TY - JOUR
T1 - Numerical investigation of high temperature synthesis gas premixed combustion via ANSYS Fluent
AU - Pashchenko, Dmitry
N1 - Publisher Copyright:
© 2018 The Authors, published by EDP Sciences.
PY - 2018/1/9
Y1 - 2018/1/9
N2 - A numerical model of the synthesis gas pre-mixed combustion is developed. The research was carried out via ANSYS Fluent software. Verification of the numerical results was carried out using experimental data. A visual comparison of the flame contours that obtained by the synthesis gas combustion for Re = 600; 800; 1000 was performed. A comparison of the wall temperature of the combustion chamber, obtained with the help of the developed model, with the results of a physical experiment was also presented. For all cases, good convergence of the results is observed. It is established that a change in the temperature of the syngas/air mixture at the inlet to the combustion chamber does not significantly affect the temperature of the combustion products due to the dissipation of the H2O and CO2 molecules. The obtained results are of practical importance for the design of heat engineering plants with thermochemical heat recovery.
AB - A numerical model of the synthesis gas pre-mixed combustion is developed. The research was carried out via ANSYS Fluent software. Verification of the numerical results was carried out using experimental data. A visual comparison of the flame contours that obtained by the synthesis gas combustion for Re = 600; 800; 1000 was performed. A comparison of the wall temperature of the combustion chamber, obtained with the help of the developed model, with the results of a physical experiment was also presented. For all cases, good convergence of the results is observed. It is established that a change in the temperature of the syngas/air mixture at the inlet to the combustion chamber does not significantly affect the temperature of the combustion products due to the dissipation of the H2O and CO2 molecules. The obtained results are of practical importance for the design of heat engineering plants with thermochemical heat recovery.
UR - http://www.scopus.com/inward/record.url?scp=85040647837&partnerID=8YFLogxK
U2 - 10.1051/matecconf/201814503012
DO - 10.1051/matecconf/201814503012
M3 - 会议文章
AN - SCOPUS:85040647837
SN - 2261-236X
VL - 145
JO - MATEC Web of Conferences
JF - MATEC Web of Conferences
M1 - 03012
T2 - 13th National Congress on Theoretical and Applied Mechanics, NCTAM 2017
Y2 - 6 September 2017 through 10 September 2017
ER -