Citations (78)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (10)
Thwe Thwe Aung, Satoshi Kadowaki & Ryuji Nagaishi. (2023) The effects of unburned-gas temperature and pressure on the unstable behavior of cellular-flame fronts generated by intrinsic instability in hydrogen-air lean premixed flames under adiabatic and non-adiabatic conditions: numerical simulation based on the detailed chemical reaction model. Journal of Nuclear Science and Technology 60:6, pages 731-742.
Read now
Read now
Liyan Ni, Xin Xin, Yuping Wang & Dunyou Wang. (2020) Quantum dynamics study of isotope effects of the OD/OH + CH3 reactions. Molecular Physics 118:15.
Read now
Read now
Zhi X. Chen, N. Anh Khoa Doan, Shaohong Ruan, Ivan Langella & N. Swaminathan. (2018) A priori investigation of subgrid correlation of mixture fraction and progress variable in partially premixed flames. Combustion Theory and Modelling 22:5, pages 862-882.
Read now
Read now
Shaohong Ruan, Nedunchezhian Swaminathan & Oliver Darbyshire. (2014) Modelling of turbulent lifted jet flames using flamelets: a priori assessment and a posteriori validation. Combustion Theory and Modelling 18:2, pages 295-329.
Read now
Read now
S. Ruan, N. Swaminathan & Y. Mizobuchi. (2014) INVESTIGATION OF FLAME STRETCH IN TURBULENT LIFTED JET FLAME. Combustion Science and Technology 186:3, pages 243-272.
Read now
Read now
SeanP. Malkeson, S. Ruan, Nilanjan Chakraborty & N. Swaminathan. (2013) Statistics of Reaction Progress Variable and Mixture Fraction Gradients from DNS of Turbulent Partially Premixed Flames. Combustion Science and Technology 185:9, pages 1329-1359.
Read now
Read now
O.R. Darbyshire & N. Swaminathan. (2012) A Presumed Joint pdf Model for Turbulent Combustion with Varying Equivalence Ratio. Combustion Science and Technology 184:12, pages 2036-2067.
Read now
Read now
TATSUYA HASEGAWA, ATSUHIRO ARAL, SATOSHI KADOWAKI & SHIGEKI YAMAGUCHI. (1992) Autoignition of a Turbulent Premixed Gas. Combustion Science and Technology 84:1-6, pages 1-13.
Read now
Read now
DAVIDW. MIKOLAITIS. (1987) An Asymptotic Analysis of the Induction Phases of Hydrogen-Air Detonations. Combustion Science and Technology 52:4-6, pages 293-323.
Read now
Read now
Charles K. Westbrook & William J. Pitz. (1983) Effects of Propane on Ignition of Methane –Ethane – Air Mixtures. Combustion Science and Technology 33:5-6, pages 315-319.
Read now
Read now
Articles from other publishers (68)
Nanaka Iwabayashi, Kei Matsushita, Shogo Okada & Toshihiko Hiejima. (2024) Shock-induced supersonic combustion with a streamwise vortex. Physics of Fluids 36:3.
Crossref
Crossref
Xinxin Wang, Ralf Deiterding, Jianhan Liang, Xiaodong Cai & Wandong Zhao. (2022) A second-order-accurate immersed boundary ghost-cell method with hybrid reconstruction for compressible flow simulations. Computers & Fluids 237, pages 105314.
Crossref
Crossref
Toshihiko Hiejima & Kaito Nishimura. (2021) Effects of fuel injection speed on supersonic combustion using separation-resistant struts. AIP Advances 11:6.
Crossref
Crossref
Ian J. Shaw, Jordan A.C. Kildare, Michael J. Evans, Alfonso Chinnici, Ciaran A.M. Sparks, Shekh N.H. Rubaiyat, Rey C. Chin & Paul R. Medwell. 2021. Direct Numerical Simulations - An Introduction and Applications. Direct Numerical Simulations - An Introduction and Applications.
Taisei FURUYAMA, Thwe Thwe Aung, Toshiyuki KATSUMI, Hideaki KOBAYASHI & Satoshi KADOWAKI. (2021) The effects of steam addition on the unstable behavior of hydrogen-air lean premixed flames under the adiabatic and non-adiabatic conditions断熱・非断熱条件下における水素-空気希薄予混合火炎の不安定挙動に及ぼす水蒸気添加の効果. Transactions of the JSME (in Japanese) 87:898, pages 21-00107-21-00107.
Crossref
Crossref
Toshihiko Hiejima & Teppei Oda. (2020) Shockwave effects on supersonic combustion using hypermixer struts. Physics of Fluids 32:1.
Crossref
Crossref
M. Monge-Palacios & Homayoon Rafatijo. (2017)
On the role of the termolecular reactions 2O
2
+ H
2
→ 2HO
2
and 2O
2
+ H
2
→ H + HO
2
+ O
2
in formation of the first radicals in hydrogen combustion: ab initio predictions of energy barriers
. Physical Chemistry Chemical Physics 19:3, pages 2175-2185.
Crossref
Crossref
Toshihiko Hiejima. (2016) Effects of streamwise vortex breakdown on supersonic combustion. Physical Review E 93:4.
Crossref
Crossref
Irvin Glassman, Richard A. Yetter & Nick G. Glumac. 2015. Combustion. Combustion
71
146
.
I. Ahmed & N. Swaminathan. (2014) Simulation of turbulent explosion of hydrogen–air mixtures. International Journal of Hydrogen Energy 39:17, pages 9562-9572.
Crossref
Crossref
S. Ruan, N. Swaminathan, K.N.C. Bray, Y. Mizobuchi & T. Takeno. (2012) Scalar and its dissipation in the near field of turbulent lifted jet flame. Combustion and Flame 159:2, pages 591-608.
Crossref
Crossref
Boris E. Gelfand, Mikhail V. Silnikov, Sergey P. Medvedev & Sergey V. KhomikBoris E. Gelfand, Mikhail V. Silnikov, Sergey P. Medvedev & Sergey V. Khomik. 2012. Thermo-Gas Dynamics of Hydrogen Combustion and Explosion. Thermo-Gas Dynamics of Hydrogen Combustion and Explosion
165
195
.
Boris E. Gelfand, Mikhail V. Silnikov, Sergey P. Medvedev & Sergey V. KhomikBoris E. Gelfand, Mikhail V. Silnikov, Sergey P. Medvedev & Sergey V. Khomik. 2012. Thermo-Gas Dynamics of Hydrogen Combustion and Explosion. Thermo-Gas Dynamics of Hydrogen Combustion and Explosion
121
163
.
Satyam Agrawalla & Adri C. T. van Duin. (2011) Development and Application of a ReaxFF Reactive Force Field for Hydrogen Combustion. The Journal of Physical Chemistry A 115:6, pages 960-972.
Crossref
Crossref
Irvin Glassman & Richard A. Yetter. 2008. Combustion. Combustion
75
145
.
X. Wang, D. Ye & F. Gu. (2008) Research on the thermal ionization model of detonation products by quantum mechanics methods. Combustion, Explosion, and Shock Waves 44:1, pages 101-109.
Crossref
Crossref
David A. Blank. Hydrogen Lean-Combustion Studies in a Four-Stroke DI Radical-Ignition Diesel Engine with EGR. Hydrogen Lean-Combustion Studies in a Four-Stroke DI Radical-Ignition Diesel Engine with EGR.
David A. Blank. Radical Ignition Combustion Studies with Hydrogen in a Two-Stroke DI-HCRI Diesel Engine. Radical Ignition Combustion Studies with Hydrogen in a Two-Stroke DI-HCRI Diesel Engine.
Ashraf Al-Khateeb, Joseph Powers & Samuel Paolucci. (2007) Verified Computations of Laminar Premixed Flames. Verified Computations of Laminar Premixed Flames.
Douglas W. Stamps, Scott E. Slezak & Sheldon R. Tieszen. (2006) Observations of the cellular structure of fuel–air detonations. Combustion and Flame 144:1-2, pages 289-298.
Crossref
Crossref
Joseph M. Powers & Samuel Paolucci. (2005) Accurate Spatial Resolution Estimates for Reactive Supersonic Flow with Detailed Chemistry. AIAA Journal 43:5, pages 1088-1099.
Crossref
Crossref
Joseph Powers & Samuel Paolucci. (2005) Accurate Estimates of Fine Scale Reaction Zone Thicknesses in Gas Phase Detonations. Accurate Estimates of Fine Scale Reaction Zone Thicknesses in Gas Phase Detonations.
Charles K. Westbrook, Yasuhiro Mizobuchi, Thierry J. Poinsot, Phillip J. Smith & Jürgen Warnatz. (2005) Computational combustion. Proceedings of the Combustion Institute 30:1, pages 125-157.
Crossref
Crossref
Yasuhiro Mizobuchi, Junji Shinjo, Satoru Ogawa & Tadao Takeno. (2005) A numerical study on the formation of diffusion flame islands in a turbulent hydrogen jet lifted flame. Proceedings of the Combustion Institute 30:1, pages 611-619.
Crossref
Crossref
David A. Blank & Andrew A. Pouring. Radical Controlled Autoignition at Reduced Compression Ratios in a Hydrogen D.I. Diesel Engine With Piston Micro-Chambers. Radical Controlled Autoignition at Reduced Compression Ratios in a Hydrogen D.I. Diesel Engine With Piston Micro-Chambers.
David A. Blank & Andrew A. Pouring. Frozen Equilibrium and EGR Effects on Radical-Initiated H2 Combustion Kinetics in Low-Compression D.I. Engines Using Pistons with Micro-Chambers. Frozen Equilibrium and EGR Effects on Radical-Initiated H2 Combustion Kinetics in Low-Compression D.I. Engines Using Pistons with Micro-Chambers.
Dennis Lankford & Mori Mani. (2003) Wind Thermo-Chemical Models and Recent Improvements. Wind Thermo-Chemical Models and Recent Improvements.
M. SichelN. A. Tonello, E. S. OranD. A. Jones. (2002)
A two–step kinetics model for numerical simulation of explosions and detonations in H
2
–O
2
mixtures
. Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 458:2017, pages 49-82.
Crossref
Crossref
Yasuhiro Mizobuchi, Shigeru Tachibana, Junji Shinio, Satoru Ogawa & Tadao Takeno. (2002) A numerical analysis of the structure of a turbulent hydrogen jet lifted flame. Proceedings of the Combustion Institute 29:2, pages 2009-2015.
Crossref
Crossref
Yasuhiro Mizobuchi, Shigeru Tachibana, Junji Shinjo, Satoru Ogawa & Ryoji Takaki. 2002. IUTAM Symposium on Turbulent Mixing and Combustion. IUTAM Symposium on Turbulent Mixing and Combustion
337
345
.
Yang Lizhong, Zhou Xiaodong, Wang Qing'an & Fan Weicheng. (2004) The effect of additives on the detonation hazard of some hydrocarbon‐air mixtures. Process Safety Progress 20:4, pages 227-230.
Crossref
Crossref
David A. Blank, Andrew A. Pouring & Jiang Lu. NOx Reduction Kinetics Mechanisms and Radical-Induced Autoignition Potential of EGR in I.C. Engines Using Methanol and Hydrogen. NOx Reduction Kinetics Mechanisms and Radical-Induced Autoignition Potential of EGR in I.C. Engines Using Methanol and Hydrogen.
Yasuhiro Mizobuchi, Ryoji Takaki & Satoru Ogawa. 2001. Smart Control of Turbulent Combustion. Smart Control of Turbulent Combustion
84
95
.
Yasuhiro Mizobuchi & Satoru Ogawa. (2000) Numerical analysis of fractal feature of hydrogen-air jet flame. Numerical analysis of fractal feature of hydrogen-air jet flame.
Charles K. Westbrook. (2000) Chemical kinetics of hydrocarbon ignition in practical combustion systems. Proceedings of the Combustion Institute 28:2, pages 1563-1577.
Crossref
Crossref
Scott G. Sheffer, Luigi Martinelli & Antony Jameson. (1998) An Efficient Multigrid Algorithm for Compressible Reactive Flows. Journal of Computational Physics 144:2, pages 484-516.
Crossref
Crossref
Russell Daines & R. Russell. (1998) Numerical analysis of the effects of combustion in rocket ejectors. Numerical analysis of the effects of combustion in rocket ejectors.
R Shandross. (1998) Net rate analysis method for assessment and improvement of flame models. Combustion and Flame 112:3, pages 371-386.
Crossref
Crossref
Yuichi Matsuo, Yasuhiro Mizobuchi & Satoru Ogawa. (1998) Parallel numerical simulation of compressible free shear layers in a scramjet engine. Parallel numerical simulation of compressible free shear layers in a scramjet engine.
Scott Sheffer, Anthony Jameson, Luigi Martinelli, Scott Sheffer, Anthony Jameson & Luigi Martinelli. (1997) A multigrid method for high speed reactive flows. A multigrid method for high speed reactive flows.
Yasuhiro Mizobuchi, Yasuhiro Mizobuchi, Yuichi Matsuo, Satoru Ogawa, Yuichi Matsuo & Satoru Ogawa. (1997) Numerical estimation of turbulence temperature fluctuation effect on hydrogen-oxygen reaction process. Numerical estimation of turbulence temperature fluctuation effect on hydrogen-oxygen reaction process.
Irvin Glassman. 1996. Combustion. Combustion
57
118
.
Eric Loth. (1995) Vortex formation in a proposed detonation internal combustion engine. Journal of Propulsion and Power 11:3, pages 529-534.
Crossref
Crossref
W. Chinitz, R. Bakos & J. Erdos. (1994) Experimental requirements for the study of shock-induced premixed combustion. Experimental requirements for the study of shock-induced premixed combustion.
G. L. Agafonov & S. M. Frolov. (1994) Computation of the detonation limits in gaseous hydrogen-containing mixtures. Combustion, Explosion, and Shock Waves 30:1, pages 91-100.
Crossref
Crossref
JAMES FORT & DAVID PRATT. (1992) Conical detonation waves - A comparison of theoretical and numericalresults. Conical detonation waves - A comparison of theoretical and numericalresults.
Douglas W. Stamps & Sheldon R. Tieszen. (1991) The influence of initial pressure and temperature on hydrogen-air-diluent detonations. Combustion and Flame 83:3-4, pages 353-364.
Crossref
Crossref
. 1991. Dynamics of Detonations and Explosions: Detonations. Dynamics of Detonations and Explosions: Detonations
19
36
.
JAMES FORT & DAVID PRATT. (1990) Supersonic flameholding by attached oblique shock waves. Supersonic flameholding by attached oblique shock waves.
Jian Shun Shuen & Seokkwan Yoon. (1989) Numerical study of chemically reacting flows using a lower-upper symmetric successive overrelaxation scheme. AIAA Journal 27:12, pages 1752-1760.
Crossref
Crossref
W. Ray Laster & Paul E. Sojka. (1989) Autoignition of H2-air - The effect of NOx addition. Journal of Propulsion and Power 5:4, pages 385-390.
Crossref
Crossref
Y. Wada, H. Kubota, T. Ishiguro & S. Ogawa. 1989. Nonlinear Hyperbolic Equations — Theory, Computation Methods, and Applications. Nonlinear Hyperbolic Equations — Theory, Computation Methods, and Applications
648
659
.
Y. WADA, S. OGAWA, T. ISHIGURO & H. KUBOTA. (1988) A diagonalizing formulation of general real gas-dynamic matrices with a new class of TVD schemes. A diagonalizing formulation of general real gas-dynamic matrices with a new class of TVD schemes.
D. SENSER & B. HITCH. (1988) Reduced H2-O2 mechanisms for use in reacting flow simulation. Reduced H2-O2 mechanisms for use in reacting flow simulation.
JIAN SHUEN & SEOKKWAN YOON. (1988) Numerical study of chemically reacting flows using an LU scheme. Numerical study of chemically reacting flows using an LU scheme.
M. Fischer & H. Eichert. 1988. Hydrogen as an Energy Carrier. Hydrogen as an Energy Carrier
79
92
.
IRVIN GLASSMAN. 1987. Combustion. Combustion
51
106
.
Pak-Yan Liang, Steven Fisher & Y. Mason Chang. (1986) Comprehensive modeling of a liquid rocket combustion chamber. Journal of Propulsion and Power 2:2, pages 97-104.
Crossref
Crossref
. 1986. Dynamics of Explosions. Dynamics of Explosions
263
293
.
M. Fischer. 1986. Hydrogen Systems. Hydrogen Systems
491
506
.
Shinji Kojima. (1986) Numerical calculation of the two-dimensional unsteady laminar flame propagation in a confined H2/Air system. Combustion and Flame 63:1-2, pages 151-163.
Crossref
Crossref
Carl-Jochen Winter & Joachim Nitsch. 1986. Wasserstoff als Energieträger. Wasserstoff als Energieträger
79
92
.
W. R. Laster & P. E. Sojka. Autoignition of H2 + Air: A Theoretical Investigation. Autoignition of H2 + Air: A Theoretical Investigation.
S. I. Kryuchkov, N. N. Kudryavtsev & S. S. Novikov. (1985) Kinetics of chemical transformations in a mixture of CO with N2O under gasdynamic laser conditions. Combustion, Explosion, and Shock Waves 21:3, pages 325-333.
Crossref
Crossref
P.-Y. LIANG, S. FISHER & Y. CHANG. (1985) Comprehensive modeling of a liquid rocket combustion chamber. Comprehensive modeling of a liquid rocket combustion chamber.
. 1985. Dynamics of Shock Waves, Explosions, and Detonations. Dynamics of Shock Waves, Explosions, and Detonations
151
174
.
Charles K. Westbrook & Frederick L. Dryer. (1984) Chemical kinetic modeling of hydrocarbon combustion. Progress in Energy and Combustion Science 10:1, pages 1-57.
Crossref
Crossref
Charles K. Westbrook & Paul A. Urtiew. (1983) Use of chemical kinetics to predict critical parameters of gaseous detonations. Combustion, Explosion, and Shock Waves 19:6, pages 753-766.
Crossref
Crossref