substance A being transferred per time (NA) per unit area(A) is proportional to the negative of the differential of theconcentration (dCA) but inversely proportional to thedifferential of the distance, z, by which there is the diffusionoccurs (dz). The proportionality constant being theThe Fick's Law of Molecular Diffusion states that the mole ofvolumetric diffusivity Dy. In mathematics,dCA-DvNAAdzNA /A is called the molar flux and is constant throughout anydistance. Considering a perfect gas at 25°C, with initialpressure of 0.8 atm diffusing through one (1) meterdistance, by which the exit pressure is 0.2 atm; it has adiffusivity of 0.121 cm²/s at 25°C. Calculate the molar flux ofthe gas in mole/s-m2.

Given the Ficks law of diffusivity as : NAA=-DvdCAdZ------(1)where ,NAA is the molar flux which is…

The Fick's Law of Molecular Diffusion states that the mole o: substance A being transferred per time (NA) per unit area A) is proportional to the negative of the differential of the concentration (dCA) but inversely proportional to the lifferential of the distance, z, by which there is the diffusior occurs (dz). The proportionality constant being the volumetric diffusivity Dy. In mathematics, dCA -Dv da A NA |

The Fick's Law of Molecular Diffusion states that the mole o: substance A being transferred per time (NA) per unit area A) is proportional to the negative of the differential of the concentration (dCA) but inversely proportional to the lifferential of the distance, z, by which there is the diffusior occurs (dz). The proportionality constant being the volumetric diffusivity Dy. In mathematics, dCA -Dv da A NA |

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

substance A being transferred per time (NA) per unit area
(A) is proportional to the negative of the differential of the
concentration (dCA) but inversely proportional to the
differential of the distance, z, by which there is the diffusion
occurs (dz). The proportionality constant being the
The Fick's Law of Molecular Diffusion states that the mole of
volumetric diffusivity Dy. In mathematics,
dCA
-Dv
NA
A
dz
NA /A is called the molar flux and is constant throughout any
distance. Considering a perfect gas at 25°C, with initial
pressure of 0.8 atm diffusing through one (1) meter
distance, by which the exit pressure is 0.2 atm; it has a
diffusivity of 0.121 cm²/s at 25°C. Calculate the molar flux of
the gas in mole/s-m2.

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