TY - GEN
T1 - Test case 2
T2 - 2nd International Workshop on Radiation of High Temperature Gases in Atmospheric Entry
AU - Ogino, Yousuke
AU - Osawa, Hiroshi
AU - Ohnishi, Naofumi
AU - Sawada, Keisuke
PY - 2006/11
Y1 - 2006/11
N2 - We consider 21 chemical species and 35 chemical reactions for computations of radiative flowfield of test case 2. The radiative heat transfer calculation using tangent slab approximation is coupled with the flowfield calculation, where the absorption coefficients of the gas mixture are given by the multi-band model having 10,000 wavelength points for wavelength range from 75 to 2,000 nm. In this paper, we conduct the code validation study for our Huygens entry computational code using monodimensional unsteady problem. We confirm that CN-violet and CN-red band systems play the major role in the radiative heat transfer during the simulation time.
AB - We consider 21 chemical species and 35 chemical reactions for computations of radiative flowfield of test case 2. The radiative heat transfer calculation using tangent slab approximation is coupled with the flowfield calculation, where the absorption coefficients of the gas mixture are given by the multi-band model having 10,000 wavelength points for wavelength range from 75 to 2,000 nm. In this paper, we conduct the code validation study for our Huygens entry computational code using monodimensional unsteady problem. We confirm that CN-violet and CN-red band systems play the major role in the radiative heat transfer during the simulation time.
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M3 - Conference contribution
AN - SCOPUS:33846106446
SN - 9290929405
SN - 9789290929406
T3 - European Space Agency, (Special Publication) ESA SP
BT - 2nd International Workshop on Radiation of High Temperature Gases in Atmospheric Entry
Y2 - 6 September 2006 through 8 September 2006
ER -