A cylindrical tube connects two large gas tanks (Tank-1 and 2). Both tanks contain mixture of carbon dioxide (CO₂) and sulphur dioxide (SO₂). The partial pressure of carbon dioxide in Tank-1 is 80 kPa and in Tank-2 is 20kPa. Both tanks and connecting tube are at 100 kPa and 263 K. The tube is 100 mm long. The diffusion coefficient of carbon dioxide is 0.064 cm²/s at 100 kPa and 263 K, and molar mass of carbon dioxide is 44 kg/kmol. Find the rate of flow of carbon dioxide in question 11 if the cross-sectional area of the tube is 4 mm². 47.02 x 10-⁹ mol/s 31.02 x 10-⁹ mol/s O 19.02 x 10-⁹ mol/s 7.02 x 10-⁹ mol/s

A cylindrical tube connects two large gas tanks (Tank-1 and 2). Both tanks contain mixture of carbon dioxide (CO₂) and sulphur dioxide (SO₂). The partial pressure of carbon dioxide in Tank-1 is 80 kPa and in Tank-2 is 20kPa. Both tanks and connecting tube are at 100 kPa and 263 K. The tube is 100 mm long. The diffusion coefficient of carbon dioxide is 0.064 cm²/s at 100 kPa and 263 K, and molar mass of carbon dioxide is 44 kg/kmol. Find the rate of flow of carbon dioxide in question 11 if the cross-sectional area of the tube is 4 mm². 47.02 x 10-⁹ mol/s 31.02 x 10-⁹ mol/s O 19.02 x 10-⁹ mol/s 7.02 x 10-⁹ mol/s

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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Question

A cylindrical tube connects two large gas tanks (Tank-1 and 2). Both tanks contain
mixture of carbon dioxide (CO₂) and sulphur dioxide (SO₂). The partial pressure of
carbon dioxide in Tank-1 is 80 kPa and in Tank-2 is 20kPa. Both tanks and
connecting tube are at 100 kPa and 263 K. The tube is 100 mm long. The diffusion
coefficient of carbon dioxide is 0.064 cm²/s at 100 kPa and 263 K, and molar mass
of carbon dioxide is 44 kg/kmol.
Find the rate of flow of carbon dioxide in question 11 if the cross-sectional
area of the tube is 4 mm².
47.02 x 10-⁹ mol/s
31.02 x 10-⁹ mol/s
19.02 x 10-⁹ mol/s
7.02 x 10-⁹ mol/s

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