The calculation of ion currents in hydrocarbon flames

[1]  B. A. Schaefer Composition, temperature, and ionization in the micro hydrogen-air diffusion flame , 1983 .

[2]  B. A. Schaefer Temperature and optimum ionization in the micro diffusion flame , 1983 .

[3]  D. Jensen,et al.  Reaction rate coefficients for flame calculations , 1978 .

[4]  N. Brown,et al.  Low-pressure hydrogen/oxygen flame studies , 1978 .

[5]  B. A. Schaefer Flow Rate and Thermal Effects of Diluents in Flame Ionization Detection , 1977 .

[6]  V. Basevich,et al.  Reaction kinetics in propagation of ethylene — Oxygen flame , 1977 .

[7]  A. Blades The Effect of the Carrier Gas on Flame lonization Detector Sensitivity , 1976 .

[8]  C. J. Jachimowski Kinetics of oxygen atom formation during the oxidation of methane behind shock waves , 1974 .

[9]  Garry L. Schott,et al.  Further studies of exponential branching rates in reflected-shock heated, nonstoichiometric H2COO2 systems , 1973 .

[10]  J. Heicklen,et al.  The reaction of O(1D) with CH4 , 1972 .

[11]  I. G. McWilliam A study of the flame ionisation detector , 1970 .

[12]  L. F. Phillips,et al.  Radical concentrations and decays in lean hydrogen-nitrogen-oxygen flames , 1967 .

[13]  I. G. McWilliam Linearity and response characteristics of the flame ionisation detector , 1961 .

[14]  Garry L. Schott,et al.  Kinetic Studies of Hydroxyl Radicals in Shock Waves. III. The OH Concentration Maximum in the Hydrogen‐Oxygen Reaction , 1960 .

[15]  W. Kaskan Hydroxyl concentrations in rich hydrogen-air flames held on porous burners , 1958 .

[16]  I. G. McWilliam,et al.  Flame Ionization Detector for Gas Chromatography , 1958, Nature.