C. Arndt, “Pareto-efficient combustion framework for predicting transient ignition dynamics in turbulent flames: Application to a pulsed jet-in-hot-coflow flame,” Combustion and Flame, vol. 223, pp. 153-165, 2020.
[Bibtex]

@article{douasbin2020pareto,
title={{Pareto-efficient combustion framework for predicting transient ignition dynamics in turbulent flames: Application to a pulsed jet-in-hot-coflow flame}},
author={Douasbin, Quentin and Ihme, Matthias and Arndt, Christoph},
journal={{Combustion and Flame}},
volume={223},
pages={153--165},
year={2020},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2020.09.031}
}

D. I. Pineda, L. Paxton, N. Perakis, C. Wei, S. Luna, H. Kahouli, M. Ihme, F. N. Egolfopoulos, and M. R. Spearrin, “Carbon oxidation in turbulent premixed jet flames: A comparative experimental and numerical study of ethylene, n-heptane, and toluene,” Combustion and flame, vol. 221, pp. 371-383, 2020.
[Bibtex]

@article{pineda2020carbon,
title={{Carbon oxidation in turbulent premixed jet flames: A comparative experimental and numerical study of ethylene, n-heptane, and toluene}},
author={Pineda, Daniel I and Paxton, Laurel and Perakis, Nikolaos and Wei, Chuyu and Luna, Steven and Kahouli, Hiba and Ihme, Matthias and Egolfopoulos, Fokion N and Spearrin, R Mitchell},
journal={Combustion and Flame},
volume={221},
pages={371--383},
year={2020},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2020.08.008}
}

D. Mohaddes, C. T. Chang, and M. Ihme, “Thermodynamic cycle analysis of superadiabatic matrix-stabilized combustion for gas turbine engines,” Energy, vol. 207, p. 118171, 2020.
[Bibtex]

@article{mohaddes2020thermodynamic,
title={Thermodynamic cycle analysis of superadiabatic matrix-stabilized combustion for gas turbine engines},
author={Mohaddes, Danyal and Chang, Clarence T and Ihme, Matthias},
journal={Energy},
pages={118171},
year={2020},
volume={207},
publisher={Elsevier},
doi = {10.1016/j.energy.2020.118171}
}

D. Banuti, M. Raju, and M. Ihme, “Between supercritical liquids and gases–reconciling dynamic and thermodynamic state transitions,” The Journal of Supercritical Fluids, vol. 165, p. 104895, 2020.
[Bibtex]

@article{banuti2020between,
title={Between supercritical liquids and gases--reconciling dynamic and thermodynamic state transitions},
author={Banuti, DT and Raju, M and Ihme, M},
journal={{The Journal of Supercritical Fluids}},
pages={104895},
year={2020},
publisher={Elsevier},
volume={165},
doi = {10.1016/j.supflu.2020.104895}
}

S. Sobhani, S. Allan, P. Muhunthan, E. Boigné, and M. Ihme, “Additive manufacturing of tailored macroporous ceramic structures for high-temperature applications,” Advanced Engineering Materials, vol. 22, iss. 8, p. 2000158, 2020.
[Bibtex]

@article{sobhani2020additive,
author = {Sobhani, Sadaf and Allan, Shawn and Muhunthan, Priyanka and Boign\'e, Emeric and Ihme, Matthias},
title = {Additive Manufacturing of Tailored Macroporous Ceramic Structures for High-Temperature Applications},
journal = {{Advanced Engineering Materials}},
volume={22},
number={8},
pages={2000158},
doi = {10.1002/adem.202000158},
year = {2020}
}

C. F. Silva, P. Pettersson, G. Iaccarino, and M. Ihme, “Uncertainty quantification of combustion noise by generalized polynomial chaos and state-space models,” Combustion and Flame, vol. 217, pp. 113-130, 2020.
[Bibtex]

@article{silva2020uncertainty,
title = {{Uncertainty quantification of combustion noise by generalized polynomial chaos and state-space models}},
author = {Silva, C.F. and Pettersson, P. and Iaccarino, G. and Ihme, M.},
journal = {{Combustion and Flame}},
volume = {217},
pages = {113 - 130},
year = {2020},
issn = {0010-2180},
doi = {10.1016/j.combustflame.2020.03.010}
}

K. Grogan and M. Ihme, “StanShock: a gas-dynamic model for shock tube simulations with non-ideal effects and chemical kinetics,” Shock Waves, pp. 1-14, 2020.
[Bibtex]

@article{grogan2020stanshock,
title={{StanShock: a gas-dynamic model for shock tube simulations with non-ideal effects and chemical kinetics}},
author={Grogan, K and Ihme, M},
journal={{Shock Waves}},
pages={1--14},
publisher={Springer},
year={2020},
doi={10.1007/s00193-019-00935-x}
}

2019

E. J. Ching, S. R. Brill, M. Barnhardt, and M. Ihme, “A two-way-coupled Euler-Lagrange method for simulating multiphase flows with discontinuous Galerkin schemes on arbitrary curved elements,” Journal of computational physics, vol. 405, p. 109096, 2019.
[Bibtex]

@article{ching2019two,
title={{A two-way-coupled Euler-Lagrange method for simulating multiphase flows with discontinuous Galerkin schemes on arbitrary curved elements}},
author={Ching, Eric J and Brill, Steven R and Barnhardt, Michael and Ihme, Matthias},
journal={Journal of Computational Physics},
pages={109096},
volume={405},
year={2019},
publisher={Elsevier},
doi={10.1016/j.jcp.2019.109096}
}

J. W. Labahn, H. Wu, S. R. Harris, B. Coriton, J. H. Frank, and M. Ihme, “Ensemble Kalman filter for assimilating experimental data into large-eddy simulations of turbulent flows,” Flow, turbulence and combustion, 2019.
[Bibtex]

@article{labahn2019ensemble,
author = {Labahn, Jeffrey W. and Wu, Hao and Harris, Shaun R. and Coriton, Bruno and Frank, Jonathan H. and Ihme, Matthias},
doi = {doi.org/10.1007/s10494-019-00093-1},
journal={Flow, Turbulence and Combustion},
publisher = {Springer},
title = {{Ensemble Kalman filter for assimilating experimental data into large-eddy simulations of turbulent flows}},
url = {https://doi-org.stanford.idm.oclc.org/10.1007/s10494-019-00093-1},
%volume = {},
%number = {},
%pages = {},
year = {2019}
}

S. Sobhani, J. Legg, D. F. Bartz, J. J. Kojima, C. T. Chang, J. D. Sullivan, J. P. Moder, and M. Ihme, “Experimental investigation of lean premixed pre-vaporized liquid-fuel combustion in porous media burners at elevated pressures up to 20 bar,” Combustion and flame, vol. 212, pp. 123-134, 2019.
[Bibtex]

@article{sobhani2019experimental,
author = {Sobhani, Sadaf and Legg, Justin and Bartz, David F and Kojima, Jun J and Chang, Clarence T and Sullivan, John D and Moder, Jeffrey P and Ihme, Matthias},
doi = {10.1016/j.combustflame.2019.10.033},
issn = {0010-2180},
journal = {Combustion and Flame},
keywords = {Porous media combustion,Ceramic foams,Gas-turbines,Liquid fuel,High pressure combustion,porous media combustion},
pages = {123--134},
publisher = {Elsevier Inc.},
title = {{Experimental investigation of lean premixed pre-vaporized liquid-fuel combustion in porous media burners at elevated pressures up to 20 bar}},
url = {https://doi.org/10.1016/j.combustflame.2019.10.033},
volume = {212},
year = {2019}
}

A. Ostadhossein, J. Guo, F. Simeski, and M. Ihme, “Functionalization of 2D materials for enhancing OER/ORR catalytic activity in Li–oxygen batteries,” Communications chemistry, vol. 2, iss. 1, p. 95, 2019.
[Bibtex]

@article{ostadhossein2019functionalization,
Author = {Ostadhossein, Alireza and Guo, Jack and Simeski, Filip and Ihme, Matthias},
Doi = {10.1038/s42004-019-0196-2},
Isbn = {2399-3669},
Journal = {Communications Chemistry},
Number = {1},
Pages = {95},
Title = {{Functionalization of 2D materials for enhancing OER/ORR catalytic activity in Li--oxygen batteries}},
Volume = {2},
Year = {2019},
}

W. T. Chung, P. C. Ma, and M. Ihme, “Examination of diesel spray combustion in supercritical ambient fluid using large-eddy simulations,” International journal of engine research, 2019.
[Bibtex]

@article{chung2019examination,
title={Examination of diesel spray combustion in supercritical ambient fluid using large-eddy simulations},
author={Chung, Wai Tong and Ma, Peter C and Ihme, Matthias},
journal={International Journal of Engine Research},
year={2019},
publisher={SAGE Publications Sage UK: London, England},
doi = {10.1177/1468087419868388}
}

H. Wu, P. C. Ma, and M. Ihme, “Efficient time-stepping techniques for simulating turbulent reactive flows with stiff chemistry,” Computer Physics Communications, vol. 243, pp. 81-96, 2019.
[Bibtex]

@article{wu2019efficient,
title = {{Efficient time-stepping techniques for simulating turbulent reactive flows with stiff chemistry}},
journal = {{Computer Physics Communications}},
volume = "243",
pages = "81 - 96",
year = "2019",
issn = "0010-4655",
doi = {10.1016/j.cpc.2019.04.016},
author = "Hao Wu and Peter C. Ma and Matthias Ihme"
}

Q. Wang, X. Zhao, and M. Ihme, “A regularized deconvolution model for sub-grid dispersion in large eddy simulation of turbulent spray flames,” Combustion and Flame, vol. 207, pp. 89-100, 2019.
[Bibtex]

@article{wang2019regularized,
title={A regularized deconvolution model for sub-grid dispersion in large eddy simulation of turbulent spray flames},
author={Wang, Qing and Zhao, Xinyu and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={207},
pages={89--100},
year={2019},
publisher={Elsevier},
doi={10.1016/j.combustflame.2019.05.032}
}

P. C. Ma, H. Wu, D. T. Banuti, and M. Ihme, “On the numerical behavior of diffuse-interface methods for transcritical real-fluids simulations,” International Journal of Multiphase Flow, vol. 113, pp. 231-249, 2019.
[Bibtex]

@article{ma2019numerical,
title={{On the numerical behavior of diffuse-interface methods for transcritical real-fluids simulations}},
author={Ma, Peter C and Wu, Hao and Banuti, Daniel T and Ihme, Matthias},
journal={{International Journal of Multiphase Flow}},
volume={113},
pages={231--249},
year={2019},
publisher={Elsevier},
doi={10.1016/j.ijmultiphaseflow.2019.01.015}
}

E. Boigné, P. Muhunthan, D. Mohaddes, Q. Wang, S. Sobhani, W. Hinshaw, and M. Ihme, “X-ray computed tomography for flame-structure analysis of laminar premixed flames,” Combustion and Flame, vol. 200, pp. 142-154, 2019.
[Bibtex]

@article{boigne2019x,
title={{X-ray computed tomography for flame-structure analysis of laminar premixed flames}},
author={Boign{\'e}, Emeric and Muhunthan, Priyanka and Mohaddes, Danyal and Wang, Qing and Sobhani, Sadaf and Hinshaw, Waldo and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={200},
pages={142--154},
year={2019},
publisher={Elsevier},
doi={10.1016/j.combustflame.2018.11.015}
}

T. Jaravel, H. Wu, and M. Ihme, “Error-controlled kinetics reduction based on non-linear optimization and sensitivity analysis,” Combustion and Flame, vol. 200, pp. 192-206, 2019.
[Bibtex]

@article{jaravel2019error,
title={Error-controlled kinetics reduction based on non-linear optimization and sensitivity analysis},
author={Jaravel, Thomas and Wu, Hao and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={200},
pages={192--206},
year={2019},
publisher={Elsevier},
doi={10.1016/j.combustflame.2018.11.007}
}

E. J. Ching, Y. Lv, P. Gnoffo, M. Barnhardt, and M. Ihme, “Shock capturing for discontinuous Galerkin methods with application to predicting heat transfer in hypersonic flows,” Journal of Computational Physics, vol. 376, pp. 54-75, 2019.
[Bibtex]

@article{ching2018shock,
title={Shock capturing for discontinuous {G}alerkin methods with application to predicting heat transfer in hypersonic flows},
author={Ching, Eric J and Lv, Yu and Gnoffo, Peter and Barnhardt, Michael and Ihme, Matthias},
journal={{Journal of Computational Physics}},
year={2019},
volume={376},
pages={54--75},
publisher={Elsevier},
doi={10.1016/j.jcp.2018.09.016}
}

P. B. Govindaraju, T. Jaravel, and M. Ihme, “Coupling of turbulence on the ignition of multicomponent sprays,” Proceedings of the Combustion Institute, vol. 37, iss. 3, pp. 3295-3302, 2019.
[Bibtex]

@article{govindaraju2019coupling,
title={Coupling of turbulence on the ignition of multicomponent sprays},
author={Govindaraju, Pavan B and Jaravel, Thomas and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={3},
pages={3295--3302},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.05.166}
}

T. Jaravel, J. Labahn, B. Sforzo, J. Seitzman, and M. Ihme, “Numerical study of the ignition behavior of a post-discharge kernel in a turbulent stratified crossflow,” Proceedings of the Combustion Institute, vol. 37, iss. 4, pp. 5065-5072, 2019.
[Bibtex]

@article{jaravel2019numerical,
title={Numerical study of the ignition behavior of a post-discharge kernel in a turbulent stratified crossflow},
author={Jaravel, T and Labahn, J and Sforzo, B and Seitzman, J and Ihme, M},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={4},
pages={5065--5072},
year={2019},
doi={10.1016/j.proci.2018.06.226}
}

K. P. Grogan and M. Ihme, “A new ignition time model applied to super knock,” Proceedings of the Combustion Institute, vol. 37, iss. 3, pp. 3487-3494, 2019.
[Bibtex]

@article{grogan2019new,
title={A new ignition time model applied to super knock},
author={Grogan, Kevin P and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={3},
pages={3487--3494},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.07.055}
}

P. C. Ma, H. Wu, J. W. Labahn, T. Jaravel, and M. Ihme, “Analysis of transient blow-out dynamics in a swirl-stabilized combustor using large-eddy simulations,” Proceedings of the Combustion Institute, vol. 37, iss. 4, pp. 5073-5082, 2019.
[Bibtex]

@article{ma2019analysis,
title={Analysis of transient blow-out dynamics in a swirl-stabilized combustor using large-eddy simulations},
author={Ma, Peter C and Wu, Hao and Labahn, Jeffrey W and Jaravel, Thomas and Ihme, Matthias},
volume={37},
number={4},
pages={5073--5082},
journal={{Proceedings of the Combustion Institute}},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.06.066}
}

Q. Wang, T. Jaravel, and M. Ihme, “Assessment of spray combustion models in large-eddy simulations of a polydispersed acetone spray flame,” Proceedings of the Combustion Institute, vol. 37, iss. 3, pp. 3335-3344, 2019.
[Bibtex]

@article{wang2019assessment,
title={Assessment of spray combustion models in large-eddy simulations of a polydispersed acetone spray flame},
author={Wang, Qing and Jaravel, Thomas and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={3},
pages={3335--3344},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.06.011}
}

H. Wu, P. C. Ma, T. Jaravel, and M. Ihme, “Pareto-efficient combustion modeling for improved CO-emission prediction in LES of a piloted turbulent dimethyl ether jet flame,” Proceedings of the Combustion Institute, vol. 37, iss. 2, pp. 2267-2276, 2019.
[Bibtex]

@article{wu2019pareto,
title={{Pareto-efficient combustion modeling for improved CO-emission prediction in LES of a piloted turbulent dimethyl ether jet flame}},
author={Wu, Hao and Ma, Peter C and Jaravel, Thomas and Ihme, Matthias},
volume={37},
number={2},
pages={2267--2276},
journal={{Proceedings of the Combustion Institute}},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.08.010}
}

S. Sobhani, D. Mohaddes, E. Boigné, P. Muhunthan, and M. Ihme, “Modulation of heat transfer for extended flame stabilization in porous media burners via topology gradation,” Proceedings of the Combustion Institute, vol. 37, iss. 4, pp. 5697-5704, 2019.
[Bibtex]

@article{sobhani2019,
title={Modulation of heat transfer for extended flame stabilization in porous media burners via topology gradation},
author={Sobhani, Sadaf and Mohaddes, Danyal and Boign\'e, Emeric and Muhunthan, Priyanka and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={4},
pages={5697--5704},
year={2019},
publisher={Elsevier},
doi = {10.1016/j.proci.2018.05.155}
}

P. C. Ma, H. Wu, T. Jaravel, L. Bravo, and M. Ihme, “Large-eddy simulations of transcritical injection and auto-ignition using diffuse-interface method and finite-rate chemistry,” Proceedings of the Combustion Institute, vol. 37, iss. 3, pp. 3303-3310, 2019.
[Bibtex]

@article{ma2019,
title={Large-eddy simulations of transcritical injection and auto-ignition using diffuse-interface method and finite-rate chemistry},
author={Ma, Peter C and Wu, Hao and Jaravel, Thomas and Bravo, Luis and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={3},
pages={3303--3310},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.05.063}
}

J. W. Labahn, H. Wu, B. Coriton, J. H. Frank, and M. Ihme, “Data assimilation using high-speed measurements and les to examine local extinction events in turbulent flames,” Proceedings of the Combustion Institute, vol. 37, iss. 2, pp. 2259-2266, 2019.
[Bibtex]

@article{labahn2019,
title={Data assimilation using high-speed measurements and LES to examine local extinction events in turbulent flames},
author={Labahn, Jeffrey W and Wu, Hao and Coriton, Bruno and Frank, Jonathan H and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
volume={37},
number={2},
pages={2259--2266},
year={2019},
publisher={Elsevier},
doi={10.1016/j.proci.2018.06.043}
}

M. Ihme, P. C. Ma, and L. Bravo, “Large eddy simulations of diesel-fuel injection and auto-ignition at transcritical conditions,” International Journal of Engine Research, vol. 20, iss. 1, pp. 58-68, 2019.
[Bibtex]

@article{ihme2019large,
title={Large eddy simulations of diesel-fuel injection and auto-ignition at transcritical conditions},
author={Ihme, Matthias and Ma, Peter C and Bravo, Luis},
journal={{International Journal of Engine Research}},
volume={20},
number={1},
pages={58--68},
year={2019},
publisher={SAGE Publications Sage UK: London, England},
doi={10.1177/1468087418819546}
}

2018

M. Ihme, P. C. Ma, and L. Bravo, “Computational modeling and analysis of Diesel-fuel injection and autoignition at transcritical conditions,” Arxiv e-prints, 2018.
[Bibtex]

@ARTICLE{ihme2018computational,
author = {Ihme, Matthias and Ma, Peter C and Bravo, Luis},
title = "{Computational modeling and analysis of Diesel-fuel injection and autoignition at transcritical conditions}",
journal = {arXiv e-prints},
keywords = {Physics - Fluid Dynamics},
year = "2018",
month = "Sep",
eid = {arXiv:1809.08721},
archivePrefix = {arXiv},
eprint = {1809.08721},
primaryClass = {physics.flu-dyn},
adsurl = {https://ui.adsabs.harvard.edu/abs/2018arXiv180908721I},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}

P. C. Ma, X. I. Yang, and M. Ihme, “Structure of wall-bounded flows at transcritical conditions,” Physical Review Fluids, vol. 3, iss. 3, p. 34609, 2018.
[Bibtex]

@article{ma2018structure,
title={Structure of wall-bounded flows at transcritical conditions},
author={Ma, Peter C and Yang, Xiang IA and Ihme, Matthias},
journal={{Physical Review Fluids}},
volume={3},
number={3},
pages={034609},
year={2018},
publisher={APS},
doi = {10.1103/PhysRevFluids.3.034609}
}

K. Grogan and M. Ihme, “Identification of governing physical processes of irregular combustion through machine learning,” Shock Waves, pp. 1-14, 2018.
[Bibtex]

@article{grogan2018identification,
title={Identification of governing physical processes of irregular combustion through machine learning},
author={Grogan, KP and Ihme, M},
journal={{Shock Waves}},
pages={1--14},
year={2018},
publisher={Springer},
doi={10.1007/s00193-018-0852-y}
}

S. Gierth, F. Hunger, S. Popp, H. Wu, M. Ihme, and C. Hasse, “Assessment of differential diffusion effects in flamelet modeling of oxy-fuel flames,” Combustion and Flame, vol. 197, pp. 134-144, 2018.
[Bibtex]

@article{gierth2018assessment,
title={Assessment of differential diffusion effects in flamelet modeling of oxy-fuel flames},
author={Gierth, Sandro and Hunger, Franziska and Popp, Sebastian and Wu, Hao and Ihme, Matthias and Hasse, Christian},
journal={{Combustion and Flame}},
volume={197},
pages={134--144},
year={2018},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2018.07.023}
}

D. T. Banuti, P. C. Ma, J. Hickey, and M. Ihme, “Thermodynamic structure of supercritical LOX–GH2 diffusion flames,” Combustion and Flame, vol. 196, pp. 364-376, 2018.
[Bibtex]

@article{banuti2018,
title={{Thermodynamic structure of supercritical LOX–GH2 diffusion flames}},
author={Banuti, Daniel T and Ma, Peter C and Hickey, Jean-Pierre and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={196},
pages={364--376},
year={2018},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2018.06.016}
}

P. C. Ma, H. Wu, M. Ihme, and J. Hickey, “Nonadiabatic flamelet formulation for predicting wall heat transfer in rocket engines,” AIAA Journal, pp. 1-14, 2018.
[Bibtex]

@article{ma2018nonadia,
Annote = {doi: 10.2514/1.J056539},
Author = {Ma, Peter C. and Wu, Hao and Ihme, Matthias and Hickey, Jean-Pierre},
Booktitle = {{AIAA Journal}},
Date = {2018/04/03},
Doi = {10.2514/1.J056539},
Isbn = {0001-1452},
Journal = {{AIAA Journal}},
Journal1 = {{AIAA Journal}},
M3 = {doi: 10.2514/1.J056539},
Month = {2018/04/05},
Pages = {1--14},
Publisher = {{American Institute of Aeronautics and Astronautics}},
Title = {{Nonadiabatic flamelet formulation for predicting wall heat transfer in rocket engines}},
Ty = {JOUR},
Url = {https://doi.org/10.2514/1.J056539},
Year = {2018},
Year1 = {2018},
Bdsk-Url-1 = {https://doi.org/10.2514/1.J056539},
Bdsk-Url-2 = {http://dx.doi.org/10.2514/1.J056539}
}

Y. Lv, P. C. Ma, and M. Ihme, “On underresolved simulations of compressible turbulence using an entropy-bounded DG method: solution stabilization, scheme optimization, and benchmark against a finite-volume solver,” Computers & Fluids, vol. 161, pp. 89-106, 2018.
[Bibtex]

@article{lv2018underresolved,
title={{On underresolved simulations of compressible turbulence using an entropy-bounded DG method: solution stabilization, scheme optimization, and benchmark against a finite-volume solver}},
author={Lv, Yu and Ma, Peter C and Ihme, Matthias},
journal={{Computers \& Fluids}},
volume={161},
pages={89--106},
year={2018},
publisher={Elsevier},
doi = {10.1016/j.compfluid.2017.11.016}
}

P. B. Govindaraju and M. Ihme, “Formulation of optimal surrogate descriptions of fuels considering sensitivities to experimental uncertainties,” Combustion and Flame, vol. 188, pp. 337-356, 2018.
[Bibtex]

@article{govindaraju2018formulation,
title={Formulation of optimal surrogate descriptions of fuels considering sensitivities to experimental uncertainties},
author={Govindaraju, Pavan B and Ihme, Matthias},
journal={{Combustion and Flame}},
volume={188},
pages={337--356},
year={2018},
publisher={Elsevier},
doi = {10.1016/j.combustflame.2017.09.044}
}

M. Raju, P. B. Govindaraju, A. C. T. van Duin, and M. Ihme, “Atomistic and continuum scale modeling of functionalized graphyne membranes for water desalination,” Nanoscale, vol. 10, iss. 8, pp. 3969-3980, 2018.
[Bibtex]

@article{raju2018atomistic,
title={{Atomistic and continuum scale modeling of functionalized graphyne membranes for water desalination}},
author={Raju, Muralikrishna and Govindaraju, Pavan B. and van Duin, Adri C. T. and Ihme, Matthias},
journal={{Nanoscale}},
year={2018},
volume={10},
number={8},
pages={3969--3980},
publisher={{Royal Society of Chemistry}},
doi = {10.1039/C7NR07963J},
url ={http://dx.doi.org/10.1039/C7NR07963J}
}

M. Raju, A. van Duin, and M. Ihme, “Phase transitions of ordered ice in graphene nanocapillaries and carbon nanotubes,” Scientific Reports, vol. 8, iss. 1, p. 3851, 2018.
[Bibtex]

@article{raju2018phase,
abstract = {New phase diagrams for water confined in graphene nanocapillaries and single-walled carbon nanotubes (CNTs) are proposed, identifying ice structures, their melting points and revealing the presence of a solid-liquid critical point. For quasi-2D water in nanocapillaries, we show through molecular-dynamics simulations that AA stacking in multilayer quasi-2D ice arises from interlayer hydrogen-bonding and is stable up to three layers, thereby explaining recent experimental observations. Detailed structural and energetic analyses show that quasi-2D water can freeze discontinuously through a first-order phase transition or continuously with a critical point. The first-order transition line extends to a continuous transition line, defined by a sharp transition in diffusivity between solid-like and liquid-like regimes. For quasi-1D water, confined in CNTs, we observe the existence of a similar critical point at intermediate densities. In addition, an end point is identified on the continuous-transition line, above which the solid and liquid phases deform continuously. The solid-liquid phase transition temperatures in CNTs are shown to be substantially higher than 273 K, confirming recent Raman spectroscopy measurements. We observe ultrafast proton and hydroxyl transport in quasi-1D and -2D ice at 300 K, exceeding those of bulk water up to a factor of five, thereby providing possible applications to fuel-cells and electrolyzers.},
author = {Raju, Muralikrishna and van Duin, Adri and Ihme, Matthias},
doi = {10.1038/s41598-018-22201-3},
issn = {2045-2322},
journal = {{Scientific Reports}},
number = {1},
pages = {3851},
title = {{Phase transitions of ordered ice in graphene nanocapillaries and carbon nanotubes}},
url = {https://doi.org/10.1038/s41598-018-22201-3},
volume = {8},
year = {2018}
}

2017

G. Nastac, J. W. Labahn, L. Magri, and M. Ihme, “Lyapunov exponent as a metric for assessing the dynamic content and predictability of large-eddy simulations,” Phys. Rev. Fluids, vol. 2, p. 94606, 2017.
[Bibtex]

@article{PhysRevFluids.2.094606,
title = {Lyapunov exponent as a metric for assessing the dynamic content and predictability of large-eddy simulations},
author = {Nastac, Gabriel and Labahn, Jeffrey W. and Magri, Luca and Ihme, Matthias},
journal = {{Phys. Rev. Fluids}},
volume = {2},
issue = {9},
pages = {094606},
numpages = {24},
year = {2017},
month = {Sep},
publisher = {American Physical Society},
doi = {10.1103/PhysRevFluids.2.094606}
}

W. L. Chan and M. Ihme, “Flamelet regime characterization for non-premixed turbulent combustion simulations,” Combustion and Flame, vol. 186, iss. Supplement C, pp. 220-235, 2017.
[Bibtex]

@article{CHAN2017220,
title = "Flamelet regime characterization for non-premixed turbulent combustion simulations",
journal = {{Combustion and Flame}},
volume = "186",
number = "Supplement C",
pages = "220 - 235",
year = "2017",
issn = "0010-2180",
doi = "https://doi.org/10.1016/j.combustflame.2017.08.003",
author = "Wai Lee Chan and Matthias Ihme",
keywords = "Flamelet modeling",
keywords = "Non-premixed turbulent flame",
keywords = "Regime characterization",
keywords = "Large-eddy simulation"
}

B. Franzelli, A. Cuoci, A. Stagni, M. Ihme, T. Faravelli, and S. Candel, “Numerical investigation of soot-flame-vortex interaction,” Proceedings of the Combustion Institute, vol. 36, iss. 1, pp. 753-761, 2017.
[Bibtex]

@article{franzelli2017753,
title = "Numerical investigation of soot-flame-vortex interaction",
journal = {{Proceedings of the Combustion Institute}},
volume = "36",
number = "1",
pages = "753 - 761",
year = "2017",
issn = "1540-7489",
doi = "https://doi.org/10.1016/j.proci.2016.07.128",
url = "http://www.sciencedirect.com/science/article/pii/S154074891630387X",
author = "B. Franzelli and A. Cuoci and A. Stagni and M. Ihme and T. Faravelli and S. Candel",
keywords = "Soot",
keywords = "Curvature",
keywords = "Vortex",
keywords = "Strain rate",
keywords = "Heavy PAHs"
}

K. P. Grogan and M. Ihme, “Regimes describing shock boundary layer interaction and ignition in shock tubes,” Proceedings of the Combustion Institute, vol. 36, iss. 2, pp. 2927-2935, 2017.
[Bibtex]

@article{grogan20172927,
title = "Regimes describing shock boundary layer interaction and ignition in shock tubes",
journal = {{Proceedings of the Combustion Institute}},
volume = "36",
number = "2",
pages = "2927 - 2935",
year = "2017",
issn = "1540-7489",
doi = "https://doi.org/10.1016/j.proci.2016.06.078",
url = "http://www.sciencedirect.com/science/article/pii/S1540748916301365",
author = "Kevin P. Grogan and Matthias Ihme",
keywords = "Shock tube",
keywords = "Weak ignition",
keywords = "Shock wave bifurcation",
keywords = "Instabilities",
keywords = "Shock boundary layer interaction"
}

R. Johnson, H. Wu, and M. Ihme, “A general probabilistic approach for the quantitative assessment of LES combustion models,” Combustion and Flame, vol. 183, pp. 88-101, 2017.
[Bibtex]

@article{johnson201788,
title = {{A general probabilistic approach for the quantitative assessment of LES combustion models}},
journal = {{Combustion and Flame}},
volume = "183",
number = "",
pages = "88 - 101",
year = "2017",
note = "",
issn = "0010-2180",
doi = "https://doi.org/10.1016/j.combustflame.2017.05.004",
url = "http://www.sciencedirect.com/science/article/pii/S0010218017301712",
author = "Ross Johnson and Hao Wu and Matthias Ihme",
keywords = "Wasserstein metric",
keywords = "Model validation",
keywords = "Statistical analysis",
keywords = "Quantitative model comparison",
keywords = "Large-eddy simulation ",
abstract = "Abstract The Wasserstein metric is introduced as a probabilistic method to enable quantitative evaluations of \{LES\} combustion models. The Wasserstein metric can directly be evaluated from scatter data or statistical results through probabilistic reconstruction. The method is derived and generalized for turbulent reacting flows, and applied to validation tests involving a piloted turbulent jet flame with inhomogeneous inlets. It is shown that the Wasserstein metric is an effective validation tool that extends to multiple scalar quantities, providing an objective and quantitative evaluation of model deficiencies and boundary conditions on the simulation accuracy. Several test cases are considered, beginning with a comparison of mixture-fraction results, and the subsequent extension to reactive scalars, including temperature and species mass fractions of \{CO\} and CO2. To demonstrate the versatility of the proposed method in application to multiple datasets, the Wasserstein metric is applied to a series of different simulations that were contributed to the TNF-workshop. Analysis of the results allows to identify competing contributions to model deviations, arising from uncertainties in the boundary conditions and model deficiencies. These applications demonstrate that the Wasserstein metric constitutes an easily applicable mathematical tool that reduce multiscalar combustion data and large datasets into a scalar-valued quantitative measure. "
}

D. T. Banuti, M. Raju, and M. Ihme, “Similarity law for Widom lines and coexistence lines,” Phys. Rev. E, vol. 95, p. 52120, 2017.
[Bibtex]

@article{physreve.95.052120,
title = {{Similarity law for Widom lines and coexistence lines}},
author = {Banuti, D. T. and Raju, M. and Ihme, M.},
journal = {{Phys. Rev. E}},
volume = {95},
issue = {5},
pages = {052120},
numpages = {5},
year = {2017},
month = {May},
publisher = {American Physical Society},
doi = {10.1103/PhysRevE.95.052120},
url = {https://link.aps.org/doi/10.1103/PhysRevE.95.052120}
}

Y. Lv and M. Ihme, “High-order discontinuous galerkin method for applications to multicomponent and chemically reacting flows,” Acta Mechanica Sinica, vol. 33, iss. 3, pp. 486-499, 2017.
[Bibtex]

@Article{lvams2017,
author="Lv, Yu
and Ihme, Matthias",
title="High-order discontinuous Galerkin method for applications to multicomponent and chemically reacting flows",
journal={{Acta Mechanica Sinica}},
year="2017",
month="Jun",
day="01",
volume="33",
number="3",
pages="486--499",
abstract="This article focuses on the development of a discontinuous Galerkin (DG) method for simulations of multicomponent and chemically reacting flows. Compared to aerodynamic flow applications, in which DG methods have been successfully employed, DG simulations of chemically reacting flows introduce challenges that arise from flow unsteadiness, combustion, heat release, compressibility effects, shocks, and variations in thermodynamic properties. To address these challenges, algorithms are developed, including an entropy-bounded DG method, an entropy-residual shock indicator, and a new formulation of artificial viscosity. The performance and capabilities of the resulting DG method are demonstrated in several relevant applications, including shock/bubble interaction, turbulent combustion, and detonation. It is concluded that the developed DG method shows promising performance in application to multicomponent reacting flows. The paper concludes with a discussion of further research needs to enable the application of DG methods to more complex reacting flows.",
issn="1614-3116",
doi="10.1007/s10409-017-0664-9",
url="https://doi.org/10.1007/s10409-017-0664-9"
}

M. Ihme, “Combustion and engine-core noise,” Annual Review of Fluid Mechanics, vol. 49, pp. 277-310, 2017.
[Bibtex]

@article{ihme2017combustion,
title={Combustion and engine-core noise},
author={Ihme, Matthias},
journal={{Annual Review of Fluid Mechanics}},
volume={49},
pages={277--310},
year={2017},
publisher={Annual Reviews},
doi = {10.1146/annurev-fluid-122414-034542}
}

A. Stagni, Esclapez Lucas, P. Govindaraju, Cuoci Alberto, T. Faravelli, and M. Ihme, “The role of preferential evaporation on the ignition of multicomponent fuels in a homogeneous spray/air,” Proceedings of the Combustion Institute, vol. 36, iss. 2, pp. 2483-2491, 2017.
[Bibtex]

@article{STAGNI_ESCLAPEZ_GOVINDARAJU_CUOCI_FARAVELLI_IHME_PCI2017,
author = {Stagni, Alessandro and Esclapez, Lucas, and Govindaraju, Pavan and Cuoci, Alberto, and Faravelli, Tiziano and Ihme, Matthias},
journal = {{Proceedings of the Combustion Institute}},
title = {{The role of preferential evaporation on the ignition of multicomponent fuels in a homogeneous spray/air}},
volume={36},
number={2},
pages={2483--2491},
year = {2017},
doi = {10.1016/j.proci.2016.06.052}
}

J. O’Brien, C. A. Z. Towery, P. E. Hamlington, M. Ihme, Y. Poludnenko Alexei, and J. Urzay, “The cross-scale physical-space transfer of kinetic energy in turbulent premixed flames,” Proceedings of the Combustion Institute, vol. 36, iss. 2, pp. 1967-1975, 2017.
[Bibtex]

@article{OBRIEN_TOWERY_HAMLINGTON_IHME_POLUDNENKO_URZAY_PCI2017,
author = {O'Brien, Jeffrey and Towery, Colin A. Z. and Hamlington, Peter E. and Ihme, Matthias and Poludnenko, Alexei, Y. and Urzay, Javier},
journal = {{Proceedings of the Combustion Institute}},
title = {{The cross-scale physical-space transfer of kinetic energy in turbulent premixed flames}},
volume={36},
number={2},
pages={1967--1975},
year = {2017},
doi = {10.1016/j.proci.2016.05.005}
}

L. Magri, Y. C. See, O. Tammisola, M. Ihme, and M. P. Juniper, “Multiple-scale thermo-acoustic stability analysis of a coaxial jet combustor,” Proceedings of the Combustion Institute, vol. 36, iss. 3, pp. 3863-3871, 2017.
[Bibtex]

@article{MAGRI_SEE_TAMMISOLA_IHME_JUNIPER_PCI2017,
author = {Magri, Luca and See, Yee Chee and Tammisola, Outi and Ihme, Matthias and Juniper, Matthew P.},
journal = {{Proceedings of the Combustion Institute}},
title = {{Multiple-scale thermo-acoustic stability analysis of a coaxial jet combustor}},
volume={36},
number={3},
pages={3863--3871},
year = {2017},
doi = {10.1016/j.proci.2016.06.009}
}

M. J. Evans, P. R. Medwell, H. Wu, A. Stagni, and M. Ihme, “Classification and lift-off height prediction of non-premixed MILD and autoignitive flames,” Proceedings of the Combustion Institute, vol. 36, iss. 3, pp. 4297-4304, 2017.
[Bibtex]

@article{EVANS_MEDWELL_WU_STAGNI_IHME_PCI2017,
author = {Evans, Michael J. and Medwell, Paul R. and Wu, Hao and Stagni, Alessandro and Ihme, Matthias},
journal = {{Proceedings of the Combustion Institute}},
title = {{Classification and lift-off height prediction of non-premixed MILD and autoignitive flames}},
volume={36},
number={3},
pages={4297--4304},
year = {2017},
doi = {10.1016/j.proci.2016.06.013}
}

P. C. Ma, T. Ewan, C. Jainski, L. Lu, A. Dreizler, V. Sick, and M. Ihme, “Development and analysis of wall models for internal combustion engine simulations using high-speed micro-piv measurements,” Flow, Turbulence and Combustion, vol. 98, iss. 1, pp. 283-309, 2017.
[Bibtex]

@article{MA_EWAN_JAINSKI_LU_DREIZLER_SICK_IHME_FTC2016,
author="Ma, Peter C.
and Ewan, Tim
and Jainski, Christopher
and Lu, Louise
and Dreizler, Andreas
and Sick, Volker
and Ihme, Matthias",
title="Development and Analysis of Wall Models for Internal Combustion Engine Simulations Using High-speed Micro-PIV Measurements",
journal={{Flow, Turbulence and Combustion}},
year="2017",
month="Jan",
day="01",
volume="98",
number="1",
pages="283--309",
abstract="The performance, efficiency and emissions of internal combustion (IC) engines are affected by the thermo-viscous boundary layer region and heat transfer. Computational models for the prediction of engine performance typically rely on equilibrium wall-function models to overcome the need for resolving the viscous boundary layer structure. The wall shear stress and heat flux are obtained as boundary conditions for the outer flow calculation. However, these equilibrium wall-function models are typically derived by considering canonical flow configurations, introducing substantial modeling assumptions that are not necessarily justified for in-cylinder flows. The objective of this work is to assess the validity of several model approximations that are commonly introduced in the development of wall-function models for IC-engine applications. This examination is performed by considering crank-angle resolved high-resolution micro-particle image velocimetry ({\textmu}-PIV) measurements in a spark-ignition direct-injection single cylinder engine. Using these measurements, the performance of an algebraic equilibrium wall-function model commonly used in RANS and LES IC-engine simulations is evaluated. By identifying shortcomings of this model, a non-equilibrium differential wall model is developed and two different closures are considered for the determination of the turbulent viscosity. It is shown that both wall models provide adequate predictions if applied inside the viscous sublayer. However, the equilibrium wall-function model consistently underpredicts the shear stress if applied in the log-layer. In contrast, the non-equilibrium wall model provides improved predictions of the near-wall region and shear stress irrespective of the wall distance and the piston location. By utilizing the experimental data, significant adverse pressure gradients due to the large vortical motion inside the cylinder (induced by tumble, swirl and turbulence) are observed and included in the non-equilibrium wall model to further improve the model performance. These investigations are complemented by developing a consistent wall heat transfer model, and simulation results are compared against the equilibrium wall-function model and Woschni's empirical correlation.",
issn="1573-1987",
doi="10.1007/s10494-016-9734-5",
url="https://doi.org/10.1007/s10494-016-9734-5"
}

Q. Wang and M. Ihme, “Regularized deconvolution method for turbulent combustion modeling,” Combustion and Flame, vol. 176, p. 125–142, 2017.
[Bibtex]

@article{WANG_IHME_CF2017,
title = {{Regularized deconvolution method for turbulent combustion modeling}},
journal = {{Combustion and Flame}},
volume={176},
pages={125–142},
year={2017},
doi = "http://dx.doi.org/10.1016/j.combustflame.2016.09.023",
url = "http://www.sciencedirect.com/science/article/pii/S0010218016302929",
author = "Qing Wang and Matthias Ihme",
keywords = "Large-eddy simulation",
keywords = "Turbulent combustion",
keywords = "Deconvolution",
keywords = "Regularization",
keywords = "Partially-premixed combustion",
doi = {10.1016/j.combustflame.2016.09.023}
}

J. Dunnmon, S. Sobhani, M. Wu, R. Fahrig, and M. Ihme, “An investigation of internal flame structure in porous media combustion via x-ray computed tomography,” Proceedings of the Combustion Institute, vol. 36, iss. 3, pp. 4399-4408, 2017.
[Bibtex]

@article{dunnmon2016investigation,
title={An investigation of internal flame structure in porous media combustion via X-ray Computed Tomography},
author={Dunnmon, Jared and Sobhani, Sadaf and Wu, Meng and Fahrig, Rebecca and Ihme, Matthias},
journal={{Proceedings of the Combustion Institute}},
year={2017},
publisher={Elsevier},
volume={36},
number={3},
pages={4399--4408},
doi={10.1016/j.proci.2016.06.188}
}

L. Esclapez, P. C. Ma, E. Mayhew, R. Xu, S. Stouffer, T. Lee, H. Wang, and M. Ihme, “Fuel effects on lean blow-out in a realistic gas turbine combustor,” Combustion and Flame, vol. 181, pp. 82-99, 2017.
[Bibtex]

@ARTICLE{lucas_ma_cf2017,
AUTHOR = {Lucas Esclapez and Peter C. Ma and Eric Mayhew and Rui Xu and Scott Stouffer and Tonghun Lee and Hai Wang and Matthias Ihme},
TITLE = {Fuel effects on lean blow-out in a realistic gas turbine combustor},
YEAR = {2017},
JOURNAL = {{Combustion and Flame}},
VOLUME = 181,
PAGES = {82-99},
doi = {10.1016/j.combustflame.2017.02.035}
}

P. C. Ma, M. Greene, V. Sick, and M. Ihme, “Non-equilibrium wall-modeling for internal combustion engine simulations with wall heat transfer,” International Journal of Engine Research, vol. 18, iss. 1-2, pp. 15-25, 2017.
[Bibtex]

@article{ma2017non,
title={Non-equilibrium wall-modeling for internal combustion engine simulations with wall heat transfer},
author={Ma, P. C. and Greene, M. and Sick, V. and Ihme, M.},
journal={{International Journal of Engine Research}},
volume={18},
number={1-2},
pages={15--25},
year={2017},
publisher={SAGE Publications Sage UK: London, England},
doi={10.1177/1468087416686699}
}

P. C. Ma, Y. Lv, and M. Ihme, “An entropy-stable hybrid scheme for simulations of transcritical real-fluid flows,” Journal of Computational Physics, vol. 340, pp. 330-357, 2017.
[Bibtex]

@article{ma2017entropy,
title={An entropy-stable hybrid scheme for simulations of transcritical real-fluid flows},
author={Ma, Peter C and Lv, Yu and Ihme, Matthias},
journal={{Journal of Computational Physics}},
year={2017},
publisher={Elsevier},
volume={340},
pages={330--357},
doi={10.1016/j.jcp.2017.03.022}
}

M. Raju, D. T. Banuti, P. C. Ma, and M. Ihme, “Widom lines in binary mixtures of supercritical fluids,” Scientific Reports, vol. 7, 2017.
[Bibtex]

@article{raju2017widom,
title={Widom Lines in Binary Mixtures of Supercritical Fluids},
author={Raju, Muralikrishna and Banuti, Daniel T and Ma, Peter C and Ihme, Matthias},
journal={{Scientific Reports}},
volume={7},
year={2017},
publisher={Nature Publishing Group},
doi ={10.1038/s41598-017-03334-3}
}

D. Banuti, M. Raju, and M. Ihme, “Similarity law for widom lines and coexistence lines,” Physical Review E, vol. 95, iss. 5, p. 52120, 2017.
[Bibtex]

@article{banuti2017similarity,
title={Similarity law for Widom lines and coexistence lines},
author={Banuti, DT and Raju, M and Ihme, M},
journal={{Physical Review E}},
volume={95},
number={5},
pages={052120},
year={2017},
publisher={APS},
doi={10.1103/PhysRevE.95.052120}
}

2016

Y. Lv, Y. C. See, and M. Ihme, “An entropy-residual shock detector for solving conservation laws using high-order discontinuous galerkin methods,” Journal of Computational Physics, vol. 322, iss. Supplement C, pp. 448-472, 2016.
[Bibtex]

@article{lv2016448,
title = "An entropy-residual shock detector for solving conservation laws using high-order discontinuous Galerkin methods",
journal = {{Journal of Computational Physics}},
volume = "322",
number = "Supplement C",
pages = "448 - 472",
year = "2016",
issn = "0021-9991",
doi = "https://doi.org/10.1016/j.jcp.2016.06.052",
url = "http://www.sciencedirect.com/science/article/pii/S0021999116302777",
author = "Yu Lv and Yee Chee See and Matthias Ihme",
keywords = "High-order method",
keywords = "Discontinuous Galerkin method",
keywords = "Shock-capturing",
keywords = "Entropy residual"
}

L. Magri, J. O’Brien, and M. Ihme, “Compositional inhomogeneities as a source of indirect combustion noise,” Journal of Fluid Mechanics, vol. 799, p. R4, 2016.
[Bibtex]

@article{MAGRI_OBRIEN_IHME_JFM2016,
title={Compositional inhomogeneities as a source of indirect combustion noise},
volume={799},
DOI={10.1017/jfm.2016.397},
journal={{Journal of Fluid Mechanics}},
publisher={Cambridge University Press},
author={Magri, Luca and O’Brien, Jeff and Ihme, Matthias},
year={2016},
pages={R4}
}

P. B. Govindaraju and M. Ihme, “Group contribution method for multicomponent evaporation with application to transportation fuels,” International Journal of Heat and Mass Transfer, vol. 102, pp. 833-845, 2016.
[Bibtex]

@article{govindaraju2016group,
title={Group contribution method for multicomponent evaporation with application to transportation fuels},
author={Govindaraju, Pavan B and Ihme, Matthias},
journal={{International Journal of Heat and Mass Transfer}},
volume={102},
pages={833--845},
year={2016},
publisher={Elsevier},
doi ={10.1016/j.ijheatmasstransfer.2016.06.079}
}

H. Wu and M. Ihme, “Compliance of combustion models for turbulent reacting flow simulations,” Fuel, vol. 186, pp. 853-863, 2016.
[Bibtex]

@article{wu2016compliance,
title={Compliance of combustion models for turbulent reacting flow simulations},
author={Wu, Hao and Ihme, Matthias},
journal={{Fuel}},
volume={186},
pages={853--863},
year={2016},
publisher={Elsevier},
doi="10.1016/j.fuel.2016.07.074"
}

C. A. Z. Towery, A. Y. Poludnenko, J. Urzay, J. O’Brien, M. Ihme, and P. E. Hamlington, “Spectral kinetic energy transfer in turbulent premixed reacting flows,” Physical Review E, vol. 94, iss. 053115, pp. 1-11, 2016.
[Bibtex]

@ARTICLE{TOWERY_POLUDNENKO_URZAY_OBRIEN_IHME_HAMLINGTON_PRE2016,
AUTHOR = {Towery, Colin A. Z. and Poludnenko, Alexei Y. and Urzay, Javier and O'Brien, Jeffrey and Ihme, Matthias and Hamlington, Peter E.},
TITLE = {Spectral kinetic energy transfer in turbulent premixed reacting flows},
YEAR = {2016},
JOURNAL = {{Physical Review E}},
VOLUME = {94},
NUMBER = {053115},
PAGES = {1-11},
doi = {10.1103/PhysRevE.93.053115}
}

B. Franzelli, A. Vie, and M. Ihme, “Characterizing spray flame–vortex interaction: a spray spectral diagram for extinction,” Combustion and Flame, vol. 163, pp. 100-114, 2016.
[Bibtex]

@ARTICLE{FRANZELLI_VIE_IHME_CF2016,
AUTHOR = {Franzelli, Bnedetta and Vie, Aymeric and Ihme, Matthias},
TITLE = {Characterizing spray flame–vortex interaction: A spray spectral diagram for extinction},
YEAR = {2016},
JOURNAL = {{Combustion and Flame}},
VOLUME = 163,
PAGES = {100-114},
doi = {10.1016/j.combustflame.2015.09.006}
}

2015

B. Franzelli, A. Vie, and M. Ihme, “On the generalisation of the mixture fraction to a monotonic mixing-describing variable for the flamelet formulation of spray flames,” Combustion Theory and Modelling, vol. 19, pp. 773-806, 2015.
[Bibtex]

@ARTICLE{FRANZELLI_VIE_IHME_CTM2015,
AUTHOR = {Franzelli, Benedetta and Vie, Aymeric and Ihme, Matthias},
TITLE = {On the generalisation of the mixture fraction to a monotonic mixing-describing variable for the flamelet formulation of spray flames},
YEAR = {2015},
JOURNAL = {{Combustion Theory and Modelling}},
VOLUME = 19,
PAGES = {773-806},
doi = {10.1080/13647830.2015.1099740}
}

J. Dunnmon, S. Sobhani, T. W. Kim, A. Kovscek, and M. Ihme, “Characterization of scalar mixing in dense gaseous jets using X-ray computed tomography,” Experiments in Fluids, vol. 56, iss. 193, 2015.
[Bibtex]

@ARTICLE{DUNNMON_SOBHANI_KIM_KOVSCEK_IHME_EF2015,
AUTHOR = {Dunnmon, Jared and Sobhani, Sadaf and Kim, Tao Wook and Kovscek, Anthony and Ihme, Matthias},
TITLE = {{Characterization of scalar mixing in dense gaseous jets using X-ray computed tomography}},
YEAR = {2015},
JOURNAL = {{Experiments in Fluids}},
VOLUME = {56},
NUMBER = {193},
doi = {10.1007/s00348-015-2057-9}
}

A. Coclite, G. Pascazio, P. De Palma, L. Cutrone, and M. Ihme, “An SMLD joint PDF model for turbulent non-premixed combustion using the flamelet progress-variable approach,” Flow, Turbulence and Combustion, vol. 95, iss. 1, pp. 97-119, 2015.
[Bibtex]

@ARTICLE{COCLITE_PASCAZIO_DEPALMA_CUTRONE_IHME_FTC2015,
AUTHOR = {Coclite, Alessandro and Pascazio, Giuseppe and De Palma, Pietro and Cutrone, Luigi and Ihme, Matthias},
TITLE = {An {SMLD} joint {PDF} model for turbulent non-premixed combustion using the flamelet progress-variable approach},
YEAR = {2015},
JOURNAL = {{Flow, Turbulence and Combustion}},
VOLUME = {95},
NUMBER = {1},
PAGES = {97-119},
doi = {10.1007/s10494-015-9609-1}
}

A. Vié, B. Franzelli, Y. Gao, T. Lu, H. Wang, and M. Ihme, “Analysis of segregation and bifurcation in turbulent spray flames: A 3D counterflow configuration,” Proceedings of the Combustion Institute, vol. 35, pp. 1675-1683, 2015.
[Bibtex]

@article{VIE_FRANZELLI_GAO_LU_WANG_IHME_PCI2015,
author = {Vi\'{e}, Aymeric and Franzelli, Benedetta and Gao, Yang and Lu, Tianfeng and Wang, Hai and Ihme, Matthias},
doi = {10.1016/j.proci.2014.06.083},
file = {:/Vi\'{e} et al/Vi\'{e} et al. - 2014 - Analysis of segregation and bifurcation in turbulent spray flames A 3D counterflow configuration.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
pages = {1675-1683},
volume = {35},
keywords = {3d counterflow,bifurcation,hysteresis,spray flame,turbulence},
mendeley-groups = {Ihme Group},
month = jul,
title = {{Analysis of segregation and bifurcation in turbulent spray flames: A 3D counterflow configuration}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748914002417},
year = {2015}
}

Y. C. See and M. Ihme, “Large eddy simulation of a partially-premixed gas turbine model combustor,” Proceedings of the Combustion Institute, vol. 35, pp. 1225-1234, 2015.
[Bibtex]

@article{SEE_IHME_PCI2015,
author = {See, Yee Chee and Ihme, Matthias},
doi = {10.1016/j.proci.2014.08.006},
file = {:/See, Ihme/See, Ihme - 2014 - Large eddy simulation of a partially-premixed gas turbine model combustor.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {chemistry interaction,flamelet modeling,gas turbine combustor,large-eddy simulation,tu-,turbulence},
mendeley-groups = {Ihme Group},
month = sep,
publisher = {The Combustion Institute},
title = {{Large eddy simulation of a partially-premixed gas turbine model combustor}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748914003903},
pages = {1225-1234},
volume = {35},
year = {2015}
}

Y. Lv and M. Ihme, “Computational analysis of re-ignition and re-initiation mechanisms of quenched detonation waves behind a backward facing step,” Proceedings of the Combustion Institute, vol. 35, p. 1963–1972, 2015.
[Bibtex]

@article{LV_IHME_PCI2015,
author = {Lv, Yu and Ihme, Matthias},
doi = {10.1016/j.proci.2014.07.041},
file = {:/Lv, Ihme/Lv, Ihme - 2014 - Computational analysis of re-ignition and re-initiation mechanisms of quenched detonation waves behind a backward faci.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {detonation,diffraction,re-ignition,re-initiation},
mendeley-groups = {Ihme Group},
month = aug,
pages = {1963–1972},
volume = {35},
title = {{Computational analysis of re-ignition and re-initiation mechanisms of quenched detonation waves behind a backward facing step}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748914003514},
year = {2015}
}

P. M. Allison, Y. Chen, M. Ihme, and J. F. Driscoll, “Coupling of flame geometry and combustion instabilities based on kilohertz formaldehyde PLIF measurements,” Proceedings of the Combustion Institute, vol. 35, p. 3255–3262, 2015.
[Bibtex]

@article{ALLISON_CHEN_IHME_DRISCOLL_PCI2015,
author = {Allison, Patton M. and Chen, Yuntao and Ihme, Matthias and Driscoll, James F.},
doi = {10.1016/j.proci.2014.05.127},
file = {:/Allison et al/Allison et al. - 2014 - Coupling of flame geometry and combustion instabilities based on kilohertz formaldehyde PLIF measurements.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {dimethyl ether,formaldehyde plif,gas turbine combustor,high-speed,instability},
mendeley-groups = {Ihme Group},
month = jul,
publisher = {The Combustion Institute},
title = {{Coupling of flame geometry and combustion instabilities based on kilohertz formaldehyde PLIF measurements}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748914001308},
pages ={3255–3262},
volume = {35},
year = {2015}
}

B. A. Rankin, M. Ihme, and J. P. Gore, “Quantitative model-based imaging of mid-infrared radiation from a turbulent nonpremixed jet flame and plume,” Combustion and Flame, vol. 162, pp. 1275-1283, 2015.
[Bibtex]

@ARTICLE{RANKIN_IHME_GORE_CF2015,
AUTHOR = {Rankin, Brent A. and Ihme, Matthias and Gore, Jay P.},
TITLE = {Quantitative model-based imaging of mid-infrared radiation from a turbulent nonpremixed jet flame and plume},
YEAR = {2015},
JOURNAL = {{Combustion and Flame}},
VOLUME = {162},
PAGES = {1275-1283},
doi = {10.1016/j.combustflame.2014.10.019}
}

@ARTICLE{COCLITE_PASCAZIO_DEPALMA_CUTRONE_IHME_FTC2015,
AUTHOR = {Coclite, Alessandro and Pascazio, Giuseppe and De Palma, Pietro and Cutrone, Luigi and Ihme, Matthias},
TITLE = {{An SMLD joint PDF model for turbulent non-premixed combustion using the flamelet progress-variable approach}},
YEAR = {2015},
JOURNAL = {{Flow, Turbulence and Combustion}},
VOLUME = {95},
NUMBER = {1},
PAGES = {97-119},
doi = {10.1007/s10494-015-9609-1}
}

Y. Lv and M. Ihme, “Entropy-bounded discontinuous Galerkin scheme for Euler equations,” Journal of Computational Physics, vol. 295, pp. 715-739, 2015.
[Bibtex]

@ARTICLE{LV_IHME_JCP2015,
AUTHOR = {Lv, Y. and Ihme, M.},
TITLE = {{Entropy-bounded discontinuous Galerkin scheme for Euler equations}},
YEAR = {2015},
JOURNAL = {{Journal of Computational Physics}},
PAGES = {715-739},
VOLUME = {295},
doi = {10.1016/j.jcp.2015.04.026}
}

K. P. Grogan, S. S. Goldsborough, and M. Ihme, “Ignition regimes in rapid compression machines,” Combustion and Flame, vol. 162, p. 3071–3080, 2015.
[Bibtex]

@ARTICLE{GROGAN_IHME_CF2015,
AUTHOR = {Grogan, Kevin P. and Goldsborough, S. Scott and Ihme, Matthias},
TITLE = {Ignition regimes in rapid compression machines},
YEAR = {2015},
PAGES = {3071–3080},
VOLUME = {162},
JOURNAL = {{Combustion and Flame}},
doi = {10.1016/j.combustflame.2015.03.020}
}

A. Scholtissek, W. L. Chan, H. Xu, F. Hunger, H. Kolla, J. H. Chen, M. Ihme, and C. Hasse, “A multi-scale asymptotic scaling and regime analysis of flamelet equations including tangential diffusion effects for laminar and turbulent flames,” Combustion and Flame, vol. 162, pp. 1507-1529, 2015.
[Bibtex]

@article{SCHOLTISSEK_CHAN_XU_KOLLA_CHEN_IHME_HASSE_CF2015,
title = {{A multi-scale asymptotic scaling and regime analysis of flamelet equations including tangential diffusion effects for laminar and turbulent flames}},
journal ={{Combustion and Flame}},
volume = {162},
pages = {1507-1529},
year = {2015},
doi = "http://dx.doi.org/10.1016/j.combustflame.2014.11.016",
url = "http://www.sciencedirect.com/science/article/pii/S0010218014003708",
author = {Scholtissek, Arne and Chan, Wai Lee and Xu, Hongbin and Hunger, Franziska and Kolla, Hemanth and Chen, Jacqueline H. and Ihme, Matthias and Hasse, Christian},
keywords = "Non-premixed flamelet",
keywords = "Differential diffusion",
keywords = "Curvature",
keywords = "Tangential diffusion",
keywords = "Multi-dimensional effects",
keywords = "Asymptotic scaling analysis ",
abstract = "Abstract Recently, the relevance of tangential diffusion effects has been identified for laminar flames. These effects are not considered in the classical flamelet equations. In the present work, flamelet equations including these effects are derived, and their relevance is investigated by a multi-scale asymptotic scaling analysis. The analysis yields characteristic ratios dependent on the local curvature of the mixture fraction field, the scalar dissipation rate, and the flame thickness, which indicate whether tangential diffusion effects become important. By comparing relevant scales, a regime diagram is developed and three different flamelet regimes are identified. In regime I, the classical flamelet equations are valid. In regime II, differential diffusion of species and temperature in flame-tangential direction becomes relevant. In regime III, additional transport along mixture fraction isosurfaces exhibits an influence on the flame structure. In the latter case it is not sufficient to condition species mass fractions and temperature on the mixture fraction alone since these quantities are not represented by a one-dimensional structure. The asymptotic scaling is verified against fully resolved numerical data of a laminar non-premixed methane–air flame and a turbulent lifted hydrogen jet flame. Budgets of different flamelet solutions of the laminar flame reveal that tangential diffusion effects are dominant over the classical flamelet terms near the flame centerline, while in regions away from it, standard flamelet terms are prevailing. For the turbulent flame, the results show that tangential diffusion effects are more localized and can exceed flame-normal transport, although, unsteadiness is more likely the key factor of the configuration. While the classical flamelet model is applicable for certain flames, this study shows that tangential diffusion effects may require consideration for general flame configurations. "
}

K. P. Grogan and M. Ihme, “Weak and strong ignition of hydrogen/oxygen mixtures in shock-tube systems,” Proceedings of the Combustion Institute, vol. 35, pp. 2181-2189, 2015.
[Bibtex]

@article{GROGAN_IHME_PCI2015,
author = {Grogan, Kevin P. and Ihme, Matthias},
doi = {10.1016/j.proci.2014.07.074},
file = {:/Grogan, Ihme/Grogan, Ihme - 2014 - Weak and strong ignition of hydrogenoxygen mixtures in shock-tube systems.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {ddt,heat transfer,shock-tube,swacer,weak ignition},
mendeley-groups = {Ihme Group},
month = sep,
pages = {2181-2189},
volume = {35},
publisher = {The Combustion Institute},
title = {{Weak and strong ignition of hydrogen/oxygen mixtures in shock-tube systems}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748914003848},
year = {2015}
}

H. Wu, Y. C. See, Q. Wang, and M. Ihme, “A pareto-efficient combustion framework with submodel assignment for predicting complex flame configurations,” Combustion and flame, vol. 162, iss. 11, pp. 4208-4230, 2015.
[Bibtex]

@article{WU_SEE_WANG_IHME_CF2015,
title = "A Pareto-efficient combustion framework with submodel assignment for predicting complex flame configurations",
journal = "Combustion and Flame",
volume = "162",
number = "11",
pages = "4208 - 4230",
year = "2015",
issn = "0010-2180",
doi = "https://doi.org/10.1016/j.combustflame.2015.06.021",
url = "http://www.sciencedirect.com/science/article/pii/S0010218015002564",
author = "Hao Wu and Yee Chee See and Qing Wang and Matthias Ihme",
keywords = "Pareto-efficient combustion framework, Combustion modeling, Manifold, Turbulent combustion, Multi-regime combustion"
}

2014

P. E. Hamlington and M. Ihme, “Modeling of non-equilibrium homogeneous turbulence in rapidly compressed flows,” Flow, Turbulence and Combustion, vol. 93, p. 93–124, 2014.
[Bibtex]

@article{Hamlington2014,
author = {Hamlington, Peter E. and Ihme, Matthias},
doi = {10.1007/s10494-014-9535-7},
file = {:/Hamlington, Ihme/Hamlington, Ihme - 2014 - Modeling of Non-Equilibrium Homogeneous Turbulence in Rapidly Compressed Flows.pdf:pdf},
issn = {1386-6184},
journal = {{Flow, Turbulence and Combustion}},
keywords = {80309,boulder,co,department of mechanical engineering,e,hamlington,internal combustion engines,machines,p,rapid compression,rapid distortion theory,turbulence modeling,university of colorado,usa},
month = jun,
pages = {93–124},
volume = {93},
title = {{Modeling of non-equilibrium homogeneous turbulence in rapidly compressed flows}},
url = {http://link.springer.com/10.1007/s10494-014-9535-7},
year = {2014}
}

J. Lamouroux, M. Ihme, B. Fiorina, and O. Gicquel, “Tabulated chemistry approach for diluted combustion regimes with internal recirculation and heat losses,” Combustion and Flame, p. 2120–2136, 2014.
[Bibtex]

@article{Lamouroux2014,
author = {Lamouroux, Jean and Ihme, Matthias and Fiorina, Benoit and Gicquel, Olivier},
doi = {10.1016/j.combustflame.2014.01.015},
file = {:/Lamouroux et al/Lamouroux et al. - 2014 - Tabulated chemistry approach for diluted combustion regimes with internal recirculation and heat losses.pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
keywords = {mild,moderate or intense low,oxygen,turbulent combustion modeling},
month = mar,
pages = {2120–2136},
publisher = {The Combustion Institute.},
title = {{Tabulated chemistry approach for diluted combustion regimes with internal recirculation and heat losses}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218014000200},
year = {2014}
}

Y. Lv and M. Ihme, “Discontinuous Galerkin method for multicomponent chemically reacting flows and combustion,” Journal of Computational Physics, vol. 270, pp. 105-137, 2014.
[Bibtex]

@article{Lv2014,
author = {Lv, Yu and Ihme, Matthias},
doi = {10.1016/j.jcp.2014.03.029},
file = {:/Lv, Ihme/Lv, Ihme - 2014 - Discontinuous Galerkin method for multicomponent chemically reacting flows and combustion.pdf:pdf},
issn = {00219991},
journal = {{Journal of Computational Physics}},
keywords = {discontinuous galerkin method,multicomponent flows},
month = aug,
pages = {105--137},
title = {{Discontinuous Galerkin method for multicomponent chemically reacting flows and combustion}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0021999114002101},
volume = {270},
year = {2014}
}

J. O’Brien, J. Urzay, M. Ihme, P. Moin, and A. Saghafian, “Subgrid-scale backscatter in reacting and inert supersonic hydrogen–air turbulent mixing layers,” Journal of Fluid Mechanics, vol. 743, pp. 554-584, 2014.
[Bibtex]

@article{OBrien2014,
author = {O’Brien, J. and Urzay, J. and Ihme, M. and Moin, P. and Saghafian, A.},
doi = {10.1017/jfm.2014.62},
file = {:/O’Brien et al/O’Brien et al. - 2014 - Subgrid-scale backscatter in reacting and inert supersonic hydrogen–air turbulent mixing layers.pdf:pdf},
issn = {0022-1120},
journal = {{Journal of Fluid Mechanics}},
keywords = {high-speed flows,shear layers,turbulent reacting flows},
month = mar,
pages = {554--584},
title = {{Subgrid-scale backscatter in reacting and inert supersonic hydrogen–air turbulent mixing layers}},
url = {http://www.journals.cambridge.org/abstract\_S0022112014000627},
volume = {743},
year = {2014}
}

Y. C. See and M. Ihme, “Effects of finite-rate chemistry and detailed transport on the instability of jet diffusion flames,” Journal of Fluid Mechanics, vol. 745, pp. 647-681, 2014.
[Bibtex]

@article{See2014,
author = {See, Yee Chee and Ihme, Matthias},
doi = {10.1017/jfm.2014.95},
file = {:/See, Ihme/See, Ihme - 2014 - Effects of finite-rate chemistry and detailed transport on the instability of jet diffusion flames.pdf:pdf},
issn = {0022-1120},
journal = {{Journal of Fluid Mechanics}},
keywords = {absolute,combustion,convective instability,laminar reacting flows},
month = mar,
pages = {647--681},
title = {{Effects of finite-rate chemistry and detailed transport on the instability of jet diffusion flames}},
url = {http://www.journals.cambridge.org/abstract\_S0022112014000950},
volume = {745},
year = {2014}
}

H. Wu and M. Ihme, “Effects of flow-field and mixture inhomogeneities on the ignition dynamics in continuous flow reactors,” Combustion and Flame, vol. 161, p. 2317–2326, 2014.
[Bibtex]

@article{Wu2014,
author = {Wu, Hao and Ihme, Matthias},
doi = {10.1016/j.combustflame.2014.02.007},
file = {:/Wu, Ihme/Wu, Ihme - 2014 - Effects of flow-field and mixture inhomogeneities on the ignition dynamics in continuous flow reactors.pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
month = mar,
pages ={2317–2326},
volume = {161},
publisher = {The Combustion Institute.},
title = {{Effects of flow-field and mixture inhomogeneities on the ignition dynamics in continuous flow reactors}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218014000662},
year = {2014}
}

W. L. Chan, H. Kolla, J. H. Chen, and M. Ihme, “Assessment of model assumptions and budget terms of the unsteady flamelet equations for a turbulent reacting jet-in-cross-flow,” Combustion and Flame, vol. 161, iss. 10, pp. 2601-2613, 2014.
[Bibtex]

@article{Chan2014b,
author = {Chan, Wai Lee and Kolla, Hemanth and Chen, Jacqueline H. and Ihme, Matthias},
doi = {10.1016/j.combustflame.2014.04.007},
file = {:/Chan et al/Chan et al. - 2014 - Assessment of model assumptions and budget terms of the unsteady flamelet equations for a turbulent reacting jet(2).pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
mendeley-groups = {Ihme Group},
month = oct,
number = {10},
pages = {2601--2613},
publisher = {The Combustion Institute.},
title = {{Assessment of model assumptions and budget terms of the unsteady flamelet equations for a turbulent reacting jet-in-cross-flow}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218014001096},
volume = {161},
year = {2014}
}

G. Amini, Y. Lv, A. Dolatabadi, and M. Ihme, “Instability of elliptic liquid jets: Temporal linear stability theory and experimental analysis,” Physics of Fluids, vol. 26, iss. 11, p. 114105, 2014.
[Bibtex]

@article{Amini2014,
author = {Amini, Ghobad and Lv, Yu and Dolatabadi, Ali and Ihme, Matthias},
doi = {10.1063/1.4901246},
issn = {1070-6631},
journal = {{Physics of Fluids}},
number = {11},
pages = {114105},
title = {{Instability of elliptic liquid jets: Temporal linear stability theory and experimental analysis}},
url = {http://scitation.aip.org/content/aip/journal/pof2/26/11/10.1063/1.4901246},
volume = {26},
year = {2014}
}

2013

Y. Chen and M. Ihme, “Large-eddy simulation of a piloted premixed jet burner,” Combustion and Flame, vol. 160, iss. 12, pp. 2896-2910, 2013.
[Bibtex]

@article{Chen2013a,
author = {Chen, Yuntao and Ihme, Matthias},
doi = {10.1016/j.combustflame.2013.07.009},
file = {:/Chen, Ihme/Chen, Ihme - 2013 - Large-eddy simulation of a piloted premixed jet burner(2).pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
keywords = {Flamelet/progress variable method,Partially-premixed combustion,large-eddy simulation,multi-stream combustion,turbulent combustion},
month = dec,
number = {12},
pages = {2896--2910},
publisher = {The Combustion Institute.},
title = {{Large-eddy simulation of a piloted premixed jet burner}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218013002678},
volume = {160},
year = {2013}
}

P. M. Allison, J. F. Driscoll, and M. Ihme, “Acoustic characterization of a partially-premixed gas turbine model combustor: Syngas and hydrocarbon fuel comparisons,” Proceedings of the Combustion Institute, vol. 34, iss. 2, pp. 3145-3153, 2013.
[Bibtex]

@article{ALLISON_DRISCOLL_IHME_PCI34,
author = {Allison, Patton M and Driscoll, James F. and Ihme, Matthias},
doi = {10.1016/j.proci.2012.06.157},
file = {:/Allison, Driscoll, Ihme/Allison, Driscoll, Ihme - 2013 - Acoustic characterization of a partially-premixed gas turbine model combustor Syngas and hydrocarbon fu.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
month = jan,
number = {2},
pages = {3145--3153},
title = {{Acoustic characterization of a partially-premixed gas turbine model combustor: Syngas and hydrocarbon fuel comparisons}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748912002659},
volume = {34},
year = {2013}
}

G. Amini, M. Ihme, and A. Dolatabadi, “Effect of gravity on capillary instability of liquid jets,” Physical Review E, vol. 87, iss. 5, p. 53017, 2013.
[Bibtex]

@article{Amini2013,
author = {Amini, Ghobad and Ihme, Matthias and Dolatabadi, Ali},
doi = {10.1103/PhysRevE.87.053017},
file = {:/Amini, Ihme, Dolatabadi/Amini, Ihme, Dolatabadi - 2013 - Effect of gravity on capillary instability of liquid jets.pdf:pdf},
issn = {1539-3755},
journal = {{Physical Review E}},
month = may,
number = {5},
pages = {053017},
title = {{Effect of gravity on capillary instability of liquid jets}},
url = {http://link.aps.org/doi/10.1103/PhysRevE.87.053017},
volume = {87},
year = {2013}
}

2012

M. Ihme, J. Zhang, G. He, and B. Dally, “Large-Eddy Simulation of a Jet-in-Hot-Coflow Burner Operating in the Oxygen-Diluted Combustion Regime,” Flow, Turbulence and Combustion, vol. 89, iss. 3, pp. 449-464, 2012.
[Bibtex]

@article{IHME_ZHANG_HE_DALLY_FTC2012,
author = {Ihme, Matthias and Zhang, Jian and He, Guowei and Dally, Bassam},
doi = {10.1007/s10494-012-9399-7},
issn = {1386-6184},
journal = {{Flow, Turbulence and Combustion}},
month = may,
number = {3},
pages = {449--464},
title = {{Large-Eddy Simulation of a Jet-in-Hot-Coflow Burner Operating in the Oxygen-Diluted Combustion Regime}},
url = {http://link.springer.com/10.1007/s10494-012-9399-7},
volume = {89},
year = {2012}
}

M. Ihme, “On the role of turbulence and compositional fluctuations in rapid compression machines: Autoignition of syngas mixtures,” Combustion and Flame, vol. 159, iss. 4, pp. 1592-1604, 2012.
[Bibtex]

@article{IHME_CF2011,
author = {Ihme, Matthias},
doi = {10.1016/j.combustflame.2011.11.022},
file = {:/Ihme/Ihme - 2012 - On the role of turbulence and compositional fluctuations in rapid compression machines Autoignition of syngas mixtures.pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
month = apr,
number = {4},
pages = {1592--1604},
title = {{On the role of turbulence and compositional fluctuations in rapid compression machines: Autoignition of syngas mixtures}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218011003968},
volume = {159},
year = {2012}
}

M. Ihme, L. Shunn, and J. Zhang, “Regularization of reaction progress variable for application to flamelet-based combustion models,” Journal of Computational Physics, vol. 231, iss. 23, pp. 7715-7721, 2012.
[Bibtex]

@article{IHME_SHUNN_ZHANG_JCP2012,
author = {Ihme, Matthias and Shunn, Lee and Zhang, Jian},
doi = {10.1016/j.jcp.2012.06.029},
file = {:/Ihme, Shunn, Zhang/Ihme, Shunn, Zhang - 2012 - Regularization of reaction progress variable for application to flamelet-based combustion models.pdf:pdf},
issn = {00219991},
journal = {{Journal of Computational Physics}},
month = oct,
number = {23},
pages = {7715--7721},
title = {{Regularization of reaction progress variable for application to flamelet-based combustion models}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0021999112003440},
volume = {231},
year = {2012}
}

M. Ihme and H. Pitsch, “On the generation of direct combustion noise in turbulent non-premixed flames,” International Journal of Aeroacoustics, vol. 11, iss. 1, pp. 25-78, 2012.
[Bibtex]

@article{Ihme2012a,
author = {Ihme, Matthias and Pitsch, Heinz},
doi = {10.1260/1475-472X.11.1.25},
file = {:/Ihme, Pitsch/Ihme, Pitsch - 2012 - On the generation of direct combustion noise in turbulent non-premixed flames.pdf:pdf},
issn = {1475-472X},
journal = {{International Journal of Aeroacoustics}},
month = mar,
number = {1},
pages = {25--78},
title = {{On the generation of direct combustion noise in turbulent non-premixed flames}},
url = {http://multi-science.metapress.com/openurl.asp?genre=article\&id=doi:10.1260/1475-472X.11.1.25},
volume = {11},
year = {2012}
}

2011

M. Ihme and Y. C. See, “LES flamelet modeling of a three-stream MILD combustor: Analysis of flame sensitivity to scalar inflow conditions,” Proceedings of the Combustion Institute, vol. 33, iss. 1, pp. 1309-1317, 2011.
[Bibtex]

@article{Ihme2011,
author = {Ihme, Matthias and See, Yee Chee},
doi = {10.1016/j.proci.2010.05.019},
file = {:/Ihme, See/Ihme, See - 2011 - LES flamelet modeling of a three-stream MILD combustor Analysis of flame sensitivity to scalar inflow conditions.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {flamelet modeling,large-eddy simulation,mild combustion,three-,turbulent non-premixed flames},
number = {1},
pages = {1309--1317},
publisher = {Elsevier Inc.},
title = {{LES flamelet modeling of a three-stream MILD combustor: Analysis of flame sensitivity to scalar inflow conditions}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S154074891000057X},
volume = {33},
year = {2011}
}

S. M. Torrez, J. F. Driscoll, M. Ihme, and M. L. Fotia, “Reduced-Order Modeling of Turbulent Reacting Flows with Application to Ramjets and Scramjets,” Journal of Propulsion and Power, vol. 27, iss. 2, pp. 371-382, 2011.
[Bibtex]

@article{Torrez2011,
author = {Torrez, Sean M. and Driscoll, James F. and Ihme, Matthias and Fotia, Matthew L.},
doi = {10.2514/1.50272},
file = {:/Torrez et al/Torrez et al. - 2011 - Reduced-Order Modeling of Turbulent Reacting Flows with Application to Ramjets and Scramjets(2).pdf:pdf},
issn = {0748-4658},
journal = {{Journal of Propulsion and Power}},
month = mar,
number = {2},
pages = {371--382},
title = {{Reduced-Order Modeling of Turbulent Reacting Flows with Application to Ramjets and Scramjets}},
url = {http://arc.aiaa.org/doi/abs/10.2514/1.50272},
volume = {27},
year = {2011}
}

2010

M. Ihme and Y. C. See, “Prediction of autoignition in a lifted methane/air flame using an unsteady flamelet/progress variable model,” Combustion and Flame, vol. 157, iss. 10, pp. 1850-1862, 2010.
[Bibtex]

@article{IHME_SEE_CF2010,
author = {Ihme, Matthias and See, Yee Chee},
doi = {10.1016/j.combustflame.2010.07.015},
file = {:/Ihme, See/Ihme, See - 2010 - Prediction of autoignition in a lifted methaneair flame using an unsteady flameletprogress variable model.pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
month = oct,
number = {10},
pages = {1850--1862},
title = {{Prediction of autoignition in a lifted methane/air flame using an unsteady flamelet/progress variable model}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218010002038},
volume = {157},
year = {2010}
}

2009

M. Ihme, H. Pitsch, and D. Bodony, “Radiation of noise in turbulent non-premixed flames,” Proceedings of the Combustion Institute, vol. 32, iss. 1, pp. 1545-1553, 2009.
[Bibtex]

@article{IHME_PITSCH_BODONY_PCI32,
author = {Ihme, Matthias and Pitsch, Heinz and Bodony, Daniel},
doi = {10.1016/j.proci.2008.06.137},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
month = jan,
number = {1},
pages = {1545--1553},
title = {{Radiation of noise in turbulent non-premixed flames}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748908002502},
volume = {32},
year = {2009}
}

M. Ihme, C. Schmitt, and H. Pitsch, “Optimal artificial neural networks and tabulation methods for chemistry representation in LES of a bluff-body swirl-stabilized flame,” Proceedings of the Combustion Institute, vol. 32, iss. 1, pp. 1527-1535, 2009.
[Bibtex]

@article{IHME_SCHMITT_PITSCH_PCI32,
author = {Ihme, Matthias and Schmitt, Christoph and Pitsch, Heinz},
doi = {10.1016/j.proci.2008.06.100},
file = {:/Ihme, Schmitt, Pitsch/Ihme, Schmitt, Pitsch - 2009 - Optimal artificial neural networks and tabulation methods for chemistry representation in LES of a bluff-.pdf:pdf},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
month = jan,
number = {1},
pages = {1527--1535},
title = {{Optimal artificial neural networks and tabulation methods for chemistry representation in LES of a bluff-body swirl-stabilized flame}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S1540748908001132},
volume = {32},
year = {2009}
}

P. T. Bui, M. Ihme, W. Schröder, and H. Pitsch, “Analysis of different sound source formulations to simulate combustion generated noise using a hybrid LES/APE-RF method,” International Journal of Aeroacoustics, vol. 8, iss. 1, pp. 95-123, 2009.
[Bibtex]

@article{BUI_IHME_SCHROEDER_PITSCH_IJAA2009,
author = {Bui, T. Ph. and Ihme, M. and Schr\"{o}der, W. and Pitsch, H.},
doi = {10.1260/147547209786235028},
file = {:/Bui et al/Bui et al. - 2009 - Analysis of different sound source formulations to simulate combustion generated noise using a hybrid LESAPE-RF meth.pdf:pdf},
issn = {1475-472X},
journal = {{International Journal of Aeroacoustics}},
month = jan,
number = {1},
pages = {95--123},
title = {{Analysis of different sound source formulations to simulate combustion generated noise using a hybrid LES/APE-RF method}},
url = {http://multi-science.metapress.com/openurl.asp?genre=article\&id=doi:10.1260/147547209786235028},
volume = {8},
year = {2009}
}

2008

M. Ihme and H. Pitsch, “Prediction of extinction and reignition in nonpremixed turbulent flames using a flamelet/progress variable model: 1. A priori study and presumed PDF closure,” Combustion and Flame, vol. 155, iss. 1-2, pp. 70-89, 2008.
[Bibtex]

@article{IHME_PITSCH_PRT1_CF_2008,
author = {Ihme, Matthias and Pitsch, Heinz},
doi = {10.1016/j.combustflame.2008.04.001},
file = {:/Ihme, Pitsch/Ihme, Pitsch - 2008 - Prediction of extinction and reignition in non-premixed turbulent flames using a flameletprogress variable model..pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
month = oct,
number = {1-2},
pages = {70--89},
title = {{Prediction of extinction and reignition in nonpremixed turbulent flames using a flamelet/progress variable model: 1. A priori study and presumed PDF closure}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218008000904},
volume = {155},
year = {2008}
}

M. Ihme and H. Pitsch, “Prediction of extinction and reignition in nonpremixed turbulent flames using a flamelet/progress variable model: 2. Application in LES of Sandia flames D and E,” Combustion and Flame, vol. 155, iss. 1-2, pp. 90-107, 2008.
[Bibtex]

@article{Ihme2008c,
author = {Ihme, Matthias and Pitsch, Heinz},
doi = {10.1016/j.combustflame.2008.04.015},
file = {:/Ihme, Pitsch/Ihme, Pitsch - 2008 - Prediction of extinction and reignition in nonpremixed turbulent flames using a flameletprogress variable model(2).pdf:pdf},
issn = {00102180},
journal = {{Combustion and Flame}},
keywords = {extinction and reignition,large-eddy simulation,nonpremixed combustion,turbulent combustion},
month = oct,
number = {1-2},
pages = {90--107},
title = {{Prediction of extinction and reignition in nonpremixed turbulent flames using a flamelet/progress variable model: 2. Application in LES of Sandia flames D and E}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0010218008001223},
volume = {155},
year = {2008}
}

M. Ihme, A. L. Marsden, and H. Pitsch, “Generation of optimal artificial neural networks using a pattern search algorithm: application to approximation of chemical systems.,” Neural Computation, vol. 20, iss. 2, pp. 573-601, 2008.
[Bibtex]

@article{IHME_MARSDEN_PITSCH_NECO08,
abstract = {A pattern search optimization method is applied to the generation of optimal artificial neural networks (ANNs). Optimization is performed using a mixed variable extension to the generalized pattern search method. This method offers the advantage that categorical variables, such as neural transfer functions and nodal connectivities, can be used as parameters in optimization. When used together with a surrogate, the resulting algorithm is highly efficient for expensive objective functions. Results demonstrate the effectiveness of this method in optimizing an ANN for the number of neurons, the type of transfer function, and the connectivity among neurons. The optimization method is applied to a chemistry approximation of practical relevance. In this application, temperature and a chemical source term are approximated as functions of two independent parameters using optimal ANNs. Comparison of the performance of optimal ANNs with conventional tabulation methods demonstrates equivalent accuracy by considerable savings in memory storage. The architecture of the optimal ANN for the approximation of the chemical source term consists of a fully connected feedforward network having four nonlinear hidden layers and 117 synaptic weights. An equivalent representation of the chemical source term using tabulation techniques would require a 500 x 500 grid point discretization of the parameter space.},
author = {Ihme, Matthias and Marsden, Alison L and Pitsch, Heinz},
doi = {10.1162/neco.2007.08-06-316},
file = {:/Ihme, Marsden, Pitsch/Ihme, Marsden, Pitsch - 2008 - Generation of optimal artificial neural networks using a pattern search algorithm application to approxim.pdf:pdf},
issn = {0899-7667},
journal = {{Neural Computation}},
keywords = {Algorithms,Artificial Intelligence,Automated,Chemical,Humans,Information Storage and Retrieval,Models,Neural Networks (Computer),Pattern Recognition,Regression Analysis},
month = feb,
number = {2},
pages = {573--601},
pmid = {18045024},
title = {{Generation of optimal artificial neural networks using a pattern search algorithm: application to approximation of chemical systems.}},
url = {http://www.ncbi.nlm.nih.gov/pubmed/18045024},
volume = {20},
year = {2008}
}

H. Pitsch, O. Desjardins, G. Balarac, and M. Ihme, “Large-eddy simulation of turbulent reacting flows,” Progress in Aerospace Sciences, vol. 44, iss. 6, pp. 466-478, 2008.
[Bibtex]

@article{Pitsch2008,
author = {Pitsch, Heinz and Desjardins, Olivier and Balarac, Guillaume and Ihme, Matthias},
doi = {10.1016/j.paerosci.2008.06.005},
file = {:/Pitsch et al/Pitsch et al. - 2008 - Large-eddy simulation of turbulent reacting flows.pdf:pdf},
issn = {03760421},
journal = {{Progress in Aerospace Sciences}},
month = aug,
number = {6},
pages = {466--478},
title = {{Large-eddy simulation of turbulent reacting flows}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0376042108000559},
volume = {44},
year = {2008}
}

M. Ihme and H. Pitsch, “Modeling of radiation and nitric oxide formation in turbulent nonpremixed flames using a flamelet/progress variable formulation,” Physics of Fluids, vol. 20, iss. 5, p. 55110, 2008.
[Bibtex]

@article{Ihme2008d,
author = {Ihme, Matthias and Pitsch, Heinz},
doi = {10.1063/1.2911047},
file = {:/Ihme, Pitsch/Ihme, Pitsch - 2008 - Modeling of radiation and nitric oxide formation in turbulent nonpremixed flames using a flameletprogress varia(2).pdf:pdf},
issn = {10706631},
journal = {{Physics of Fluids}},
number = {5},
pages = {055110},
title = {{Modeling of radiation and nitric oxide formation in turbulent nonpremixed flames using a flamelet/progress variable formulation}},
url = {http://scitation.aip.org/content/aip/journal/pof2/20/5/10.1063/1.2911047},
volume = {20},
year = {2008}
}

2005

M. Ihme, C. M. Cha, and H. Pitsch, “Prediction of local extinction and re-ignition effects in non-premixed turbulent combustion using a flamelet/progress variable approach,” Proceedings of the Combustion Institute, vol. 30, iss. 1, pp. 793-800, 2005.
[Bibtex]

@article{Ihme2005,
author = {Ihme, Matthias and Cha, Chong M. and Pitsch, Heinz},
doi = {10.1016/j.proci.2004.08.260},
issn = {15407489},
journal = {{Proceedings of the Combustion Institute}},
keywords = {modeling,non-premixed combustion,turbulent flame},
month = jan,
number = {1},
pages = {793--800},
publisher = {The Combustion Institute},
title = {{Prediction of local extinction and re-ignition effects in non-premixed turbulent combustion using a flamelet/progress variable approach}},
url = {http://linkinghub.elsevier.com/retrieve/pii/S0082078404003145},
volume = {30},
year = {2005}
}

S. Fedotov, M. Ihme, and H. Pitsch, “Stochastic mixing model with power law decay of variance,” Physical Review E, vol. 71, iss. 1, p. 16310, 2005.
[Bibtex]

@article{Fedotov2005,
author = {Fedotov, Sergei and Ihme, Matthias and Pitsch, Heinz},
doi = {10.1103/PhysRevE.71.016310},
file = {:/Fedotov, Ihme, Pitsch/Fedotov, Ihme, Pitsch - 2005 - Stochastic mixing model with power law decay of variance.pdf:pdf},
issn = {1539-3755},
journal = {{Physical Review E}},
month = jan,
number = {1},
pages = {016310},
title = {{Stochastic mixing model with power law decay of variance}},
url = {http://link.aps.org/doi/10.1103/PhysRevE.71.016310},
volume = {71},
year = {2005}
}

2023

D. Brouzet, M. Ihme, D. McCormick, C. A. Reimann, and J. Mendoza, “On the noise analysis of a N+3 next-generation combustor through LES,” in AIAA Aviation 2023 Forum, 2023, p. 3939.
[Bibtex]

@inproceedings{brouzet2023noise,
author = {Brouzet, Davy and Ihme, Matthias and McCormick, Duane and Reimann, Craig A. and Mendoza, Jeff},
title = {{On the noise analysis of a N+3 next-generation combustor through LES}},
booktitle={{AIAA Aviation 2023 Forum}},
pages={3939},
year = {2023},
doi = {10.2514/6.2023-3939}
}

M. Bonanni and M. Ihme, “Adaptive Modeling of Supersonic Combustion in a Cavity-Stabilized Scramjet,” in AIAA Scitech 2023 Forum, 2023.
[Bibtex]

@inproceedings{bonanni2023adaptive,
author = {Bonanni, Matthew and Ihme, Matthias},
title = {{Adaptive Modeling of Supersonic Combustion in a Cavity-Stabilized Scramjet}},
booktitle={{AIAA Scitech 2023 Forum}},
pages={},
year = {2023},
doi = {10.2514/6.2023-1466}
}

2022

G. Vignat, E. R. Toro, É. Boigné, L. Simitz, B. Akoush, P. Muhunthan, and M. Ihme, “Enabling ultra-lean combustion of ammonia-hydrogen in porous media burners,” in 2nd conference on low carbon combustion, Cambridge, UK, 2022.
[Bibtex]

@inproceedings{vignat2022ammoniacambridge,
title = {Enabling ultra-lean combustion of ammonia-hydrogen in porous media burners},
author = {Vignat, Guillaume and Toro, Edna R. and Boign\'e, \'Emeric and Simitz, Lauren and Akoush, Bassem and Muhunthan, Priyanka and Ihme, Matthias},
booktitle = {{2nd conference on low carbon combustion, Cambridge, UK}},
year = {2022}
}

G. Vignat, D. Brouzet, and M. Ihme, “Effect of preburn inhomogeneities on the detonation velocity in a rotating detonation rocket engine,” in 28th international colloquium on the dynamics of explosions and reactive systems, Napoli, Italy, 2022.
[Bibtex]

@inproceedings{vignat2022detonation,
title = {Effect of preburn inhomogeneities on the detonation velocity in a rotating detonation rocket engine},
author = {Vignat, Guillaume and Brouzet, Davy and Ihme, Matthias},
booktitle = {{28th international colloquium on the dynamics of explosions and reactive systems, Napoli, Italy}},
year = {2022}
}

S. R. Brill, P. Pal, M. Ameen, C. Xu, and M. Ihme, “An Enrichment Wall Model for the Spectral Element Method,” in AIAA Scitech 2022 Forum, 2022.
[Bibtex]

@inproceedings{brill2022enrichment,
author = {Brill, Steven R. and Pal, Pinaki and Ameen, Muhsin and Xu, Chao and Ihme, Matthias},
title = {{An Enrichment Wall Model for the Spectral Element Method}},
booktitle={{AIAA Scitech 2022 Forum}},
pages={},
year = {2022},
doi = {10.2514/6.2022-1206}
}

2021

N. Ly and M. Ihme, “Numerical analyses of transcritical evaporation using diffuse-interface method,” in International Conference on Liquid Atomization and Spray Systems (ICLASS), 2021.
[Bibtex]

@inproceedings{ly2021dim,
title={Numerical Analyses of Transcritical Evaporation using Diffuse-Interface Method},
author={Ly, Nguyen and Ihme, Matthias},
booktitle={{International Conference on Liquid Atomization and Spray Systems (ICLASS)}},
volume={1},
number={1},
year={2021},
doi= {10.2218/iclass.2021.6113}
}

L. Frouté, E. Boigné, M. Ihme, and A. R. Kovscek, “Evaluation of electron tomography reconstruction methods for a Barnett shale,” in Unconventional Resources Technology Conference, Houston, TX, 2021.
[Bibtex]

@inproceedings{froute2021evaluation,
author = {Frout\'e, Laura and Boign\'e, Emeric and Ihme, Matthias and Kovscek, Anthony R.},
booktitle = {{Unconventional Resources Technology Conference}},
title = {{Evaluation of electron tomography reconstruction methods for a Barnett shale}},
year = {2021},
address = {Houston, TX},
doi = {10.15530/urtec-2021-5668}
}

E. Boigné, R. N. Bennett, A. Wang, and M. Ihme, “Examining the effect of fire retardant on the combustion of wood via X-ray Computed Tomography,” in 12th U. S. National Combustion Meeting, College Station, TX, Paper 1B13, 2021.
[Bibtex]

@inproceedings{boigne2021examining,
author = {Boign\'e, Emeric and Bennett, N. Robert and Wang, Adam and Ihme, Matthias},
booktitle = {{12th U. S. National Combustion Meeting}},
title = {{Examining the effect of fire retardant on the combustion of wood via X-ray Computed Tomography}},
year = {2021},
address = {College Station, TX, Paper 1B13}
}

B. J. Bornhoft, “Time integration considerations for the solution of reacting flows using discontinuous Galerkin methods,” in AIAA Scitech 2021 Forum, 2021.
[Bibtex]

@inproceedings{bornhoft2021ader,
author = {B. J. Bornhoft},
title = {{Time integration considerations for the solution of reacting flows using discontinuous Galerkin methods}},
booktitle={{AIAA Scitech 2021 Forum}},
pages={},
year = {2021},
doi = {10.2514/6.2021-0745}
}

M. Bonanni, D. Mohaddes, N. Ly, N. Perakis, J. Hardi, M. Börner, and M. Ihme, “Toward numerical investigation of ignition and combustion transition in a subscale LOX/methane rocket combustor,” in AIAA Scitech 2021 Forum, 2021.
[Bibtex]

@inproceedings{bonanni2021toward,
title={{Toward numerical investigation of ignition and combustion transition in a subscale LOX/methane rocket combustor}},
author={Bonanni, Matthew and Mohaddes, Danyal and Ly, Nguyen and Perakis, Nikolaos and Hardi, Justin and Börner, Michael and Ihme, Matthias},
booktitle={{AIAA Scitech 2021 Forum}},
pages={},
year={2021},
doi = {10.2514/6.2021-1141}
}

K. Bando, S. Brill, E. Slaughter, M. Sekachev, A. Aiken, and M. Ihme, “Development of a discontinuous galerkin solver using legion for heterogeneous high-performance computing architectures,” in AIAA Scitech 2021 Forum, 2021.
[Bibtex]

@inproceedings{bando2021legion,
title={Development of a discontinuous Galerkin solver using Legion for heterogeneous high-performance computing architectures},
author={Kihiro Bando and Steven Brill and Elliott Slaughter and Michael Sekachev and Alex Aiken and Matthias Ihme},
booktitle={{AIAA Scitech 2021 Forum}},
pages={},
year={2021},
doi={10.2514/6.2021-0140}
}

2020

S. Brill and M. Ihme, “An enriched basis discontinuous galerkin method for shocks and high-gradient features in fluid mechanics,” in AIAA Scitech 2020 Forum, 2020, p. 1752.
[Bibtex]

@inproceedings{brill2020enrichment,
title={An Enriched Basis Discontinuous Galerkin Method for Shocks and High-Gradient Features in Fluid Mechanics},
author={Brill, Steven and Ihme, Matthias},
booktitle={{AIAA Scitech 2020 Forum}},
pages={1752},
year={2020},
doi={10.2514/6.2020-1752}
}

K. Bando, M. Sekachev, and M. Ihme, “Comparison of algorithms for simulating multi-component reacting flows using high-order discontinuous galerkin methods,” in AIAA Scitech 2020 Forum, 2020, p. 1751.
[Bibtex]

@inproceedings{bando2020reacting,
title={Comparison of algorithms for simulating multi-component reacting flows using high-order discontinuous Galerkin methods},
author={Kihiro Bando and Michael Sekachev and Matthias Ihme},
booktitle={{AIAA Scitech 2020 Forum}},
pages={1751},
year={2020},
doi={10.2514/6.2020-1751}
}

2019

D. Li, T. Jaravel, and M. Ihme, “Analysis of blow-out mechanisms of turbulent swirl-stabilized non-premixed flames,” in 11th U. S. National Combustion Meeting, Pasadena, CA, 2019.
[Bibtex]

@inproceedings{dong2019analysis,
author = {Li, Dong and Jaravel, Thomas and Ihme, Matthias},
booktitle = {{11th U. S. National Combustion Meeting}},
title = {{Analysis of blow-out mechanisms of turbulent swirl-stabilized non-premixed flames}},
year = {2019},
month = {06},
address = {Pasadena, CA}
}

S. Sobhani, P. Muhunthan, D. Mohaddes, E. Boigné, Z. Cheng, and M. Ihme, “Enabling Tailored Porous Media Burners via Additive Manufacturing,” in 11th U. S. National Combustion Meeting, Pasadena, CA, 2019.
[Bibtex]

@inproceedings{sobhani2019enabling,
author = {Sobhani, Sadaf and Muhunthan, Priyanka and Mohaddes, Danyal and Boign\'e, Emeric and Cheng, Zhilong and Ihme, Matthias},
booktitle = {{11th U. S. National Combustion Meeting}},
title = {{Enabling Tailored Porous Media Burners via Additive Manufacturing}},
year = {2019},
address = {Pasadena, CA}
}

M. Ihme, “Requirements Towards Predictive Simulations of Turbulent Combustion,” in AIAA Scitech 2019 Forum, 2019, p. 996.
[Bibtex]

@inproceedings{ihme2019requirements,
title={{Requirements Towards Predictive Simulations of Turbulent Combustion}},
author={Ihme, Matthias},
booktitle={{AIAA Scitech 2019 Forum}},
pages={0996},
year={2019}
}

E. J. Ching and M. Ihme, “Sensitivity study of high-speed dusty flows over blunt bodies simulated using a discontinuous Galerkin method,” in AIAA Scitech 2019 Forum, 2019, p. 895.
[Bibtex]

@inproceedings{ching2019sensitivity,
title={{Sensitivity study of high-speed dusty flows over blunt bodies simulated using a discontinuous Galerkin method}},
author={Ching, Eric J and Ihme, Matthias},
booktitle={{AIAA Scitech 2019 Forum}},
pages={0895},
year={2019}
}

S. S. Thakur, J. Wright, and M. Ihme, “Compressible Flamelet Model with Thickened Flame Closure in an All-Speed Combustion Solver,” in AIAA Scitech 2019 Forum, 2019, p. 2143.
[Bibtex]

@inproceedings{thakur2019compressible,
title={{Compressible Flamelet Model with Thickened Flame Closure in an All-Speed Combustion Solver}},
author={Thakur, Siddharth S and Wright, Jeffrey and Ihme, Matthias},
booktitle={{AIAA Scitech 2019 Forum}},
pages={2143},
year={2019}
}

2018

L. G. Bravo, P. C. Ma, M. Ihme, and K. A. Kerner, “Transcritical mixing and auto-ignition of n-dodecane fuel using a diffuse interface method,” in 2018 Joint Propulsion Conference, 2018, p. 4685.
[Bibtex]

@inproceedings{bravo2018transcritical,
title={Transcritical mixing and auto-ignition of n-dodecane fuel using a diffuse interface method},
author={Bravo, Luis G and Ma, Peter C and Ihme, Matthias and Kerner, Kevin A},
booktitle={{2018 Joint Propulsion Conference}},
pages={4685},
year={2018}
}

Q. Wang, X. Zhao, and M. Ihme, “Modeling of sub-grid dispersion in large-eddy simulation using regularized deconvolution method,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 2082.
[Bibtex]

@inproceedings{wang2018modeling,
title={Modeling of sub-grid dispersion in large-eddy simulation using regularized deconvolution method},
author={Wang, Qing and Zhao, Xinyu and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={2082},
year={2018}
}

P. C. Ma, X. Yang, and M. Ihme, “Direct numerical simulations of turbulent channel flow under transcritical conditions,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 582.
[Bibtex]

@inproceedings{ma2018direct,
title={{Direct numerical simulations of turbulent channel flow under transcritical conditions}},
author={Ma, Peter C and Yang, Xiang and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={0582},
year={2018}
}

H. Wu, P. C. Ma, and M. Ihme, “Efficient time stepping for reactive turbulent simulations with stiff chemistry,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 1672.
[Bibtex]

@inproceedings{wu2018efficient,
title={{Efficient time stepping for reactive turbulent simulations with stiff chemistry}},
author={Wu, Hao and Ma, Peter C and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={1672},
year={2018}
}

E. Ching, S. Brill, Y. Lv, and M. Ihme, “Development of a Lagrangian Particle Tracking Method for High-Order Discontinuous Galerkin Schemes,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 360.
[Bibtex]

@inproceedings{ching2018development,
title={{Development of a Lagrangian Particle Tracking Method for High-Order Discontinuous Galerkin Schemes}},
author={Ching, Eric and Brill, Steven and Lv, Yu and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={0360},
year={2018}
}

H. Wu, P. C. Ma, Y. Lv, and M. Ihme, “Lyapunov exponent and Wasserstein metric as validation tools for assessing short-time dynamics and quantitative model evaluation of large-eddy simulation,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 440.
[Bibtex]

@inproceedings{wu2018lyapunov,
title={{Lyapunov exponent and Wasserstein metric as validation tools for assessing short-time dynamics and quantitative model evaluation of large-eddy simulation}},
author={Wu, Hao and Ma, Peter C and Lv, Yu and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={0440},
year={2018}
}

H. Wu, P. C. Ma, T. Jaravel, and M. Ihme, “Application of Pareto-efficient combustion modeling framework to large eddy simulations of turbulent reacting flows,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 1676.
[Bibtex]

@inproceedings{wu2018application,
title={{Application of Pareto-efficient combustion modeling framework to large eddy simulations of turbulent reacting flows}},
author={Wu, Hao and Ma, Peter C and Jaravel, Thomas and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={1676},
year={2018}
}

P. C. Ma, H. Wu, D. T. Banuti, and M. Ihme, “Numerical analysis on mixing processes for transcritical real-fluid simulations,” in 2018 AIAA Aerospace Sciences Meeting, 2018, p. 1813.
[Bibtex]

@inproceedings{ma2018numerical,
title={{Numerical analysis on mixing processes for transcritical real-fluid simulations}},
author={Ma, Peter C and Wu, Hao and Banuti, Daniel T and Ihme, Matthias},
booktitle={{2018 AIAA Aerospace Sciences Meeting}},
pages={1813},
year={2018}
}

2017

P. C. Ma, H. Wu, M. Ihme, and J. Hickey, “A flamelet model with heat-loss effects for predicting wall-heat transfer in rocket engines,” in 53rd AIAA/SAE/ASEE Joint Propulsion Conference, 2017, p. 4856.
[Bibtex]

@inproceedings{ma2017flamelet,
title={A flamelet model with heat-loss effects for predicting wall-heat transfer in rocket engines},
author={Ma, Peter C and Wu, Hao and Ihme, Matthias and Hickey, Jean-Pierre},
booktitle={{53rd AIAA/SAE/ASEE Joint Propulsion Conference}},
pages={4856},
year={2017},
doi = {10.2514/6.2017-4856}
}

J. Labahn, P. C. Ma, L. Esclapez, and M. Ihme, “Investigation of initial droplet distribution and importance of secondary breakup model on lean blowout predictions of a model gas turbine combustor,” in 10th U. S. National Combustion Meeting, College Park, MD, 2017.
[Bibtex]

@inproceedings{labahn2017invest,
author = {Labahn, Jeffrey and Ma, Peter Chao and Esclapez, Lucas and Ihme, Matthias},
booktitle = {{10th U. S. National Combustion Meeting}},
title = {{Investigation of initial droplet distribution and importance of secondary breakup model on lean blowout predictions of a model gas turbine combustor}},
year = {2017},
address = {College Park, MD}
}

J. O’Brien, F. Bake, and M. Ihme, “Modal Analysis of Direct Core Noise in a Model Combustor,” in 10th U.S. National Combustion Meeting, 2017.
[Bibtex]

@inproceedings{dlr113381,
booktitle = {{10th U.S. National Combustion Meeting}},
title = {{Modal Analysis of Direct Core Noise in a Model Combustor}},
author = {Jeffrey O'Brien and Friedrich Bake and Matthias Ihme},
year = {2017},
keywords = {Core noise, acoustics, modal analysis, thermoacoustics},
url = {http://elib.dlr.de/113381/},
abstract = {Combustion noise is a growing concern for gas turbine designers, especially the presence
of prominent tonal structures or thermoacoustic instabilities. High fidelity simulations such as compressible
large eddy simulation (LES) have demonstrated great potential in predicting the behavior
of these reacting flows, but these methods generate massive amounts of data and efficient techniques
are required to isolate the behavior and underlying physics of acoustic structures. Multiple modaldecomposition
techniques have gained prominence across a variety of fields for identifying the underlying
dynamics of complex systems, including the fast Fourier Transform (FFT), proper orthogonal
decomposition (POD), and dynamic mode decomposition (DMD). Here, these three techniques
are applied to the pressure field taken from a compressible LES of a gas turbine model combustor
(GTMC). Comparisons are made between the structures identified by each algorithm as well as the
capacity of each technique to identify mode amplitude and assign cardinality to the modes. Lastly,
comments are offered about the advantages and disadvantages, including robustness, of the methods
studied.}
}

K. P. Grogan and M. Ihme, “Instability Analysis of the Separated Boundary Layer in Shock Tubes,” in 55th AIAA Aerospace Sciences Meeting, 2017, p. 1799.
[Bibtex]

@inproceedings{grogan2017instability,
title={{Instability Analysis of the Separated Boundary Layer in Shock Tubes}},
author={Grogan, Kevin P and Ihme, Matthias},
booktitle={{55th AIAA Aerospace Sciences Meeting}},
pages={1799},
year={2017}
}

K. P. Grogan, B. Rankin, and M. Ihme, “Modeling and simulation of the inlet mixing process in a rotating detonation engine,” in 10th U. S. National Combustion Meeting, College Park, MD, 2017.
[Bibtex]

@inproceedings{grogan2017modeling,
title={{Modeling and simulation of the inlet mixing process in a rotating detonation engine}},
author={Grogan, Kevin P and Rankin, B. and Ihme, Matthias},
booktitle={{10th U. S. National Combustion Meeting}},
year={2017},
month = {April 24-27},
series = {Paper #3K06},
address = {College Park, MD}
}

H. Wu, P. C. Ma, Y. Lv, and M. Ihme, “MVP-Workshop Contribution: Modeling of Volvo Bluff Flame Experiment and Comparison of Finite-Volume and Discontinuous-Galerkin Schemes,” , 2017.
[Bibtex]

@article{wu2017mvp,
title={{MVP-Workshop Contribution: Modeling of Volvo Bluff Flame Experiment and Comparison of Finite-Volume and Discontinuous-Galerkin Schemes}},
author={Wu, Hao and Ma, Peter C and Lv, Yu and Ihme, Matthias},
year={2017}
}

P. C. Ma, D. Banuti, J. Hickey, and M. Ihme, “Numerical framework for transcritical real-fluid reacting flow simulations using the flamelet progress variable approach,” in 55th AIAA Aerospace Sciences Meeting, 2017, p. 143.
[Bibtex]

@inproceedings{ma2017numerical,
title={{Numerical framework for transcritical real-fluid reacting flow simulations using the flamelet progress variable approach}},
author={Ma, Peter C and Banuti, Daniel and Hickey, Jean-Pierre and Ihme, Matthias},
booktitle={{55th AIAA Aerospace Sciences Meeting}},
pages={0143},
year={2017}
}

D. Banuti, M. Raju, P. C. Ma, M. Ihme, and J. Hickey, “Seven questions about supercritical fluids-towards a new fluid state diagram,” in 55th AIAA Aerospace Sciences Meeting, 2017, p. 1106.
[Bibtex]

@inproceedings{banuti2017seven,
title={{Seven questions about supercritical fluids-towards a new fluid state diagram}},
author={Banuti, Daniel and Raju, Muralikrishna and Ma, Peter C and Ihme, Matthias and Hickey, Jean-Pierre},
booktitle={{55th AIAA Aerospace Sciences Meeting}},
pages={1106},
year={2017}
}

L. Esclapez, P. C. Ma, E. Mayhew, R. Xu, S. Stouffer, T. Lee, H. Wang, and M. Ihme, “Large-Eddy Simulations of Fuel Effect on Gas Turbine Lean Blow-out,” in 55th AIAA Aerospace Sciences Meeting, 2017, p. 1955.
[Bibtex]

@inproceedings{esclapez2017large,
title={{Large-Eddy Simulations of Fuel Effect on Gas Turbine Lean Blow-out}},
author={Esclapez, Lucas and Ma, Peter C and Mayhew, Eric and Xu, Rui and Stouffer, Scott and Lee, Tonghun and Wang, Hai and Ihme, Matthias},
booktitle={{55th AIAA Aerospace Sciences Meeting}},
pages={1955},
year={2017}
}

J. D. O’Brien and M. Ihme, “Species dependency of the compositional indirect noise mechanism,” in Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, Charlotte, NC, USA, 2017.
[Bibtex]

@inproceedings{o2017species,
title={{Species dependency of the compositional indirect noise mechanism}},
author={O’Brien, Jeffrey D and Ihme, Matthias},
booktitle={{Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition}},
note={GT2017-63076},
address={Charlotte, NC, USA},
year={2017},
organization={{American Society of Mechanical Engineers}}
}

L. Magri, J. O’Brien, and M. Ihme, “Effects of nozzle Helmholtz number on indirect combustion noise by compositional perturbations,” in Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, Charlotte, NC, USA, 2017.
[Bibtex]

@inproceedings{magri2017effects,
title={{Effects of nozzle Helmholtz number on indirect combustion noise by compositional perturbations}},
author={Magri, Luca and O'Brien, Jeffrey and Ihme, Matthias},
booktitle={{Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition}},
note={GT2017-63382},
address={Charlotte, NC, USA},
year={2017},
organization={{American Society of Mechanical Engineers}}
}

S. Sobhani, B. Haley, D. Bartz, J. Dunnmon, J. Sullivan, and M. Ihme, “Investigation of lean combustion stability, pressure drop, and material durability in porous media burners,” in Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, 2017.
[Bibtex]

@inproceedings{sobhani2017,
title={Investigation of Lean Combustion Stability, Pressure Drop, and Material Durability in Porous Media Burners},
author={Sobhani, Sadaf and Haley, Bret and Bartz, Dave and Dunnmon, Jared and Sullivan, John and Ihme, Matthias},
booktitle={{Proceedings of ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition}},
note={GT2017-63204},
year={2017},
organization={American Society of Mechanical Engineers}
}

2016

E. Ching, Y. Lv, and M. Ihme, “Discontinuous Galerkin method for predicting heat transfer in hypersonic environments,” Bulletin of the American Physical Society, vol. 61, 2016.
[Bibtex]

@article{ching2016discontinuous,
title={{Discontinuous Galerkin method for predicting heat transfer in hypersonic environments}},
author={Ching, Eric and Lv, Yu and Ihme, Matthias},
journal={{Bulletin of the American Physical Society}},
volume={61},
year={2016},
publisher={{American Physical Society}}
}

E. Ching, Y. Lv, and M. Ihme, “Entropy residual as a feature-based adaptation indicator for simulations of unsteady flow,” in 54th AIAA Aerospace Sciences Meeting (SciTech2016), San Diego, CA, 2016.
[Bibtex]

@inproceedings{CHING_LV_IHME_AIAA2016,
author = {Ching, E. and Lv, Y. and Ihme, M.},
booktitle = {{54th AIAA Aerospace Sciences Meeting (SciTech2016)}},
title = {{Entropy residual as a feature-based adaptation indicator for simulations of unsteady flow}},
address = {San Diego, CA},
year = {2016}
}

W. L. Chan and M. Ihme, “Analysis of combustion closure assumptions in a dual-mode scramjet combustor,” in 54th AIAA Aerospace Sciences Meeting (SciTech2016), San Diego, CA, 2016.
[Bibtex]

@inproceedings{CHAN_IHME_AIAA2016,
author = {Chan, W. L. and Ihme, M.},
booktitle = {{54th AIAA Aerospace Sciences Meeting (SciTech2016)}},
title = {{Analysis of combustion closure assumptions in a dual-mode scramjet combustor}},
address = {San Diego, CA},
year = {2016}
}

S. S. Thakur, J. Wright, and M. Ihme, “Compressible flamelet model in a rule-based turbulent combustion solver,” in 54th AIAA Aerospace Sciences Meeting (SciTech2016), San Diego, CA, 2016.
[Bibtex]

@inproceedings{THAKUR_WRIGHT_IHME_AIAA2016,
author = {Thakur, S. S. and Wright, J. and Ihme, M.},
booktitle = {{54th AIAA Aerospace Sciences Meeting (SciTech2016)}},
title = {{Compressible flamelet model in a rule-based turbulent combustion solver}},
address = {San Diego, CA},
year = {2016}
}

J. O’Brien, J. Kim, and M. Ihme, “Investigation of the mechanisms of jet-engine core noise using large-eddy simulation,” in 54th AIAA Aerospace Sciences Meeting (SciTech2016), San Diego, CA, 2016.
[Bibtex]

@inproceedings{OBRIEN_KIM_IHME_AIAA2016,
author = {O'Brien, J. and Kim, J. and Ihme, M.},
booktitle = {{54th AIAA Aerospace Sciences Meeting (SciTech2016)}},
title = {{Investigation of the mechanisms of jet-engine core noise using large-eddy simulation}},
address = {San Diego, CA},
year = {2016}
}

P. C. Ma, L. Esclapez, S. Carbajal, M. Ihme, T. Buschhagen, S. V. Naik, J. P. Gore, and R. P. Lucht, “High-fidelity simulations of fuel injection and atomization of a hybrid air-blast atomizer,” in 54th AIAA Aerospace Sciences Meeting (SciTech2016), San Diego, CA, 2016.
[Bibtex]

@inproceedings{MA_ESCLAPEZ_CARBAJAL_IHME_BUSCHHAGEN_NAIK_GORE_LUCHT_AIAA2016,
author = {Ma, P. C. and Esclapez, L. and Carbajal, S. and Ihme, M. and Buschhagen, T. and Naik, S. V. and Gore, J. P. and Lucht, R. P.},
booktitle = {{54th AIAA Aerospace Sciences Meeting (SciTech2016)}},
title = {{High-fidelity simulations of fuel injection and atomization of a hybrid air-blast atomizer}},
address = {San Diego, CA},
year = {2016}
}

Y. Lv and M. Ihme, “LES modeling of scalar transport based on high-order discontinuous finite element method: Assessment of implicit LES and scalar variance modeling,” in 46th AIAA Fluid Dynamics Conference, Washington, DC, 2016.
[Bibtex]

@inproceedings{LV_IHME_AIAA2016,
author = {Lv, Y. and Ihme, M.},
booktitle = {{46th AIAA Fluid Dynamics Conference}},
title = {{LES modeling of scalar transport based on high-order discontinuous finite element method: Assessment of implicit LES and scalar variance modeling}},
address = {Washington, DC},
year = {2016}
}

2015

K. Grogan, S. S. Goldsborough, and M. Ihme, “Mild ignition phenomena in rapid compression machines,” in Proceedings of the 25th International Colloquium on the Dynamics of Explosions and Reactive Systems, Leeds, UK, 2015.
[Bibtex]

@inproceedings{GROGAN_GOLDSBOROUGH_IHME_ICDERS2015,
author = {Grogan, Kevin and Goldsborough, S. Scott and Ihme, Matthias},
booktitle = {{Proceedings of the 25th International Colloquium on the Dynamics of Explosions and Reactive Systems}},
title = {{Mild ignition phenomena in rapid compression machines}},
address = {Leeds, UK},
year = {2015}
}

H. Wu and M. Ihme, “Modeling of Wall Heat Transfer and Flame/Wall Interaction – A Flamelet Model with Heat-Loss Effects,” in 9th U. S. National Combustion Meeting, Cincinnati, OH, 2015.
[Bibtex]

@inproceedings{WU_IHME_USNATMeeting2015,
author = {Wu, Hao and Ihme, Matthias},
booktitle = {{9th U. S. National Combustion Meeting}},
title = {{Modeling of Wall Heat Transfer and Flame/Wall Interaction - A Flamelet Model with Heat-Loss Effects}},
year = {2015},
address = {Cincinnati, OH}
}

P. B. Govindaraju, Q. Wang, and M. Ihme, “Multicomponent Droplet Evaporation Using Group Contribution Method with Application to Fuel Blends,” in 9th U. S. National Combustion Meeting, Cincinnati, OH, 2015.
[Bibtex]

@inproceedings{GOVINDARAJU_IHME_USNATMeeting2015,
author = {Govindaraju, Pavan B. and Wang, Qing and Ihme, Matthias},
booktitle = {{9th U. S. National Combustion Meeting}},
title = {{Multicomponent Droplet Evaporation Using Group Contribution Method with Application to Fuel Blends}},
year = {2015},
address = {Cincinnati, OH}
}

K. Grogan, Q. Wang, and M. Ihme, “Modeling Gas Dynamic Effects in Shock-Tubes for Reaction Kinetics Measurements,” in 53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2015.
[Bibtex]

@inproceedings{GROGAN_WANG_IHME_AIAA2015,
author = {Grogan, Kevin and Wang, Qing and Ihme, Matthias},
booktitle = {{53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Modeling Gas Dynamic Effects in Shock-Tubes for Reaction Kinetics Measurements}},
year = {2015}
}

Y. Lv, Y. C. See, and M. Ihme, “A General and Robust High-Order Numerical Framework for Shock-Capturing: Entropy-Bounding, Shock Detection and Artificial Viscosity,” in 53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2015.
[Bibtex]

@inproceedings{LV_SEE_IHME_AIAA2015,
author = {Lv, Yu and See, Yee Chee and Ihme, Matthias},
booktitle = {{53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{A General and Robust High-Order Numerical Framework for Shock-Capturing: Entropy-Bounding, Shock Detection and Artificial Viscosity}},
year = {2015}
}

J. D. O’Brien, J. Kim, and M. Ihme, “Linear Analysis of Jet-Engine Core Noise Based upon High-Fidelity Combustor and Turbine Simulations,” in 53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2015.
[Bibtex]

@inproceedings{OBRIEN_KIM_IHME_AIAA2015a,
author = {O'Brien, Jeffrey D. and Kim, Jeonglae and Ihme, Matthias},
booktitle = {{53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Linear Analysis of Jet-Engine Core Noise Based upon High-Fidelity Combustor and Turbine Simulations}},
year = {2015}
}

H. Wu, Y. C. See, Q. Wang, and M. Ihme, “A Fidelity Adaptive Modeling Framework for Combustion Systems Based on Model Trust-Region,” in 53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2015.
[Bibtex]

@inproceedings{WU_SEE_WANG_IHME_AIAA2015,
author = {Wu, Hao and See, Yee Chee and Wang, Qing and Ihme, Matthias},
booktitle = {{53rd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{A Fidelity Adaptive Modeling Framework for Combustion Systems Based on Model Trust-Region}},
year = {2015}
}

J. D. O’Brien, J. Kim, and M. Ihme, “Linear Analysis of Engine Core Noise Using a Hybrid Modeling Approach,” in 21st AIAA/CEAS Aeroacoustics Conference, 2015.
[Bibtex]

@inproceedings{OBRIEN_KIM_IHME_AIAA2015b,
author = {O'Brien, Jeffrey D. and Kim, Jeonglae and Ihme, Matthias},
booktitle = {{21st AIAA/CEAS Aeroacoustics Conference}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Linear Analysis of Engine Core Noise Using a Hybrid Modeling Approach}},
year = {2015}
}

2014

B. Franzelli, A. Vie, and M. Ihme, “Characterizing the Regimes of Spray Flame-Vortex Interactions: A Spray Spectral Diagram for Extinction and Re-Ignition,” in ILASS-Europe 2014, 26th Annual Conference on Liquid Atomization and Spray Systems, 2014.
[Bibtex]

@inproceedings{FRANZELLI_VIE_IHME_ILASS2014,
author = {Franzelli, Benedetta and Vie, Aymeric and Ihme, Matthias},
booktitle = {{ILASS-Europe 2014, 26th Annual Conference on Liquid Atomization and Spray Systems}},
title = {{Characterizing the Regimes of Spray Flame-Vortex Interactions: A Spray Spectral Diagram for Extinction and Re-Ignition}},
year = {2014}
}

J. Hickey and M. Ihme, “Large Eddy Simulation of Supercritical Mixing and Combustion for Rocket Applications,” in 52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2014.
[Bibtex]

@inproceedings{HICKEY_IHME_AIAA2014,
author = {Hickey, Jean-Pierre and Ihme, Matthias},
booktitle = {{52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Large Eddy Simulation of Supercritical Mixing and Combustion for Rocket Applications}},
year = {2014}
}

Y. C. See and M. Ihme, “LES Investigation of Flow Field Sensitivity in a Gas Turbine Model Combustor,” in 52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2014.
[Bibtex]

@inproceedings{SEE_IHME_AIAA2014,
author = {See, Yee Chee and Ihme, Matthias},
booktitle = {{52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{LES Investigation of Flow Field Sensitivity in a Gas Turbine Model Combustor}},
year = {2014}
}

W. L. Chan and M. Ihme, “Large-Eddy Simulations of a Dual-Mode Scramjet Combustor: Operating Point "A" of University of Virginia’s Scramjet Experiments,” in 52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2014.
[Bibtex]

@inproceedings{CHAN_IHME_AIAA2014,
author = {Chan, Wai Lee and Ihme, Matthias},
booktitle = {{52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Large-Eddy Simulations of a Dual-Mode Scramjet Combustor: Operating Point "A" of University of Virginia's Scramjet Experiments}},
year = {2014}
}

Y. Lv and M. Ihme, “Numerical Investigation of Detonation Transmission Mechanism based on High-order Discontinuous Galerkin Scheme,” in 52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2014.
[Bibtex]

@inproceedings{LV_IHME_AIAA2014,
author = {Lv, Yu and Ihme, Matthias},
booktitle = {{52nd AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Numerical Investigation of Detonation Transmission Mechanism based on High-order Discontinuous Galerkin Scheme}},
year = {2014}
}

2013

S. S. Thakur, J. Wright, and M. Ihme, “Parallel Compressible Solver for Unsteady Turbulent Combustion in Rocket Injectors Using Flamelet Models,” in 21st AIAA Computational Fluid Dynamics Conference, Reston, Virginia, 2013, pp. 1-15.
[Bibtex]

@inproceedings{Thakur2013,
address = {Reston, Virginia},
author = {Thakur, Siddharth S. and Wright, Jeffrey and Ihme, Matthias},
booktitle = {{21st AIAA Computational Fluid Dynamics Conference}},
doi = {10.2514/6.2013-2835},
file = {:/Thakur, Wright, Ihme/Thakur, Wright, Ihme - 2013 - Parallel Compressible Solver for Unsteady Turbulent Combustion in Rocket Injectors Using Flamelet Models.pdf:pdf},
month = jun,
pages = {1--15},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Parallel Compressible Solver for Unsteady Turbulent Combustion in Rocket Injectors Using Flamelet Models}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2013-2835},
year = {2013}
}

Y. Lv and M. Ihme, “Discontinuous Galerkin Method for Compressible Viscous Reacting Flow,” in 21st AIAA Computational Fluid Dynamics Conference, Reston, Virginia, 2013, pp. 1-18.
[Bibtex]

@inproceedings{Lv2013a,
address = {Reston, Virginia},
author = {Lv, Yu and Ihme, Matthias},
booktitle = {{21st AIAA Computational Fluid Dynamics Conference}},
doi = {10.2514/6.2013-3067},
file = {:/Lv, Ihme/Lv, Ihme - 2013 - Discontinuous Galerkin Method for Compressible Viscous Reacting Flow(2).pdf:pdf},
month = jun,
pages = {1--18},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Discontinuous Galerkin Method for Compressible Viscous Reacting Flow}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2013-3067 http://arc.aiaa.org/doi/pdf/10.2514/6.2013-3067},
year = {2013}
}

J. Hickey, P. C. Ma, M. Ihme, and S. S. Thakur, “Large Eddy Simulation of Shear Coaxial Rocket Injector: Real Fluid Effects,” in 49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference, Reston, Virginia, 2013, pp. 1-15.
[Bibtex]

@inproceedings{Hickey2013a,
address = {Reston, Virginia},
author = {Hickey, Jean-Pierre and Ma, Peter C. and Ihme, Matthias and Thakur, Siddharth S.},
booktitle = {{49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference}},
doi = {10.2514/6.2013-4071},
file = {:/Hickey et al/Hickey et al. - 2013 - Large Eddy Simulation of Shear Coaxial Rocket Injector Real Fluid Effects(2).pdf:pdf},
isbn = {978-1-62410-222-6},
month = jul,
pages = {1--15},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Large Eddy Simulation of Shear Coaxial Rocket Injector: Real Fluid Effects}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2013-4071 http://arc.aiaa.org/doi/pdf/10.2514/6.2013-4071},
year = {2013}
}

G. Amini and M. Ihme, “Liquid Jet Instability Under Gravity Effects,” in 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2013, pp. 1-10.
[Bibtex]

@inproceedings{Amini2013b,
address = {Reston, Virigina},
author = {Amini, Ghobad and Ihme, Matthias},
booktitle = {{51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2013-92},
file = {:/Amini, Ihme/Amini, Ihme - 2013 - Liquid Jet Instability Under Gravity Effects(2).pdf:pdf},
isbn = {978-1-62410-181-6},
month = jan,
number = {January},
pages = {1--10},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Liquid Jet Instability Under Gravity Effects}},
url = {http://arc.aiaa.org/doi/pdf/10.2514/6.2013-92 http://arc.aiaa.org/doi/abs/10.2514/6.2013-92},
year = {2013}
}

Y. C. See and M. Ihme, “Large-Eddy Simulation of a Gas Turbine Model Combustor,” in 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2013, pp. 1-11.
[Bibtex]

@inproceedings{See2013a,
address = {Reston, Virigina},
author = {See, Yee Chee and Ihme, Matthias},
booktitle = {{51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2013-172},
file = {:/See, Ihme/See, Ihme - 2013 - Large Eddy Simulation of a Gas Turbine Model Combustor(2).pdf:pdf},
isbn = {978-1-62410-181-6},
month = jan,
number = {January},
pages = {1--11},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Large-Eddy Simulation of a Gas Turbine Model Combustor}},
url = {http://arc.aiaa.org/doi/pdf/10.2514/6.2013-172 http://arc.aiaa.org/doi/abs/10.2514/6.2013-172},
year = {2013}
}

Y. Lv and M. Ihme, “Development of Discontinuous Galerkin Method for Detonation and Supersonic Combustion,” in 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2013, pp. 1-12.
[Bibtex]

@inproceedings{Lv2013b,
address = {Reston, Virigina},
author = {Lv, Yu and Ihme, Matthias},
booktitle = {{51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2013-688},
file = {:/Lv, Ihme/Lv, Ihme - 2013 - Development of Discontinuous Galerkin Method for Detonation and Supersonic Combustion.pdf:pdf},
isbn = {978-1-62410-181-6},
month = jan,
number = {January},
pages = {1--12},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Development of Discontinuous Galerkin Method for Detonation and Supersonic Combustion}},
url = {http://arc.aiaa.org/doi/pdf/10.2514/6.2013-688 http://arc.aiaa.org/doi/abs/10.2514/6.2013-688},
year = {2013}
}

M. Ihme, Sun Yong, and R. Deiterding, “Detailed Simulations of Shock-Bifurcation and Ignition of an Argon-diluted Hydrogen/Oxygen Mixture in a Shock Tube,” in 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, month = jan, Reston, Virigina, 2013, pp. 1-14.
[Bibtex]

@inproceedings{IHME_SUN_DEITERDING_AIAA2013,
address = {Reston, Virigina},
author = {Ihme, Matthias and Sun, Yong, and Deiterding, Ralf},
booktitle = {{51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition},}
month = jan,
number = {January},
pages = {1--14},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Detailed Simulations of Shock-Bifurcation and Ignition of an Argon-diluted Hydrogen/Oxygen Mixture in a Shock Tube}},
year = {2013}
}

2012

Y. C. See, G. Amini, C. Koh, and M. Ihme, “Jet noise receptivity analysis of perfectly expanded supersonic jet flows,” in 18th AIAA/CEAS Aeroacoustics Conference, Colorado Springs, CO, 2012.
[Bibtex]

@inproceedings{SeeY.-C.AminiG.KohC.andIhme,
address = {Colorado Springs, CO},
author = {See, Yee Chee and Amini, Ghobad and Koh, Chris and Ihme, Matthias},
booktitle = {{18th AIAA/CEAS Aeroacoustics Conference}},
title = {{Jet noise receptivity analysis of perfectly expanded supersonic jet flows}},
year = {2012}
}

W. L. Chan, H. Kolla, M. Ihme, and C. J. H., “Analysis of a jet in cross flow using an unsteady flamlet model,” in 2012 Spring Meeting of Central States Section of the Combustion Institute, Dayton, OH, 2012.
[Bibtex]

@inproceedings{ChanW.L.KollaH.IhmeM.,
address = {Dayton, OH},
author = {Chan, W. L. and Kolla, H. and Ihme, M. and H., Chen J.},
booktitle = {{2012 Spring Meeting of Central States Section of the Combustion Institute}},
title = {{Analysis of a jet in cross flow using an unsteady flamlet model}},
year = {2012}
}

Y. Chen and M. Ihme, “Flame characterization of a piloted premixed jet burner,” in 2012 Spring Meeting of Central States Section of the Combustion Institute, Dayton, OH, 2012, pp. 1-11.
[Bibtex]

@inproceedings{Chen2012,
address = {Dayton, OH},
author = {Chen, Yuntao and Ihme, Matthias},
booktitle = {{2012 Spring Meeting of Central States Section of the Combustion Institute}},
file = {:/Chen, Ihme/Chen, Ihme - 2012 - Flame characterization of a piloted premixed jet burner.pdf:pdf},
pages = {1--11},
title = {{Flame characterization of a piloted premixed jet burner}},
url = {http://www.combustioninstitute.org/upload\_resources/12S-90.pdf},
year = {2012}
}

Y. Sun, M. Ihme, and R. Deiterding, “Characterization of turbulent transition and shock/boundary layer interaction in shock tubes,” in 23rd International Congress of Theoretical and Applied Mechanics (ICTAM 2012), Beijing, China, 2012.
[Bibtex]

@inproceedings{Sun2012,
address = {Beijing, China},
author = {Sun, Y. and Ihme, M. and Deiterding, R.},
booktitle = {{23rd International Congress of Theoretical and Applied Mechanics (ICTAM 2012)}},
title = {{Characterization of turbulent transition and shock/boundary layer interaction in shock tubes}},
year = {2012}
}

Y. Chen and M. Ihme, “Modeling of a piloted jet burner using large-eddy simulation,” in 23rd International Congress of Theoretical and Applied Mechanics (ICTAM 2012), Beijing, China, 2012.
[Bibtex]

@inproceedings{ChenY.andIhme,
address = {Beijing, China},
author = {Chen, Y. and Ihme, M.},
booktitle = {{23rd International Congress of Theoretical and Applied Mechanics (ICTAM 2012)}},
title = {{Modeling of a piloted jet burner using large-eddy simulation}},
year = {2012}
}

Y. C. See and M. Ihme, “Linear Stability Analysis of a Non-premixed Buoyant Jet Flame,” in 50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2012, pp. 1-14.
[Bibtex]

@inproceedings{See2012,
address = {Reston, Virigina},
author = {See, Yee Chee and Ihme, Matthias},
booktitle = {{50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2012-342},
file = {:/See, Ihme/See, Ihme - 2012 - Linear Stability Analysis of a Non-premixed Buoyant Jet Flame.pdf:pdf},
isbn = {978-1-60086-936-5},
month = jan,
number = {January},
pages = {1--14},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Linear Stability Analysis of a Non-premixed Buoyant Jet Flame}},
url = {http://arc.aiaa.org/doi/pdf/10.2514/6.2012-342 http://arc.aiaa.org/doi/abs/10.2514/6.2012-342},
year = {2012}
}

P. Allison, J. Driscoll, and M. Ihme, “Acoustic Behavior of a Partially-Premixed Gas Turbine Model Combustor,” in 50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2012.
[Bibtex]

@inproceedings{Allison2012,
address = {Reston, Virigina},
author = {Allison, Patton and Driscoll, James and Ihme, Matthias},
booktitle = {{50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2012-504},
file = {:/Allison, Driscoll, Ihme/Allison, Driscoll, Ihme - 2012 - Acoustic Behavior of a Partially-Premixed Gas Turbine Model Combustor.pdf:pdf},
isbn = {978-1-60086-936-5},
month = jan,
number = {January},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Acoustic Behavior of a Partially-Premixed Gas Turbine Model Combustor}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2012-504},
year = {2012}
}

S. Weiher and M. Ihme, “Characterization of Mixing and Ignition Effects in Flow-Reactor Facilities Using a Particle Method,” in 50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2012, pp. 1-9.
[Bibtex]

@inproceedings{Weiher2012,
address = {Reston, Virigina},
author = {Weiher, Simon and Ihme, Matthias},
booktitle = {{50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2012-499},
file = {:/Weiher, Ihme/Weiher, Ihme - 2012 - Characterization of Mixing and Ignition Effects in Flow-Reactor Facilities Using a Particle Method.pdf:pdf},
isbn = {978-1-60086-936-5},
month = jan,
number = {January},
pages = {1--9},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Characterization of Mixing and Ignition Effects in Flow-Reactor Facilities Using a Particle Method}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2012-499},
year = {2012}
}

2011

D. Lee, S. Thakur, J. Wright, M. Ihme, and W. Shyy, “Characterization of Flow Field Structure and Species Composition in a Shear Coaxial Rocket GH2/GO2 Injector: Modeling of Wall Heat Losses,” in 47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, Reston, Virigina, 2011, pp. 1-14.
[Bibtex]

@inproceedings{Lee2011,
address = {Reston, Virigina},
author = {Lee, D. and Thakur, S. and Wright, J. and Ihme, Matthias. and Shyy, W.},
booktitle = {{47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference \& Exhibit}},
doi = {10.2514/6.2011-6125},
file = {:/Lee et al/Lee et al. - 2011 - Characterization of Flow Field Structure and Species Composition in a Shear Coaxial Rocket GH2GO2 Injector Modeling.pdf:pdf},
isbn = {978-1-60086-949-5},
keywords = {Combustion,Flamelet,heat transfer},
mendeley-tags = {Combustion,Flamelet,heat transfer},
month = jul,
number = {August},
pages = {1--14},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Characterization of Flow Field Structure and Species Composition in a Shear Coaxial Rocket GH2/GO2 Injector: Modeling of Wall Heat Losses}},
url = {http://www-personal.umich.edu/~mihme/Site/Publications\_files/AIAA-2011-6125-828.pdf http://arc.aiaa.org/doi/abs/10.2514/6.2011-6125},
year = {2011}
}

M. Ihme, “Reconcile Discrepancies of Current Syngas Kinetics Models by Considering Turbulence Effects on Ignition Delay at Gas-Turbine Relevant Operating Conditions,” 49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, 2011.
[Bibtex]

@article{IHME_AIAA2011,
address = {Reston, Virigina},
author = {Ihme, Matthias},
doi = {10.2514/6.2011-511},
file = {:/Ihme/Ihme - 2011 - Reconcile Discrepancies of Current Syngas Kinetics Models by Considering Turbulence Effects on Ignition Delay at Gas-Turbi.pdf:pdf},
isbn = {978-1-60086-950-1},
journal = {{49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition}},
month = jan,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Reconcile Discrepancies of Current Syngas Kinetics Models by Considering Turbulence Effects on Ignition Delay at Gas-Turbine Relevant Operating Conditions}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2011-511},
year = {2011}
}

2010

Y. C. See and M. Ihme, “Characterization and Sensitivity Analysis of a Turbulent Diffusion Flame in Diluted Hot Coflow,” 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, 2010.
[Bibtex]

@article{IHME_SEE_AIAA2010,
address = {Reston, Virigina},
author = {See, Yee Chee and Ihme, Matthias},
doi = {10.2514/6.2010-222},
file = {:/Ihme, See/Ihme, See - 2010 - Characterization and Sensitivity Analysis of a Turbulent Diffusion Flame in Diluted Hot Coflow.pdf:pdf},
isbn = {978-1-60086-959-4},
journal = {{48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition}},
month = jan,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Characterization and Sensitivity Analysis of a Turbulent Diffusion Flame in Diluted Hot Coflow}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2010-222},
year = {2010}
}

E. Sozer, E. Hassan, S. Yun, S. Thakur, J. Wright, M. Ihme, and W. Shyy, “Turbulence-Chemistry Interaction and Heat Transfer Modeling of H2/O2 Gaseous Injector Flows,” in 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, Reston, Virigina, 2010, pp. 1-27.
[Bibtex]

@inproceedings{Sozer2010a,
address = {Reston, Virigina},
author = {Sozer, Emre and Hassan, Ezeldin and Yun, Seokjun and Thakur, Siddharth and Wright, Jeffrey and Ihme, Matthias and Shyy, Wei},
booktitle = {{48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition}},
doi = {10.2514/6.2010-1525},
file = {:/Sozer et al/Sozer et al. - 2010 - Turbulence-Chemistry Interaction and Heat Transfer Modeling of H2O2 Gaseous Injector Flows.pdf:pdf},
isbn = {978-1-60086-959-4},
month = jan,
number = {January},
pages = {1--27},
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Turbulence-Chemistry Interaction and Heat Transfer Modeling of H2/O2 Gaseous Injector Flows}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2010-1525},
year = {2010}
}

M. Ihme and Y. C. See, “LES modeling of kinetics-controlled combustion regimes: Autoignition,” in Fifth European Conference on Computational Fluid Dynamics, ECCOMAS CFD, Lisbon, 2010.
[Bibtex]

@inproceedings{Ihme2010,
address = {Lisbon},
author = {Ihme, M. and See, Y. C.},
booktitle = {{Fifth European Conference on Computational Fluid Dynamics, ECCOMAS CFD}},
title = {{LES modeling of kinetics-controlled combustion regimes: Autoignition}},
year = {2010}
}

2009

M. Ihme and Y. C. See, “Large-Eddy Simulation of a Turbulent Lifted Flame in a Vitiated Co-Flow,” 47th AIAA Aerospace Sciences Meeting including The New Horizons Forum and Aerospace Exposition, 2009.
[Bibtex]

@article{IHME_SEE_AIAA2009,
address = {Reston, Virigina},
author = {Ihme, Matthias and See, Yee Chee},
doi = {10.2514/6.2009-239},
file = {:/Ihme, See/Ihme, See - 2009 - Large-Eddy Simulation of a Turbulent Lifted Flame in a Vitiated Co-Flow.pdf:pdf},
isbn = {978-1-60086-973-0},
journal = {{47th AIAA Aerospace Sciences Meeting including The New Horizons Forum and Aerospace Exposition}},
month = jan,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Large-Eddy Simulation of a Turbulent Lifted Flame in a Vitiated Co-Flow}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2009-239},
year = {2009}
}

Y. C. See and M. Ihme, “Prediction of autoignition in a lifted methane/air flame using an unsteady flamelet/progress variable model,” in Sixth U.S. National Combustion Meeting, Ann Arbor, MI, 2009.
[Bibtex]

@inproceedings{See2009,
address = {Ann Arbor, MI},
author = {See, Y. C. and Ihme, M.},
booktitle = {{Sixth U.S. National Combustion Meeting}},
title = {{Prediction of autoignition in a lifted methane/air flame using an unsteady flamelet/progress variable model}},
year = {2009}
}

2008

T. Bui, M. Ihme, M. Meinke, W. Schroeder, and H. Pitsch, “Numerical Applicability of Different Sound Source Formulations to Compute Combustion Noise Using Acoustic Perturbation Equations for Reacting Flows,” 14th AIAA/CEAS Aeroacoustics Conference (29th AIAA Aeroacoustics Conference), 2008.
[Bibtex]

@article{BUI_IHME_MEINKE_SCHROEDER_PITSCH_AIAAP08,
address = {Reston, Virigina},
author = {Bui, Thanh and Ihme, Matthias and Meinke, Matthias and Schroeder, Wolfgang and Pitsch, Heinz},
doi = {10.2514/6.2008-2948},
file = {:/Bui et al/Bui et al. - 2008 - Numerical Applicability of Different Sound Source Formulations to Compute Combustion Noise Using Acoustic Perturbati.pdf:pdf},
isbn = {978-1-60086-983-9},
journal = {{14th AIAA/CEAS Aeroacoustics Conference (29th AIAA Aeroacoustics Conference)}},
month = may,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Numerical Applicability of Different Sound Source Formulations to Compute Combustion Noise Using Acoustic Perturbation Equations for Reacting Flows}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2008-2948},
year = {2008}
}

H. Pitsch, O. Desjardins, G. Balarac, and M. Ihme, “Large-Eddy Simulation of Turbulent Reacting Flows,” in 46th AIAA Aerospace Sciences Meeting and Exhibit, Reno, NV, 2008.
[Bibtex]

@inproceedings{Pitsch2008a,
address = {Reno, NV},
author = {Pitsch, H. and Desjardins, O. and Balarac, G. and Ihme, M.},
booktitle = {{46th AIAA Aerospace Sciences Meeting and Exhibit}},
title = {{Large-Eddy Simulation of Turbulent Reacting Flows}},
year = {2008}
}

2007

M. Kaltenbacher, M. Ihme, and H. Pitsch, “Enhanced Hybrid LES/CAA Approach for Combustion-Induced Noise in Complex Geometries,” 13th AIAA/CEAS Aeroacoustics Conference (28th AIAA Aeroacoustics Conference), 2007.
[Bibtex]

@article{KALTENBACHER_IHME_PITSCH_AIAAP07,
address = {Reston, Virigina},
author = {Kaltenbacher, Manfred and Ihme, Matthias and Pitsch, Heinz},
doi = {10.2514/6.2007-3403},
file = {:/Kaltenbacher, Ihme, Pitsch/Kaltenbacher, Ihme, Pitsch - 2007 - Enhanced Hybrid \{LESCAA\} Approach for Combustion-Induced Noise in Complex Geometries.pdf:pdf},
isbn = {978-1-62410-003-1},
journal = {{13th AIAA/CEAS Aeroacoustics Conference (28th AIAA Aeroacoustics Conference)}},
month = may,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Enhanced Hybrid LES/CAA Approach for Combustion-Induced Noise in Complex Geometries}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2007-3403},
year = {2007}
}

T. Bui, M. Ihme, M. Meinke, W. Schroeder, and H. Pitsch, “Numerical Investigation of Combustion Noise and Sound Source Mechanisms in a Non-Premixed Flame Using LES and APE-RF,” 13th AIAA/CEAS Aeroacoustics Conference (28th AIAA Aeroacoustics Conference), 2007.
[Bibtex]

@article{BUI_IHME_AIAAP07,
address = {Reston, Virigina},
author = {Bui, Thanh and Ihme, Matthias and Meinke, Matthias and Schroeder, Wolfgang and Pitsch, Heinz},
doi = {10.2514/6.2007-3406},
file = {:/Bui et al/Bui et al. - 2007 - Numerical Investigation of Combustion Noise and Sound Source Mechanisms in a Non-premixed Flame using \{LES\} and \{APE.pdf:pdf}},
isbn = {978-1-62410-003-1},
journal = {{13th AIAA/CEAS Aeroacoustics Conference (28th AIAA Aeroacoustics Conference)}},
month = may,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Numerical Investigation of Combustion Noise and Sound Source Mechanisms in a Non-Premixed Flame Using LES and APE-RF}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2007-3406},
year = {2007}
}

2006

M. Ihme, D. Bodony, and H. Pitsch, “Prediction of Combustion-Generated Noise in Non-Premixed Turbulent Jet Flames Using LES,” 12th AIAA/CEAS Aeroacoustics Conference (27th AIAA Aeroacoustics Conference), 2006.
[Bibtex]

@article{IHME_BODONY_PITSCH_AIAA2006,
address = {Reston, Virigina},
author = {Ihme, Matthias and Bodony, Daniel and Pitsch, Heinz},
doi = {10.2514/6.2006-2614},
file = {:/Ihme, Bodony, Pitsch/Ihme, Bodony, Pitsch - 2006 - Prediction of combustion-generated noise in non-premixed turbulent jet flames using large-eddy simulation.pdf:pdf},
isbn = {978-1-62410-021-5},
journal = {{12th AIAA/CEAS Aeroacoustics Conference (27th AIAA Aeroacoustics Conference)}},
month = may,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{Prediction of Combustion-Generated Noise in Non-Premixed Turbulent Jet Flames Using LES}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2006-2614},
year = {2006}
}

2005

M. Ihme and H. Pitsch, “LES of a Non-Premixed Flame Using an Extended Flamelet/Progress Variable Model,” 43rd AIAA Aerospace Sciences Meeting and Exhibit, 2005.
[Bibtex]

@article{IHME_PITSCH_AIAA05,
address = {Reston, Virigina},
author = {Ihme, Matthias and Pitsch, Heinz},
doi = {10.2514/6.2005-558},
file = {:/Ihme, Pitsch/Ihme, Pitsch - 2005 - \{LES\} of a Non-Premixed Flame Using an Extended FlameletProgress Variable Model.pdf:pdf},
isbn = {978-1-62410-064-2},
journal = {{43rd AIAA Aerospace Sciences Meeting and Exhibit}},
month = jan,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{LES of a Non-Premixed Flame Using an Extended Flamelet/Progress Variable Model}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2005-558},
year = {2005}
}

H. Pitsch and M. Ihme, “An Unsteady/Flamelet Progress Variable Method for LES of Nonpremixed Turbulent Combustion,” 43rd AIAA Aerospace Sciences Meeting and Exhibit, 2005.
[Bibtex]

@article{PITSCH_IHME_AIAA05,
address = {Reston, Virigina},
author = {Pitsch, Heinz and Ihme, Matthias},
doi = {10.2514/6.2005-557},
file = {:/Pitsch, Ihme/Pitsch, Ihme - 2005 - An unsteadyflamelet progress variable method for \{LES\} of nonpremixed turbulent combustion.pdf:pdf},
isbn = {978-1-62410-064-2},
journal = {{43rd AIAA Aerospace Sciences Meeting and Exhibit}},
month = jan,
publisher = {American Institute of Aeronautics and Astronautics},
title = {{An Unsteady/Flamelet Progress Variable Method for LES of Nonpremixed Turbulent Combustion}},
url = {http://arc.aiaa.org/doi/abs/10.2514/6.2005-557},
year = {2005}
}

2003

M. Ihme, C. D. Pierce, C. M. Cha, and H. Pitsch, “A priori study of a flamelet/progress variable approach for non-premixed turbulent combustion,” in Third Joint Meeting of the U.S. Section of the Combustion Institute, Chicago, IL, 2003.
[Bibtex]

@inproceedings{Ihme2003,
address = {Chicago, IL},
author = {Ihme, M. and Pierce, C. D. and Cha, C. M. and Pitsch, H.},
booktitle = {{Third Joint Meeting of the U.S. Section of the Combustion Institute}},
title = {{A priori study of a flamelet/progress variable approach for non-premixed turbulent combustion}},
year = {2003}
}

2002

M. Ihme and M. Breuer, “Sound prediction for a turbulent co-flowing jet based on LES,” in International Workshop on LES for Acoustics, DLR Goettingen, Germany, 2002.
[Bibtex]

@inproceedings{Ihme2002,
address = {DLR Goettingen, Germany},
author = {Ihme, M. and Breuer, M.},
booktitle = {{International Workshop on LES for Acoustics}},
title = {{Sound prediction for a turbulent co-flowing jet based on LES}},
year = {2002}
}

.” .
[Bibtex]

@inproceedings{wang2018modeling,
title=[{Modeling of sub-grid dispersion in large-eddy simulation using regularized deconvolution method}}

M. Ihme and Y. C. See, ,” in +direct and large-eddy simulation viii, proceedings of the eighth international ercoftac workshop on direct and large-eddy simulation, .
[Bibtex]

@incollection{ihme2011modeling,
author = {Ihme, Matthias and See, Yee Chee},
booktitle = {+Direct and Large-Eddy Simulation VIII, Proceedings of the Eighth International ERCOFTAC Workshop on Direct and Large-Eddy Simulation}}

2018

C. F. Silva, P. Petersson, G. Iaccarino, and M. Ihme, “Generalized chaos expansion of state space modelsfor uncertainty quantification in thermoacoustics,” Proceedings of the Summer Program, pp. 339-348, 2018.
[Bibtex]

@article{silva2018generalized,
author = {Silva, C.F. and Petersson, P. and Iaccarino, G. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {339-348},
title = {{Generalized chaos expansion of state space modelsfor uncertainty quantification in thermoacoustics}},
year = {2018}
}

H. Yu, T. Jaravel, J. Labahn, M. Ihme, M. P. Juniper, and L. Magri, “Physics-informed data-driven prediction ofpremixed flame dynamics with data assimilation,” Proceedings of the Summer Program, pp. 329-338, 2018.
[Bibtex]

@article{yu2018physics,
author = {Yu, H. and Jaravel, T. and Labahn, J. and Ihme, M. and Juniper, M.P. and Magri, L.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {329-338},
title = {{Physics-informed data-driven prediction ofpremixed flame dynamics with data assimilation}},
year = {2018}
}

C. Duwig, G. Lupo, A. Gruber, L. Brandt, P. B. Govindaraju, T. Jaravel, and M. Ihme, “Direct numerical simulation, analysis, andmodeling of the evaporation of multiple fueldroplets in a hot turbulent flow,” Proceedings of the Summer Program, pp. 319-328, 2018.
[Bibtex]

@article{duwig2018direct,
author = {Duwig, C. and Lupo, G. and Gruber, A. and Brandt, L. and Govindaraju, P.B. and Jaravel, T. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {319-328},
title = {{Direct numerical simulation, analysis, andmodeling of the evaporation of multiple fueldroplets in a hot turbulent flow}},
year = {2018}
}

Y. Lv, X. I. A. Yang, G. I. Park, and M. Ihme, “Physics-based near-wall turbulence modeling in anenriched discontinuous Galerkin framework,” Proceedings of the Summer Program, pp. 127-136, 2018.
[Bibtex]

@article{lv2018physics,
author = {Lv, Y. and Yang, X.I.A. and Park, G.I. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {127-136},
title = {{Physics-based near-wall turbulence modeling in anenriched discontinuous Galerkin framework}},
year = {2018}
}

F. Naddei, M. de la Llave Plata, E. Lamballais, V. Couaillier, M. Massot, and M. Ihme, “Large-scale space definition for the DG-VMS method based on energy transfer analyses,” Proceedings of the Summer Program, pp. 107-116, 2018.
[Bibtex]

@article{naddei2018large,
author = {Naddei, F. and de la Llave Plata, M. and Lamballais, E. and Couaillier, V. and Massot, M. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {107-116},
title = {{Large-scale space definition for the DG-VMS method based on energy transfer analyses}},
year = {2018}
}

K. Bando, F. Naddei, M. de la Llave Plata, and M. Ihme, “Variational multiscale SGS modeling for LESusing a high-order discontinuous Galerkin method,” Annual Research Briefs, pp. 209-312, 2018.
[Bibtex]

@article{bando2018variational,
author = {Bando, K. and Naddei, F. and de la Llave Plata, M. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {209-312},
title = {{Variational multiscale SGS modeling for LESusing a high-order discontinuous Galerkin method}},
year = {2018}
}

J. Guo, X. I. A. Yang, and M. Ihme, “Thermal structures and heat transfer in wall-bounded flows at transcritical conditions,” Annual Research Briefs, pp. 273-284, 2018.
[Bibtex]

@article{guo2018thermal,
author = {Guo, J. and Yang, X.I.A. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {273-284},
title = {{Thermal structures and heat transfer in wall-bounded flows at transcritical conditions}},
year = {2018}
}

2017

T. Jaravel, J. Labahn, B. Sforzo, J. Seitzman, and M. Ihme, “Numerical study of the ignition behavior of a post-discharge kernelin a turbulent stratified crossflow,” Annual Research Briefs, pp. 63-76, 2017.
[Bibtex]

@article{JARAVEL_NUME2017,
author = {Jaravel, T. and Labahn, J. and Sforzo, B. and Seitzman, J. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {63-76},
title = {{Numerical study of the ignition behavior of a post-discharge kernelin a turbulent stratified crossflow}},
year = {2017}
}

J. W. Labahn, G. Nastac, L. Magri, and M. Ihme, “Determining dynamic content of turbulent reacting flow LES using the Lyapunov exponent,” Annual Research Briefs, pp. 77-89, 2017.
[Bibtex]

@article{LABAHN_DETE2017,
author = {Labahn, J. W. and Nastac, G. and Magri, L. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {77-89},
title = {{Determining dynamic content of turbulent reacting flow LES using the Lyapunov exponent}},
year = {2017}
}

D. T. Banuti, M. Raju, and M. Ihme, “On the characterization of transcritical fluid states,” Annual Research Briefs, pp. 165-178, 2017.
[Bibtex]

@article{BANUTI_ONTH2017,
author = {Banuti, D. T. and Raju, M. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {165-178},
title = {{On the characterization of transcritical fluid states}},
year = {2017}
}

P. C. Ma, X. I. A. Yang, and M. Ihme, “Structure of wall-bounded flows at transcritical conditions,” Annual Research Briefs, pp. 179-192, 2017.
[Bibtex]

@article{MA_STRU2017,
author = {Ma, P. C. and Yang, X. I. A. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {179-192},
title = {{Structure of wall-bounded flows at transcritical conditions}},
year = {2017}
}

E. Ching, Y. Lv, and M. Ihme, “Discontinuous Galerkin method for predicting heat transfer in hypersonic environments,” Annual Research Briefs, pp. 391-403, 2017.
[Bibtex]

@article{ERIC_DIS2017,
author = {Ching, E. and Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {391-403},
title = {{Discontinuous Galerkin method for predicting heat transfer in hypersonic environments}},
year = {2017}
}

2016

X. Y. Zhao, L. Esclapez, P. Govindaraju, Q. Wang, and M. Ihme, “Evaluation of subgrid dispersion models for LES of spray flames,” Proceedings of the Summer Program, pp. 85-94, 2016.
[Bibtex]

@article{ZHAO_EVAL2016,
author = {Zhao, X. Y. and Esclapez, L. and Govindaraju, P. and Wang, Q. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {85-94},
title = {{Evaluation of subgrid dispersion models for LES of spray flames}},
year = {2016}
}

U. A. Quadri, L. Magri, M. Ihme, and P. J. Schmidt, “Optimal ignition placement in diffusion flames by nonlinear adjoint looping,” Proceedings of the Summer Program, pp. 95-104, 2016.
[Bibtex]

@article{QUADRI_OPT2016,
author = {Quadri, U. A. and Magri, L. and Ihme, M. and Schmidt, P. J.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {95-104},
title = {{Optimal ignition placement in diffusion flames by nonlinear adjoint looping}},
year = {2016}
}

V. Nair, G. Nastac, L. Magri, and M. Ihme, “Inspecting Lagrangian coherent structures in turbulent combustion simulations,” Proceedings of the Summer Program, pp. 105-112, 2016.
[Bibtex]

@article{NAIR_INSP2016,
author = {Nair, V. and Nastac, G. and Magri, L. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {105-112},
title = {{Inspecting Lagrangian coherent structures in turbulent combustion simulations}},
year = {2016}
}

A. Felden, E. Riber, B. Cuenot, L. Esclapez, M. Ihme, and H. Wang, “Including real fuel chemistry in LES of turbulent combustion,” Proceedings of the Summer Program, pp. 113-122, 2016.
[Bibtex]

@article{FELDEN_INC2016,
author = {Felden, A. and Riber, E. and Cuenot, B. and Esclapez, L. and Ihme, M. and Wang, H.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {113-122},
title = {{Including real fuel chemistry in LES of turbulent combustion}},
year = {2016}
}

J. O’Brien, F. Bake, and M. Ihme, “Combustion noise simulation in a model gas-turbine combustor,” Proceedings of the Summer Program, pp. 153-162, 2016.
[Bibtex]

@article{OBRIEN_COMB2016,
author = {O’Brien, J. and Bake, F. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {153-162},
title = {{Combustion noise simulation in a model gas-turbine combustor}},
year = {2016}
}

K. Hillewaert, J. -S. Cognone, S. M. Murman, Y. Lv, and M. Ihme, “Assessment of high-order DG methods for LES of compressible flows,” Proceedings of the Summer Program, pp. 363-372, 2016.
[Bibtex]

@article{HILLEWAERT_ASSE2016,
author = {Hillewaert, K. and Cognone, J.-S. and Murman, S. M. and Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {363-372},
title = {{Assessment of high-order DG methods for LES of compressible flows}},
year = {2016}
}

L. Esclapez, P. Govindaraju, and M. Ihme, “Toward direct numerical simulation of multicomponent fuel spray auto-ignition,” Annual Research Briefs, pp. 181-192, 2016.
[Bibtex]

@article{ESCLAPEZ_TOWA2016,
author = {Esclapez, L. and Govindaraju, P. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {181-192},
title = {{Toward direct numerical simulation of multicomponent fuel spray auto-ignition}},
year = {2016}
}

D. T. Banuti, M. Raju, and M. Ihme, “Supercritical pseudoboiling for general fluids and its application to injection,” Annual Research Briefs, pp. 211-221, 2016.
[Bibtex]

@article{BANUTI_SUPE2016,
author = {Banuti, D. T. and Raju, M. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {211-221},
title = {{Supercritical pseudoboiling for general fluids and its application to injection}},
year = {2016}
}

P. C. Ma, Y. Lv, and M. Ihme, “Numerical methods to prevent pressure oscillations in transcritical flows,” Annual Research Briefs, pp. 223-234, 2016.
[Bibtex]

@article{MA_NUME2016,
author = {Ma, P. C. and Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {223-234},
title = {{Numerical methods to prevent pressure oscillations in transcritical flows}},
year = {2016}
}

L. Magri, J. O’Brien, and M. Ihme, “Compositional inhomogeneities as a source of indirect noise in subsonic and supersonic nozzles,” Annual Research Briefs, pp. 235-246, 2016.
[Bibtex]

@article{MAGRI_COM2016,
author = {Magri, L. and O'Brien, J. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {235-246},
title = {{Compositional inhomogeneities as a source of indirect noise in subsonic and supersonic nozzles}},
year = {2016}
}

Y. Lv and M. Ihme, “Entropy residual shock detector for shock-capturing using high-order discontinuous Galerkin scheme,” Annual Research Briefs, pp. 317-327, 2016.
[Bibtex]

@article{LV_ENT2016,
author = {Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {317-327},
title = {{Entropy residual shock detector for shock-capturing using high-order discontinuous Galerkin scheme}},
year = {2016}
}

2015

Q. Wang, H. Wu, and M. Ihme, “Regularized deconvolution method for turbulent combustion modeling,” Annual Research Briefs, pp. 65-75, 2015.
[Bibtex]

@article{WANG_WU_IHME_ARB2015,
author = {Wang, Q. and Wu, H. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {65-75},
title = {{Regularized deconvolution method for turbulent combustion modeling}},
year = {2015}
}

L. Magri and M. Ihme, “Recent advances in linear methods for sensitivity, passive control and modeling of thermo-acoustic instabilities,” Annual Research Briefs, pp. 89-102, 2015.
[Bibtex]

@article{MAGRI_IHME_ARB2015,
author = {Magri, L. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {89-102},
title = {{Recent advances in linear methods for sensitivity, passive control and modeling of thermo-acoustic instabilities}},
year = {2015}
}

L. Esclapez, P. C. Ma, and M. Ihme, “Large-eddy simulation of fuel effect on lean blow-out in gas turbines,” Annual Research Briefs, pp. 103-113, 2015.
[Bibtex]

@article{ESCLAPEZ_MA_IHME_ARB2015,
author = {Esclapez, L. and Ma, P. C. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {103-113},
title = {{Large-eddy simulation of fuel effect on lean blow-out in gas turbines}},
year = {2015}
}

W. L. Chan and M. Ihme, “Large-eddy simulations and turbulent combustion model analysis of a dual-mode scramjet combustor,” Annual Research Briefs, pp. 115-124, 2015.
[Bibtex]

@article{CHAN_IHME_ARB2015,
author = {Chan, W. L. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {115-124},
title = {{Large-eddy simulations and turbulent combustion model analysis of a dual-mode scramjet combustor}},
year = {2015}
}

P. C. Ma, Y. Lv, and M. Ihme, “Discontinuous Galerkin scheme for turbulent flow simulations,” Annual Research Briefs, pp. 225-236, 2015.
[Bibtex]

@article{MA_LV_IHME_ARB2015,
author = {Ma, P. C. and Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {225-236},
title = {{Discontinuous Galerkin scheme for turbulent flow simulations}},
year = {2015}
}

2014

Y. Lv and M. Ihme, “Taming nonlinear instability for discontinuous Galerkin scheme with artificial viscosity,” Annual Research Briefs, pp. 109-122, 2014.
[Bibtex]

@article{LV_IHME_ARB2014,
author = {Lv, Y. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {109-122},
title = {{Taming nonlinear instability for discontinuous Galerkin scheme with artificial viscosity}},
year = {2014}
}

B. Franzelli, A. Cuoci, A. Stagni, C. Saggese, A. Frassoldati, T. Faravelli, and M. Ihme, “Accounting for strain-rate effect in soot modeling of turbulent flames,” Annual Research Briefs, pp. 219-234, 2014.
[Bibtex]

@article{FRANZELLI_CUOCI_STAGNI_SAGGESE_FRASSOLDATI_FARAVELLI_IHME_ARB2014,
author = {Franzelli, B. and Cuoci, A. and Stagni, A. and Saggese, C. and Frassoldati, A. and Faravelli, T. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {219-234},
title = {{Accounting for strain-rate effect in soot modeling of turbulent flames}},
year = {2014}
}

J. Kim, J. O’Brien, and M. Ihme, “Linear analysis of engine core noise using a hybrid modeling approach,” Annual Research Briefs, pp. 235-248, 2014.
[Bibtex]

@article{KIM_OBRIEN_IHME_ARB2014,
author = {Kim, J. and O'Brien, J. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {235-248},
title = {{Linear analysis of engine core noise using a hybrid modeling approach}},
year = {2014}
}

Y. C. See, H. Wu, Q. Wang, and M. Ihme, “An adaptive combustion framework,” Annual Research Briefs, pp. 249-263, 2014.
[Bibtex]

@article{SEE_WU_WANG_IHME_ARB2014,
author = {See, Y. C. and Wu, H. and Wang, Q. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {249-263},
title = {{An adaptive combustion framework}},
year = {2014}
}

B. Franzelli, A. Vie, and M. Ihme, “Characterizing the regimes of spray flame-vortex interactions: A spray spectral diagram for extinction,” Annual Research Briefs, pp. 265-276, 2014.
[Bibtex]

@article{FRANZELLI_VIE_IHME_ARB2014a,
author = {Franzelli, B. and Vie, A. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {265-276},
title = {{Characterizing the regimes of spray flame-vortex interactions: A spray spectral diagram for extinction}},
year = {2014}
}

B. Franzelli, A. Vie, and M. Ihme, “A spray-flamelet formulation using an effective composition-space variable,” Annual Research Briefs, pp. 277-287, 2014.
[Bibtex]

@article{FRANZELLI_VIE_IHME_ARB2014b,
author = {Franzelli, B. and Vie, A. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {277-287},
title = {{A spray-flamelet formulation using an effective composition-space variable}},
year = {2014}
}

P. C. Ma, L. Bravo, and M. Ihme, “Supercritical and transcritical real-fluid mixing in diesel engine applications.” 2014, pp. 99-108.
[Bibtex]

@inproceedings{MA_BRAVO_IHME_CTRSP2014,
author = {Ma, P. C. and Bravo, L. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {99-108},
title = {{Supercritical and transcritical real-fluid mixing in diesel engine applications}},
year = {2014}
}

J. O’Brien, J. Urzay, A. Y. Poludnenko, P. E. Hamlington, and M. Ihme, “Counter-gradient subgrid-scale transport and energy backscatter in turbulent deflagrations.” 2014, pp. 147-157.
[Bibtex]

@inproceedings{OBRIEN_URZAY_POLUDNENKO_HAMLINGTON_IHME_CTRSP2014,
author = {O’Brien, J. and Urzay, J. and Poludnenko, A. Y. and Hamlington, P. E. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {147-157},
title = {{Counter-gradient subgrid-scale transport and energy backscatter in turbulent deflagrations}},
year = {2014}
}

C. A. Z. Towery, A. Y. Poludnenko, J. Urzay, M. Ihme, and P. E. Hamlington, “Spectral energy dynamics in premixed flames.” 2014, pp. 159-168.
[Bibtex]

@inproceedings{TOWERY_POLUDNENKO_URZAY_IHME_HAMLINGTON_CTRSP2014,
author = {Towery, C. A. Z. and Poludnenko, A. Y. and Urzay, J. and Ihme, M. and Hamlington, P. E.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {159-168},
title = {{Spectral energy dynamics in premixed flames}},
year = {2014}
}

C. F. Silva, W. Polifke, J. O’Brien, and M. Ihme, “Towards concurrent identification of flame dynamics and combustion noise of enclosed flames.” 2014, pp. 179-188.
[Bibtex]

@inproceedings{SILVA_POLIFKE_OBRIEN_IHME_CTRSP2014,
author = {Silva, C. F. and Polifke, W. and O'Brien, J. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {179-188},
title = {{Towards concurrent identification of flame dynamics and combustion noise of enclosed flames}},
year = {2014}
}

L. Magri, Y. C. See, M. Ihme, and M. P. Juniper, “Multiple-scale adjoint sensitivity analysis of hydrodynamic/thermo-acoustic instability in turbulent combustion chambers.” 2014, pp. 199-208.
[Bibtex]

@inproceedings{MAGRI_SEE_IHME_JUNIPER_CTRSP2014,
author = {Magri, L. and See, Y. C. and Ihme, M. and Juniper, M. P.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {199-208},
title = {{Multiple-scale adjoint sensitivity analysis of hydrodynamic/thermo-acoustic instability in turbulent combustion chambers}},
year = {2014}
}

2013

J. -P. Hickey and M. Ihme, “Supercritical mixing and combustion in rocket propulsion,” Annual Research Briefs, pp. 21-36, 2013.
[Bibtex]

@article{HICKEY_IHME_ARB2013,
author = {Hickey, J.-P. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {21-36},
title = {{Supercritical mixing and combustion in rocket propulsion}},
year = {2013}
}

A. Vie, B. Franzelli, B. Fiorina, N. Darabiha, and M. Ihme, “On the description of the spray flame structure in a mixture fraction space,” Annual Research Briefs, pp. 93-106, 2013.
[Bibtex]

@article{VIE_FRANZELLI_FIORINA_DARABIHA_IHME_ARB2013,
author = {Vie, A. and Franzelli, B. and Fiorina, B. and Darabiha, N. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {93-106},
title = {{On the description of the spray flame structure in a mixture fraction space}},
year = {2013}
}

J. Urzay, J. O’Brien, M. Ihme, P. Moin, and A. Saghafian, “Backscatter of turbulent kinetic energy in chemically-reacting compressible flows,” Annual Research Briefs, pp. 123-139, 2013.
[Bibtex]

@article{URZAY_OBRIEN_IHME_MOIN_SAGHAFIAN_ARB2013,
author = {Urzay, J. and O'Brien, J. and Ihme, M. and Moin, P. and Saghafian, A.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {123-139},
title = {{Backscatter of turbulent kinetic energy in chemically-reacting compressible flows}},
year = {2013}
}

D. Kah, T. Ewan, and M. Ihme, “Study of thermal boundary layer in pulsatile flows,” Annual Research Briefs, pp. 231-246, 2013.
[Bibtex]

@article{KAH_EWAN_IHME_ARB2013,
author = {Kah, D. and Ewan, T. and Ihme, M.},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {231-246},
title = {{Study of thermal boundary layer in pulsatile flows}},
year = {2013}
}

2012

W. L. Chan, Y. C. See, M. Ihme, H. Kolla, and J. H. Chen, “Budget analysis and model-assessment of the flamelet-formulation: Application to a reacting jet-in-cross-flow.” 2012, pp. 397-407.
[Bibtex]

@inproceedings{chan2012budget,
author = {Chan, W. L. and See, Y. C. and Ihme, M. and Kolla, H. and Chen, J. H.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Chan et al/Chan et al. - 2012 - Budget analysis and model-assessment of the flamelet-formulation Application to a reacting jet-in-cross-flow.pdf:pdf},
pages = {397-407},
title = {{Budget analysis and model-assessment of the flamelet-formulation: Application to a reacting jet-in-cross-flow}},
year = {2012}
}

2006

M. Ihme, M. Kaltenbacher, and H. Pitsch, “Numerical simulation of flow- and combustion-induced sound using a hybrid LES/CAA approach,” Proceedings of the Summer Program, pp. 497-510, 2006.
[Bibtex]

@article{IHME_KALTENBACHER_PITSCH_CTR_SUMM_PROG06,
author = {Ihme, M. and Kaltenbacher, M. and Pitsch, H.},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Ihme, Kaltenbacher, Pitsch/Ihme, Kaltenbacher, Pitsch - 2006 - Numerical simulation of flow- and combustion-induced sound using a hybrid \{LESCAA\} approach.pdf:pdf},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
pages = {497--510},
title = {{Numerical simulation of flow- and combustion-induced sound using a hybrid LES/CAA approach}},
year = {2006}
}

M. Ihme, A. L. Marsden, and H. Pitsch, “On the optimization of artificial neural networks for application to the approximation of chemical systems,” Annual Research Briefs, pp. 105-118, 2006.
[Bibtex]

@article{Ihme2006,
author = {Ihme, M. and Marsden, A. L. and Pitsch, H.},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Ihme, Marsden, Pitsch/Ihme, Marsden, Pitsch - 2006 - On the optimization of artificial neural networks for application to the approximation of chemical system.pdf:pdf},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
pages = {105--118},
title = {{On the optimization of artificial neural networks for application to the approximation of chemical systems}},
url = {http://www-personal.umich.edu/~mihme/Site/Publications\_files/mihmeMarsdenPitschARB2006.pdf},
year = {2006}
}

L. Cutrone, M. Ihme, and M. Herrmann, “Modeling of high-pressure mixing and combustion in liquid rocket injectors.” 2006, pp. 269-281.
[Bibtex]

@inproceedings{cutrone2006modeling,
author = {Cutrone, L. and Ihme, M. and Herrmann, M.},
institution = {{Center for Turbulence Research}},
journal = {{Proceedings of the Summer Program}},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Cutrone, Ihme, Herrmann/Cutrone, Ihme, Herrmann - 2006 - Modeling of high-pressure mixing and combustion in liquid rocket injectors.pdf:pdf},
pages = {269-281},
title = {{Modeling of high-pressure mixing and combustion in liquid rocket injectors}},
year = {2006}
}

2005

M. Ihme, D. J. Bodony, and H. Pitsch, “Towards the prediction of combustion-generated noise in non-premixed turbulent flames using large-eddy simulation,” Annual research briefs, pp. 311-323, 2005.
[Bibtex]

@article{IHME_ARB05,
author = {Ihme, M. and Bodony, D. J. and Pitsch, H.},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Ihme, Bodony, Pitsch/Ihme, Bodony, Pitsch - 2005 - Towards the prediction of combustion-generated noise in non-premixed turbulent flames using large-eddy sim.pdf:pdf},
institution = {Center for Turbulence Research},
journal = {Annual Research Briefs},
pages = {311--323},
title = {{Towards the prediction of combustion-generated noise in non-premixed turbulent flames using large-eddy simulation}},
year = {2005}
}

2003

S. Fedotov, M. Ihme, and H. Pitsch, “Stochastic mixing model with power law decay of variance,” Annual Research Briefs, pp. 285-296, 2003.
[Bibtex]

@article{Fedotov2005a,
author = {Fedotov, S. and Ihme, M. and Pitsch, H.},
file = {:Users/haowu80s/Documents/Mendeley Desktop/Fedotov, Ihme, Pitsch/Fedotov, Ihme, Pitsch - 2003 - Stochastic mixing model with power law decay of variance.pdf:pdf},
issn = {1539-3755},
institution = {{Center for Turbulence Research}},
journal = {{Annual Research Briefs}},
month = jan,
pages = {285--296},
pmid = {15697725},
title = {{Stochastic mixing model with power law decay of variance}},
url = {http://www.ncbi.nlm.nih.gov/pubmed/15697725 http://pre.aps.org/abstract/PRE/v71/i1/e016310},
year = {2003}
}

1. T. Echekki, A. Farooq, M. Ihme, and S. M. Sarathy, “Machine Learning for Combustion Chemistry.” Machine Learning and its Application to Reacting Flows, N. Swaminathan and A. Parente, (Eds.), Springer, ISBN 978-3-031-16247-3, 2023.
2. Ihme, M., “Construction of Optimal Artificial Neural Network Architectures for Application to Chemical Systems: Comparison of Generalized Pattern Search Method and Evolutionary Algorithm.” Artificial Neural Networks, InTech Open Access Publisher, ISBN 978-953-307-243-2, 2011.
3. Ihme, M., “Topological Optimization of Artificial Neural Networks Using a Pattern Search Method.” Neural Computation and Particle Accelerators: Research, Technology and Applications (Neuroscience Research Progress), E. Chabot and H. D’arras, (Eds.), Nova Science Publishers, ISBN 978-160-741-280-9, 2010.