Sulfur dioxide (A) diffuses through a stagnant layer of air (B) of 2 cm thickness at 45°C and 1.2 bar total pressure. The partial pressures of SO2 on the two sides of the air layer are PA0 = 0.85 bar and PAL =0.15 bar, respectively. Considering Air is a non-diffusing component and Dso2-Air = 3.5×10$ m²/sec, calculate: i- The molar flux of SO2 ii- The velocities of the individual components with respect to a stationary observer. iii- The molar and the mass average velocities of the components. iv- The molar flux of SO2 with respect to an observer moving with the mass average yelocity,

Introduction to Chemical Engineering Thermodynamics
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Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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Q2)
Sulfur dioxide (A) diffuses through a stagnant layer of air (B) of 2 cm thickness at 45°C
and 1.2 bar total pressure. The partial pressures of SO2 on the two sides of the air layer are
PA0 =
0.85 bar and PAL =0.15 bar, respectively. Considering Air is a non-diffusing
component and Dso2-Air = 3.5×10-$ m²/sec, calculate:
i- The molar flux of SO2
ii- The velocities of the individual components with respect to a stationary observer.
iii- The molar and the mass average velocities of the components.
%3D
iv- The molar flux of SO2 with respect to an observer moving with the mass average
velocity.
Transcribed Image Text:Q2) Sulfur dioxide (A) diffuses through a stagnant layer of air (B) of 2 cm thickness at 45°C and 1.2 bar total pressure. The partial pressures of SO2 on the two sides of the air layer are PA0 = 0.85 bar and PAL =0.15 bar, respectively. Considering Air is a non-diffusing component and Dso2-Air = 3.5×10-$ m²/sec, calculate: i- The molar flux of SO2 ii- The velocities of the individual components with respect to a stationary observer. iii- The molar and the mass average velocities of the components. %3D iv- The molar flux of SO2 with respect to an observer moving with the mass average velocity.
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