Consideration of crystal structure defectiveness of a powder fuel carbon component in the combustion chamber of a plasma generator

A physicomathematical model and results are presented for numerical studies of gas temperature, plasma electrical conductivity, the Young's modulus of the microflame around aluminum particles, and also the completeness of carbon component combustion for a powder fuel in poly-and monodispersed approximations with movement of a two-phase mixture in a plasma generator combustion chamber. The level of the effect of considering crystal structure defectiveness for carbon particles on the change in these values is established, and it is also shown that under plasma generator conditions of the poly-dispersed model is less sensitive to the model selected for carbon particle combustion.