Equation 5.73 - O + O + M O2 + M (reactions 13–16 in Table 5–1), Equation 5.74 -

Question

Equation 5.73 - O + O + M O2 + M (reactions 13–16 in Table 5–1),

Equation 5.74 - O + CO + M CO2 + M (reactions 4–6 in Table 5–1).

5-16. Kinetic Scenario of Ideal Quenching of Products of CO2 Dissociation in Thermal Plasma. Coparing rate coefficients of recombination processes (5-73) and (7-74), explain the kinetic scenario of the ideal quenching mode. How does a significant difference in concentrations of O and CO affect the mechanism of'ideal quenching? Estimate the difference in conversion degree and in the energy efficiency corresponding to ideal and absolute modes of quenching. the

Explanation / Answer

for the equation 5.73 delta H is negative and also delta H negative for equation 5.74 but delta H more negative for equation 5.74 is -125.8 and delta H for equation 5.73 is -118. and activation energy is zero approximately for equation 5.73 but equation 5.74 activations energy is positive.

reaction rate coefficients are equation 5.73 is more like comparative equation 5.74 because atomic oxygen at low temperature doesn't affect CO concentration and quenching rate high and O convert into O2 without conversion CO2.

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