Composition, temperature, and ionization in the micro hydrogen-air diffusion flame

A technique has been developed for obtaining spatially resolved measurements of temperature and density under combustion conditions. The spectral structure of Rayleigh scattered laser light is determined using a Fabry-Perot interferometer. Spectra in the post-combustion zone exhibit simple Doppler b

hlelhyl radicals have been dertzvwd in an armospheric prcssurs. melhane/air dirrusion flame by rhree-pholon ionimlion. The origin band or rhc LransiIion belwern the % 'A; ground elrcwmic s131e and III< 3p'A: Rydberg aate is observed a~ 333.5 nm via two-pholon cxcikon. A second peak BL 340.8 nm is li

Numerical computations are made of axisymmetric laminar jet diffusion flames taking into account detailed chemical kinetics and multicomponent diffusion. Two types of flames are investigated. The one is a usual flame that is formed around a fuel jet surrounded by an air flow. The other is an inverse

Pressure-composition isotherms over the temperature range 622-l 122 K are presented for t,he niohiumhvdrogen system. From these data the partial molar enthalpy and relative partial molar enthalpy are derived. The pa&al molar ent.halpy is found t,o vary with temperature. and both enthalpy functions b