Develop an equation for the cylinder resource efficiency factor Lengths 2L. Both ends of the pore are exposed to concentration reagents Cs. An irreversible first-order reaction (A → B) takes place on the walls of the pore. The result will be of the form η = f (Φp) where Φp is the Thiele number for denominator resource. The radius of the pore is α and the diffusion of A in the pore is D. The constant The rate of the reaction is ks, in (mol/cm^2-sec)x(mol/cm^3).
Develop an equation for the cylinder resource efficiency factor Lengths 2L. Both ends of the pore are exposed to concentration reagents Cs. An irreversible first-order reaction (A → B) takes place on the walls of the pore. The result will be of the form η = f (Φp) where Φp is the Thiele number for denominator resource. The radius of the pore is α and the diffusion of A in the pore is D. The constant The rate of the reaction is ks, in (mol/cm^2-sec)x(mol/cm^3).
Chapter30: Kinetic Methods Of Analysis
Section: Chapter Questions
Problem 30.1QAP
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Develop an equation for the cylinder resource efficiency factor Lengths 2L. Both ends of the pore are exposed to concentration reagents Cs. An irreversible first-order reaction (A → B) takes place on the walls of the pore. The result will be of the form η = f (Φp) where Φp is the Thiele number for denominator resource. The radius of the pore is α and the diffusion of A in the pore is D. The constant The rate of the reaction is ks, in (mol/cm^2-sec)x(mol/cm^3).
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