Problem 2. Consider the following reaction: OH + CO CO2+H The value of the forward rate coefficient is given by (with T in K) ст3 = 4.76 x 107T1.228 exp(- 35.2/T) mol ·s At a particular time when the gas mixture contains 100 ppm OH, 25 ppm H, 10% CO (by vol.), and 5% CO2 (by vol.) at a total mixture pressure of 30 atm and a temperature of 1800 K, find the values of the rate coefficients for the forward and reverse reactions and the rate of change of OH radical concentration (mol/cm³-s) using only the above reaction.
Problem 2. Consider the following reaction: OH + CO CO2+H The value of the forward rate coefficient is given by (with T in K) ст3 = 4.76 x 107T1.228 exp(- 35.2/T) mol ·s At a particular time when the gas mixture contains 100 ppm OH, 25 ppm H, 10% CO (by vol.), and 5% CO2 (by vol.) at a total mixture pressure of 30 atm and a temperature of 1800 K, find the values of the rate coefficients for the forward and reverse reactions and the rate of change of OH radical concentration (mol/cm³-s) using only the above reaction.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter11: Chemical Kinetics: Rates Of Reactions
Section11.1: Reaction Rate
Problem 11.2CE: Instantaneous rates for the reaction of hydroxide ion with Cv+ can be determined from the slope of...
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