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Q3) Air enters the compressor shown below at a rate of 15 ft³/s. It leaves the tank through a 1.5 inches diameter pipe with a density of 0.113 lbm/ft³ and a velocity of 600 ft/s. a) Write reasonable assumptions for inlet air. b) Calculate mass rate of inlet air and calculate mass rate of outlet air (lbm/s). c) Determine the rate (lbm/s) at which the mass of air in the tank is increasing or decreasing. d) Determine the rate (lbm/ft³.s) at which the density of air in the tank is increasing then plot density versus time (MATLAB or Excel). e) Explain why the diameter of suction side of compressor is generally larger than the diameter of discharge side based on your answer in part (d). Compressor Tank volume = 25 ft³ 1.5 in 15 ft³/s 600 ft/s 0.113 lb/ft³

Q3) Air enters the compressor shown below at a rate of 15 ft³/s. It leaves the tank through a 1.5 inches diameter pipe with a density of 0.113 lbm/ft³ and a velocity of 600 ft/s. a) Write reasonable assumptions for inlet air. b) Calculate mass rate of inlet air and calculate mass rate of outlet air (lbm/s). c) Determine the rate (lbm/s) at which the mass of air in the tank is increasing or decreasing. d) Determine the rate (lbm/ft³.s) at which the density of air in the tank is increasing then plot density versus time (MATLAB or Excel). e) Explain why the diameter of suction side of compressor is generally larger than the diameter of discharge side based on your answer in part (d). Compressor Tank volume = 25 ft³ 1.5 in 15 ft³/s 600 ft/s 0.113 lb/ft³

Introduction to Chemical Engineering Thermodynamics
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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Can you solve part d Plot using Matlab or excel Density vs time
Q3) Air enters the compressor shown below at a rate of 15 ft³/s. It leaves the tank through a 1.5 inches diameter pipe with a density of 0.113 lbm/ft³ and a velocity of 600 ft/s. a) Write reasonable assumptions for inlet air. b) Calculate mass rate of inlet air and calculate mass rate of outlet air (lbm/s). c) Determine the rate (lbm/s) at which the mass of air in the tank is increasing or decreasing. d) Determine the rate (lbm/ft³.s) at which the density of air in the tank is increasing then plot density versus time (MATLAB or Excel). e) Explain why the diameter of suction side of compressor is generally larger than the diameter of discharge side based on your answer in part (d). Compressor Tank volume = 25 ft³ 1.5 in 15 ft³/s 600 ft/s 0.113 lb/ft³
Transcribed Image Text:Q3) Air enters the compressor shown below at a rate of 15 ft³/s. It leaves the tank through a 1.5 inches diameter pipe with a density of 0.113 lbm/ft³ and a velocity of 600 ft/s. a) Write reasonable assumptions for inlet air. b) Calculate mass rate of inlet air and calculate mass rate of outlet air (lbm/s). c) Determine the rate (lbm/s) at which the mass of air in the tank is increasing or decreasing. d) Determine the rate (lbm/ft³.s) at which the density of air in the tank is increasing then plot density versus time (MATLAB or Excel). e) Explain why the diameter of suction side of compressor is generally larger than the diameter of discharge side based on your answer in part (d). Compressor Tank volume = 25 ft³ 1.5 in 15 ft³/s 600 ft/s 0.113 lb/ft³
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