3! TA steam of 10 wt% ammonium nitrate (AN) solution at flow rate of 820 m³/hr at 20 °C enters an evaporator to produce 60 wt% ammonium nitrate solution at 42 °C at the top stream and pure water at the bottom. 1) Draw and label a flowchart 2) Perform the degree of freedom analysis showing what variables are unknowns and the number of independent equation(s), followed by mass balances 3) Determine the mass flow rate of ammonium nitrate for each stream. 10 wt% AN 60 wt% AN Density at 20 °C Density at 50 °C 1.182 g/cm³ 1.124 g/cm³ 1.434 g/cm³ 1.318 g/cm
3! TA steam of 10 wt% ammonium nitrate (AN) solution at flow rate of 820 m³/hr at 20 °C enters an evaporator to produce 60 wt% ammonium nitrate solution at 42 °C at the top stream and pure water at the bottom. 1) Draw and label a flowchart 2) Perform the degree of freedom analysis showing what variables are unknowns and the number of independent equation(s), followed by mass balances 3) Determine the mass flow rate of ammonium nitrate for each stream. 10 wt% AN 60 wt% AN Density at 20 °C Density at 50 °C 1.182 g/cm³ 1.124 g/cm³ 1.434 g/cm³ 1.318 g/cm
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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Transcribed Image Text:3? TA steam of 10 wt% ammonium nitrate (AN) solution at flow rate of 820 m³/hr at 20 °C enters an
evaporator to produce 60 wt% ammonium nitrate solution at 42 °C at the top stream and pure water at the
bottom.
1) Draw and label a flowchart
2) Perform the degree of freedom analysis showing what variables are unknowns and the number of
independent equation(s), followed by mass balances
3) Determine the mass flow rate of ammonium nitrate for each stream.
10 wt% AN
60 wt% AN
Density at 20 °C
Density at 50 °C
1.182 g/cm?
1.124 g/cm
1.434 g/cm?
1.318 g/cm³
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