Q1/ Ammonia gas (A) is diffusing through stagnant N2 (B) under steady-state conditions . The total pressure is (1.013*10 Pa) and 298 K. The concentration of NH3 at one point is (y1) mole fraction. At the other point of 20 mm away, its concentration is (y2%). The diffusivity coefficient of ammonia in nitrogen at above conditions is 2.293*10 m/s: How much would the flux of ammonia and the mass transfer coefficient change at the following conditions: 1- When the total pressure is increased by three times at constant temperature. 2- When temperature is decreased to 100 K at constant pressure. 3- When the temperature is increased to 350 K and the pressure decreased to a half

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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Q1/
Ammonia gas (A) is diffusing through stagnant N2 (B) under steady-state
conditions . The total pressure is (1.013*10' Pa) and 298 K. The concentration of
NH3 at one point is (y1) mole fraction. At the other point of 20 mm away, its
concentration is (y2%). The diffusivity coefficient of ammonia in nitrogen at
above conditions is 2.293*10* m/s:
How much would the flux of ammonia and the mass transfer coefficient change at
the following conditions:
1- When the total pressure is increased by three times at constant temperature.
2- When temperature is decreased to 100 K at constant pressure.
3- When the temperature is increased to 350 K and the pressure decreased to a
half
Transcribed Image Text:Q1/ Ammonia gas (A) is diffusing through stagnant N2 (B) under steady-state conditions . The total pressure is (1.013*10' Pa) and 298 K. The concentration of NH3 at one point is (y1) mole fraction. At the other point of 20 mm away, its concentration is (y2%). The diffusivity coefficient of ammonia in nitrogen at above conditions is 2.293*10* m/s: How much would the flux of ammonia and the mass transfer coefficient change at the following conditions: 1- When the total pressure is increased by three times at constant temperature. 2- When temperature is decreased to 100 K at constant pressure. 3- When the temperature is increased to 350 K and the pressure decreased to a half
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