Autoinflammation thermique d'un système à point focal chaudANAN'EV, A. V; ZEMSKIKH, V. I; LEJPUNSKIJ, O. I et al.Fizika goreniâ i vzryva. 1983, Vol 19, Num 4, pp 49-52, issn 0430-6228Article

An adiabatic self-ignition testing apparatusKOTOYORI, T; MARUTA, M.Thermochimica acta. 1983, Vol 67, Num 1, pp 35-44, issn 0040-6031Article

Chemical aspects of the autoignition of hydrocarbon-air mixturesCOX, R. A; COLE, J. A.Combustion and flame. 1985, Vol 60, Num 2, pp 109-123, issn 0010-2180Article

Estimating the Spontaneous Combustion Potential of Coals Using Thermogravimetric AnalysisAVILA, Claudio; TAO WU; LESTER, Edward et al.Energy & fuels. 2014, Vol 28, Num 3-4, pp 1765-1773, issn 0887-0624, 9 p.Article

The auto-ignition temperature of methaneROBINSON, C; SMITH, D. B.Journal of hazardous materials. 1984, Vol 8, Num 3, pp 199-203, issn 0304-3894Article

Progress towards a comprehensive model of hydrocarbon autoignitionKIRSCH, L. J; QUINN, C. P.Journal de chimie physique. 1985, Vol 82, Num 5, pp 459-473, issn 0021-7689Conference Paper

Auto-inflammation en chaîne hétérogène du silane avec l'oxygène et participation de la surface à la ramification des chaînesAZATYAN, V. V; AJVAZYAN, R. G.Kinetika i kataliz. 1986, Vol 27, Num 5, pp 1086-1095, issn 0453-8811Article

On synergistic ignition of 3-carene blended with dardanol with red fuming nitric acid (RFNA) as oxidizerKULKARNI, S. G; PANDA, S. P.Combustion and flame. 1984, Vol 56, Num 2, pp 241-244, issn 0010-2180Article

Spontaneous ignition hazards in stockpiles of cellulosic materials: criteria for safe storageGRAY, B. F; GRIFFITHS, J. F; HASKO, S. M et al.Journal of chemical technology and biotechnology. A: chemical technology. 1984, Vol 34, Num 8, pp 453-463Article

Règles de la décomposition en chaîne ramifiée du trichlorure d'azote au voisinage de la deuxième limite d'auto-inflammationMARKEVICH, E. A.Kinetika i kataliz. 1986, Vol 27, Num 2, pp 275-281, issn 0453-8811Article

Mécanisme de la décomposition en chaîne du trichlorure d'azoteMARKEVICH, E. A.Kinetika i kataliz. 1986, Vol 27, Num 66, pp 1298-1304, issn 0453-8811Article

Calcul approximatif de la température d'auto-inflammation de colles et de laques liquidesSADKEVICH, A. S; GINATOVA, G. N; LOGUNOV, YU. V et al.Lakokrasočnye materialy i ih primenenie. 1983, Num 6, pp 54-56, issn 0130-9013Article

Gas dynamic features of self ignition of non diluted fuel/air mixtures at high pressureBLUMENTHAL, R; FIEWEGER, K; KOMP, K. H et al.Combustion science and technology. 1996, Vol 113-14, pp 137-166, issn 0010-2202Conference Paper

Utilisation du phénomène de flamme froide des carburants pour la détermination d'un indice d'octane = Utilization of a cold flame phenomena of fuels for determination of octan indexANTONIK, S; SCACHE, D; BAILLET, C et al.Informations chimie (Paris). 1984, Num 252-253, pp 149-155, issn 0020-045XArticle

Spontaneous human combustion : the factsSCHUESSLER, R.Fire international. 1996, Num 150, issn 0015-2609, 4, 11-12 [3 p.]Article

Spontaneous combustion of certain Indian coals ― some physico-chemical considerationsREKHA GHOSH.Fuel (Guildford). 1986, Vol 65, Num 8, pp 1042-1046, issn 0016-2361Article

Examination of Low-Temperature Oxidation of Low-Rank Coals, Aiming at Understanding Their Self-Ignition TendencyFUJITSUKA, Hiroyasu; ASHIDA, Ryuichi; KAWASE, Motoaki et al.Energy & fuels. 2014, Vol 28, Num 3-4, pp 2402-2407, issn 0887-0624, 6 p.Article

Improvement of devolatilization and control of low-temperature oxidation by vacuum drying and tar coating treatments of low-rank coalMAHIDIN; OGAKI, Yuji; NAKATA, Yoko et al.Journal of chemical engineering of Japan. 2003, Vol 36, Num 7, pp 769-775, issn 0021-9592, 7 p.Article

The role of the diffusion of oxygen and radiation on the spontaneous combustibility of a coal pile in confined storageHULL, A. S; LANTHIER, J. L; CHEN, Z et al.Combustion and flame. 1997, Vol 110, Num 4, pp 479-493, issn 0010-2180Article

A simplified model of spontaneous combustion in coal stockpilesBROOKS, K; GLASSER, D.Fuel (Guildford). 1986, Vol 65, Num 8, pp 1035-1041, issn 0016-2361Article

Investigation of the spontaneous combustion susceptibility of coal using the pulse flow calorimetric method: 25 years of experienceTARABA, Boleslav; PAVELEK, Zdenek.Fuel (Guildford). 2014, Vol 125, pp 101-105, issn 0016-2361, 5 p.Article

A detailed chemical kinetic study of the effect of molecular structure on autoignition of fuel-air mixturesWESTBROOK, C. K; PITZ, W. J.Preprints - American Chemical Society. Division of Petroleum Chemistry. 1985, Vol 30, Num 2, pp 321-326, issn 0569-3799Article

An experimental approach to selecting chemical inhibitors to retard the spontaneous combustion of coalDEMING WANG; GUOLAN DOU; XIAOXING ZHONG et al.Fuel (Guildford). 2014, Vol 117, pp 218-223, issn 0016-2361, 6 p., aArticle

The spontaneous combustion behavior of some low rank coals and a range of dried productsFEI, Y; ABD AZIZ, A; NASIR, S et al.Fuel (Guildford). 2009, Vol 88, Num 9, pp 1650-1655, issn 0016-2361, 6 p.Article

Susceptibility of coal to spontaneous combustion verified by modified adiabatic method under conditions of Ostrava―Karvina Coalfield, Czech RepublicZUBICEK, V; ADAMUS, A.Fuel processing technology. 2013, Vol 113, pp 63-66, issn 0378-3820, 4 p.Article