Shock-Tube Study of the Ignition of Gas-Phase 1,3,5-Trimethylbenzene in AirFAN RAO; BIN LI; PING LI et al.Energy & fuels. 2014, Vol 28, Num 11-12, pp 6707-6713, issn 0887-0624, 7 p.Article

Démarrage de choc des buses planes à grand angle d'ouvertureBRITAN, A. B; VASIL'EV, E. I.Izvestiâ Akademii nauk SSSR. Mehanika židkosti i gaza. 1984, Num 4, pp 100-106, issn 0568-5281Article

Shock-tube determination of the rate coefficient for the reaction CN+HCN→C₂N₂+HSZEKELY, A; HANSON, R. K; BOWMAN, C. T et al.International journal of chemical kinetics. 1983, Vol 15, Num 11, pp 1237-1241, issn 0538-8066Article

A shock tube ignition delay study of conventional diesel fuel and hydroprocessed renewable diesel fuel from algal oilGOWDAGIRI, Sandeep; WEIJING WANG; OEHLSCHLAEGER, Matthew A et al.Fuel (Guildford). 2014, Vol 128, pp 21-29, issn 0016-2361, 9 p.Article

Autoignition of kerosene (Jet-A)/air mixtures behind reflected shock wavesZHUKOV, Victor P; SECHENOV, Vladislav A; STARIKOVSKIY, Andrey Yu et al.Fuel (Guildford). 2014, Vol 126, pp 169-176, issn 0016-2361, 8 p.Article

A comparative study of the chemical kinetics of methyl and ethyl propanoateFAROOQ, A; DAVIDSON, D. F; HANSON, R. K et al.Fuel (Guildford). 2014, Vol 134, pp 26-38, issn 0016-2361, 13 p.Article

Shock tube measurements of branched alkane ignition delay timesSIJIE LI; CAMPOS, Ashley; DAVIDSON, David F et al.Fuel (Guildford). 2014, Vol 118, pp 398-405, issn 0016-2361, 8 p.Article

Pyrolysis study of conventional and alternative fuels behind reflected shock wavesSIJIE LI; YANGYE ZHU; DAVIDSON, David F et al.Fuel (Guildford). 2014, Vol 132, pp 170-177, issn 0016-2361, 8 p.Article

Research on the Dynamic Calibration of Thermocouple and Temperature Excitation Signal Generation Method Based on Shock-Tube TheoryZHAOXIN YANG; XIAOFENG MENG.Journal of engineering for gas turbines and power. 2014, Vol 136, Num 7, issn 0742-4795, 071602.1-071602.10Article

Comparison of various numerical techniques in gas dynamicsSHIGEFUJI, H; MATSUDA, T.Memoirs of the Faculty of Engineering, Kyoto University. 1984, Vol 46, Num 4, pp 7-23, issn 0023-6063Article

Shock-Tube Experiments and Kinetic Modeling of 2-Methylfuran Ignition at Elevated PressureLIANGJIE WEI; CHENGLONG TANG; XINGJIA MAN et al.Energy & fuels. 2013, Vol 27, Num NOVDEC, pp 7809-7816, issn 0887-0624, 8 p.Conference Paper

Assessment of H₂-CH₄-air mixtures oxidation kinetic models used in combustionMEVEL, R; JAVOY, S; COUDORO, K et al.International journal of hydrogen energy. 2012, Vol 37, Num 1, pp 698-714, issn 0360-3199, 17 p.Article

Determination of the rate constant for the reaction NH₃+O→NH₂+OHFUJII, N; SATO, H; FUJIMOTO, S et al.Bulletin of the Chemical Society of Japan. 1984, Vol 57, Num 1, pp 277-278, issn 0009-2673Article

A diaphragmless shock tubeTAKANO, Y; AKAMATSU, T.Journal of physics. E. Scientific instruments. 1984, Vol 17, Num 8, pp 644-646, issn 0022-3735Article

Shock tube study of the thermal decomposition of cyanogenSZEKELY, A; HANSON, R. K; BOWMAN, C. T et al.The Journal of chemical physics. 1984, Vol 80, Num 10, pp 4982-4985, issn 0021-9606Article

Quelques questions de méthodologie d'une expérience physique sur un tube à onde de choc avec une tuyèreZABELINSKIJ, I. E; LOSEV, S. A; SHATALOV, O. P et al.Inženerno-fizičeskij žurnal. 1985, Vol 48, Num 3, pp 357-364, issn 0021-0285Article

Tube à choc avec chauffage à trois chambres, pour l'étude d'un plasma dense à haute enthalpieKOVALENKO, I. S; KUCHERENKO, V. I; SECHENOV, V. A et al.Prikladnaâ mehanika i tehničeskaâ fizika. 1985, Num 2, pp 134-136, issn 0869-5032Article

Formation of a weak shock wave structurePIECHOR, K.Archives of Mechanics. 1984, Vol 36, Num 1, pp 3-19, issn 0373-2029Article

SOURCE DE LUMIERE A TUBE DE CHOC ELECTROMAGNETIQUEANTONOV AS; BALAGUROV A YA; KALACHEV BV et al.1976; TEPLOFIZ. VYS. TEMPER.; S.S.S.R.; DA. 1976; VOL. 14; NO 5; PP. 1124-1126; BIBL. 1 REF.Article

THE EXPANSION WAVE BEHAVIOUR IN A SUDDENLY VENTED TUBEHEINTJES K; SKEWS BW.1980; S. AFR. MECH. ENGR; ZAF; DA. 1980; VOL. 30; NO 2; PP. 56-60; ABS. AFR.; BIBL. 3 REF.Article

A shock-tube ignition study of a Utah coalDAVIS, W. P; BAER, A. D; RYAN, N. W et al.Combustion and flame. 1984, Vol 58, Num 3, pp 201-215, issn 0010-2180Article

Investigations of transonic Ludwieg tubes. II: Starting process in the case of downstream valveKAGE, K; MATSUO, K; KAWAGOE, S et al.Bulletin of the JSME. 1983, Vol 26, Num 222, pp 2136-2141, issn 0021-3764Article

Shock-Tube Measurements and Kinetic Modeling Study of Methyl Propanoate IgnitionZIHANG ZHANG; ERJIANG HU; LUN PAN et al.Energy & fuels. 2014, Vol 28, Num 11-12, pp 7194-7202, issn 0887-0624, 9 p.Article

Investigations of transonic Ludwieg tubes. III: Effects of plenum exhaust system on starting process of tunnel test sectionKAGE, K; MATSUO, K; KAWAGOE, S et al.Bulletin of the JSME. 1985, Vol 28, Num 243, pp 1868-1873, issn 0021-3764Article

Thermoacoustic heating at the closed end of an oscillating gas columnROTT, N.Journal of Fluid Mechanics. 1984, Vol 145, pp 1-9, issn 0022-1120Article