Question
14.2 A. Determine the reaction rates in kg_(C)//m^(2)-s for the following reactions for surface temperatures of 500,1000,1500, and 2000K : {:[2C+O_(2)rarr^(k_(1))2CO],[C+CO_(2)rarr^(k_(2))2CO,]:} where {:[k_(1)=3.007*10^(5)exp(-17,966//T_(s))[=]m//s],[k_(2)=4.016*10^(8)exp(-29,790//T_(s))[=]m//s.]:} Assume unity
14.2 A. Determine the reaction rates in kg_(C)//m^(2)-s for the following reactions for surface temperatures of 500,1000,1500, and 2000K : {:[2C+O_(2)rarr^(k_(1))2CO],[C+CO_(2)rarr^(k_(2))2CO","]:} where {:[k_(1)=3.007*10^(5)exp(-17,966//T_(s))[=]m//s],[k_(2)=4.016*10^(8)exp(-29,790//T_(s))[=]m//s.]:} Assume unity mass fractions for Y_(O_(2),s) and Y_(CO_(2),s). B. Determine the ratio R_(1)//R_(2) for the same temperatures. Discuss.
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Thermodynamics Concepts And Applications
Authors: Stephen R. Turns, Laura L. Pauley
2nd Edition
1107179718, 9781107179714
