Pure hydrogen at 2 atm absolute pressure and 27 0C (300 K), H2 gas flows over vulcanized neoprene rubber in the form of a hollow cylinder with an inner radius of r1 = 2.5 mm and an outer radius of r2 = 5 mm. Using the data in the table 6.5.1 in your book, calculate the radial propagation flow (kgmol / s) inside the cylinder at steady state. (Assume that there is no resistance against diffusion inside the rubber and the partial pressure of H2 gas in this part is zero. Accept the direction from the center of the cylinder to the outside, + r direction.)
Pure hydrogen at 2 atm absolute pressure and 27 0C (300 K), H2 gas flows over vulcanized neoprene rubber in the form of a hollow cylinder with an inner radius of r1 = 2.5 mm and an outer radius of r2 = 5 mm. Using the data in the table 6.5.1 in your book, calculate the radial propagation flow (kgmol / s) inside the cylinder at steady state. (Assume that there is no resistance against diffusion inside the rubber and the partial pressure of H2 gas in this part is zero. Accept the direction from the center of the cylinder to the outside, + r direction.)
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Pure hydrogen at 2 atm absolute pressure and 27 0C (300 K), H2 gas flows over vulcanized neoprene rubber in the form of a hollow cylinder with an inner radius of r1 = 2.5 mm and an outer radius of r2 = 5 mm. Using the data in the table 6.5.1 in your book, calculate the radial propagation flow (kgmol / s) inside the cylinder at steady state. (Assume that there is no resistance against diffusion inside the rubber and the partial pressure of H2 gas in this part is zero. Accept the direction from the center of the cylinder to the outside, + r direction.)
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