Citations (33)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (1)
A. A. Tropina, M. N. Shneider & R. B. Miles. (2016) Ignition by Short Duration, Nonequilibrium Plasma: Basic Concepts and Applications in Internal Combustion Engines. Combustion Science and Technology 188:6, pages 831-852.
Read now
Read now
Articles from other publishers (32)
V.D. Kobtsev, S.A. Kostritsa, A.V. Pelevkin, V.V. Smirnov, N.S. Titova, S.A. Torokhov & S.Yu. Volkov. (2022) Photodissociation as a method to increase the ignition volume. Combustion and Flame 244, pages 112222.
Crossref
Crossref
Vitaly D. Kobtsev, Sergey A. Kostritsa, Alexey V. Pelevkin, Valery V. Smirnov, Alexander M. Starik, Nataliya S. Titova, Sergey A. Torokhov, Konstantin A. Vereshchagin & Sergey Y. Volkov. (2019) Ignition and early stage combustion of H2–O2 mixture upon the photodissociation of O2 molecules by UV laser radiation: Experimental and numerical study. Combustion and Flame 200, pages 32-43.
Crossref
Crossref
A. M. Starik, V. E. Kozlov & N. S. Titova. (2017) Numerical Study of the Influence of the Photochemical Activation of Oxygen Molecules on Homogeneous Charge Compression Ignition Performance. Energy & Fuels 31:8, pages 8608-8618.
Crossref
Crossref
L. V. Bezgin, V. I. Kopchenov, A. M. Starik & N. S. Titova. (2017) Numerical analysis of combustion of a hydrogen–air mixture in an advanced ramjet combustor model during activation of O2 molecules by resonant laser radiation. Combustion, Explosion, and Shock Waves 53:3, pages 249-261.
Crossref
Crossref
A.M. Starik, A.V. Pelevkin & N.S. Titova. (2017) Modeling study of the acceleration of ignition in ethane–air and natural gas–air mixtures via photochemical excitation of oxygen molecules. Combustion and Flame 176, pages 81-93.
Crossref
Crossref
N A Popov. (2016) Kinetics of plasma-assisted combustion: effect of non-equilibrium excitation on the ignition and oxidation of combustible mixtures. Plasma Sources Science and Technology 25:4, pages 043002.
Crossref
Crossref
A. M. Starik, P. S. Kuleshov, A. S. Sharipov & N. S. Titova. (2014)
Kinetics of Ignition and Combustion in the Al–CH
4
–O
2
System
. Energy & Fuels 28:10, pages 6579-6588.
Crossref
Crossref
Hirohide FURUTANI & Eiichi TAKAHASHI. (2014) Ignition with Laserレーザーによる点火・着火技術. The Review of Laser Engineering 42:5, pages 378.
Crossref
Crossref
Mohamed H. Morsy. (2012) Review and recent developments of laser ignition for internal combustion engines applications. Renewable and Sustainable Energy Reviews 16:7, pages 4849-4875.
Crossref
Crossref
L V Bezgin, V I Kopchenov, P S Kuleshov, N S Titova & A M Starik. (2012)
Numerical study of combustion initiation in a supersonic flow of H
2
–air mixture by resonance laser radiation
. Journal of Physics D: Applied Physics 45:8, pages 085401.
Crossref
Crossref
Zhongmin Xiong & Mark J. Kushner. (2011) Photo-triggering and secondary electron produced ionization in electric discharge ArF* excimer lasers. Journal of Applied Physics 110:8.
Crossref
Crossref
Tran X. Phuoc. 2010. Handbook of Combustion. Handbook of Combustion.
A M Starik, P S Kuleshov & N S Titova. (2009) Comprehensive analysis of combustion initiation in methane–air mixture by resonance laser radiation. Journal of Physics D: Applied Physics 42:17, pages 175503.
Crossref
Crossref
A. M. Starik, P. S. Kuleshov & N. S. Titova. (2009) Laser-initiated ignition of hydrogen-air mixtures. Technical Physics 54:3, pages 354-364.
Crossref
Crossref
V. V. Smirnov, A. M. Starik, O. M. Stel’makh, N. S. Titova, D. N. Kozlov & V. I. Fabelinskii. (2009) Intensification of hydrogen-oxygen mixture combustion in subsonic flow due to excitation of O2 molecules to the a 1Δ g electronic state in electric discharge. Doklady Physics 54:2, pages 67-71.
Crossref
Crossref
I.N. Kosarev, S.M. Starikovskaia & A.Y. Starikovskii. 2009. Shock Waves. Shock Waves
769
774
.
Igor V. Adamovich, Walter R. Lempert, J. William Rich, Yurii G. Utkin & Munetake Nishihara. (2008) Repetitively Pulsed Nonequilibrium Plasmas for Magnetohydrodynamic Flow Control and Plasma-Assisted Combustion. Journal of Propulsion and Power 24:6, pages 1198-1215.
Crossref
Crossref
Hirohide Furutani & Takeshi Saito. (2008) Ignition with laser break-down. Ignition with laser break-down.
N. A. Popov. (2007) The effect of nonequilibrium excitation on the ignition of hydrogen-oxygen mixtures. High Temperature 45:2, pages 261-279.
Crossref
Crossref
Guofeng Lou, Ainan Bao, Munetake Nishihara, Saurabh Keshav, Yurii G. Utkin, J. William Rich, Walter R. Lempert & Igor V. Adamovich. (2007) Ignition of premixed hydrocarbon–air flows by repetitively pulsed, nanosecond pulse duration plasma. Proceedings of the Combustion Institute 31:2, pages 3327-3334.
Crossref
Crossref
A. Bao, Y. Utkin, S. Keshav, Mruthunjaya Uddi, Kraig Frederickson, Naibo Jiang, Walter Lempert & Igor Adamovich. (2006) Ignition of Gaseous and Liquid Hydrocarbon Fuels by Repetitively Pulsed, Nanosecond Pulse Duration Plasma. Ignition of Gaseous and Liquid Hydrocarbon Fuels by Repetitively Pulsed, Nanosecond Pulse Duration Plasma.
Tran X. Phuoc. (2006) Laser-induced spark ignition fundamental and applications. Optics and Lasers in Engineering 44:5, pages 351-397.
Crossref
Crossref
Guofeng Lou, Ainan Bao, Munetake Nishihara, Saurabh Keshav, Yurii Utkin & Igor Adamovich. (2006) Ignition in Premixed Hydrocarbon-Air Flows by Repetitively Pulsed, Nanosecond Pulse Duration Plasma. Ignition in Premixed Hydrocarbon-Air Flows by Repetitively Pulsed, Nanosecond Pulse Duration Plasma.
Naveen Chintala, Rod Meyer, Adam Hicks, Ainan Bao, J. William Rich, Walter R. Lempert & Igor V. Adamovich. (2005) Nonthermal Ignition of Premixed Hydrocarbon-Air Flows by Nonequilibrium Radio Frequency Plasma. Journal of Propulsion and Power 21:4, pages 583-590.
Crossref
Crossref
Hideyuki Horisawa, Shuhei Tsuchiya, Junya Negishi, Yoko Okawa & Itsuro Kimura. (2004) Effects of a focused laser pulse for combustion augmentation characteristics in supersonic airstreams. Vacuum 73:3-4, pages 439-447.
Crossref
Crossref
Shuhei Tsuchiya, Jyunya Negishi, Yoko Ohkawa, Hideyuki Horisawa & Itsuro Kimura. (2003) Ignition Characteristics of Laser-Induced Plasmas in Supersonic Combustion. Ignition Characteristics of Laser-Induced Plasmas in Supersonic Combustion.
Charles Suchomel & David Van Wie. (2003) Perspectives on Cataloging Plasma Technologies Applied to Aeronautical Sciences. Perspectives on Cataloging Plasma Technologies Applied to Aeronautical Sciences.
Rodney Meyer, B McEldowney, S Wehe, Joseph Rich & Igor Adamovich. (2003) Effect of Radical Production by a Transverse RF Discharge on Combustion in High-Speed Flows. Effect of Radical Production by a Transverse RF Discharge on Combustion in High-Speed Flows.
Peter Palm, Elke Ploenjes, Rodney Meyer & Igor Adamovich. (2003) Radical Production in Methane-Containing Supersonic Flows Using a Transverse RF Discharge. Radical Production in Methane-Containing Supersonic Flows Using a Transverse RF Discharge.
Tae-Woo Lee, Vivek Jain & Stuart Kozola. (2001) Measurements of minimum ignition energy by using laser sparks for hydrocarbon fuels in air: propane, dodecane, and jet-A fuel. Combustion and Flame 125:4, pages 1320-1328.
Crossref
Crossref
Tran X. Phuoc & Fredrick P. White. (1999) Laser-induced spark ignition of CH4/air mixtures. Combustion and Flame 119:3, pages 203-216.
Crossref
Crossref
I. G. Namyatov & V. I. Babushok. (1996) Critical conditions for explosive decomposition of ozone under UV light of constant intensity. Combustion, Explosion, and Shock Waves 32:3, pages 270-275.
Crossref
Crossref