. In a given plant operation, four streams are mixed to give a single stream withthe desired composition. The four inlet streams (stream numbers 1–4) to the mixer andthe single exit stream (final product; stream number 5) have the composition shown inthe table.Composition, %by weightStreamNumberH2SO4HNO3H2OInerts1801648020330106041010728402731Determine the mass flow rate of the individual streams for making 2,200 Ibs/hr of thefinal product. Formulate the system of equations generated by this material balanceproblem. Use the Gauss-Jordan Reduction Method. Identify the Gaussian Matrix and theGauss-Jordan Matrix. Include these in the summary of answers.

Given : four inlet streams and one exit stream.. The composition of each stream is provided in the…

In a given plant operation, four streams are mixed to give a single stream with the desired composition. The four inlet streams (stream numbers 1-4) to the mixer and the single exit stream (final product; stream number 5) have the composition shown in the table. Stream Number Composition, % by weight H2SO4 HNO3 H₂O Inerts 1 80 0 16 4 2 0 80 20 0 3 30 10 60 0 4 10 10 72 8 5 40 27 31 2 Determine the mass flow rate of the individual streams for making 2,200 lbs/hr of the final product. Formulate the system of equations generated by this material balance problem. Use the Gauss-Jordan Reduction Method. Identify the Gaussian Matrix and the Gauss-Jordan Matrix. Include these in the summary of answers.

In a given plant operation, four streams are mixed to give a single stream with the desired composition. The four inlet streams (stream numbers 1-4) to the mixer and the single exit stream (final product; stream number 5) have the composition shown in the table. Stream Number Composition, % by weight H2SO4 HNO3 H₂O Inerts 1 80 0 16 4 2 0 80 20 0 3 30 10 60 0 4 10 10 72 8 5 40 27 31 2 Determine the mass flow rate of the individual streams for making 2,200 lbs/hr of the final product. Formulate the system of equations generated by this material balance problem. Use the Gauss-Jordan Reduction Method. Identify the Gaussian Matrix and the Gauss-Jordan Matrix. Include these in the summary of answers.

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

. In a given plant operation, four streams are mixed to give a single stream with
the desired composition. The four inlet streams (stream numbers 1–4) to the mixer and
the single exit stream (final product; stream number 5) have the composition shown in
the table.
Composition, %by weight
Stream
Number
H2SO4
HNO3
H2O
Inerts
1
80
16
4
80
20
3
30
10
60
4
10
10
72
8
40
27
31
Determine the mass flow rate of the individual streams for making 2,200 Ibs/hr of the
final product. Formulate the system of equations generated by this material balance
problem. Use the Gauss-Jordan Reduction Method. Identify the Gaussian Matrix and the
Gauss-Jordan Matrix. Include these in the summary of answers.

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Step 2: Material Balance Equations

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Step 3: Gauss-Jordan Elimination

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