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The biomass reaction Substrate S + Cells → More cells + Product takes place in a 46-dm³ CSTR (Chemostat) where the entering concentration of substrate is 200 g/dm³ and volumetric flowrate of 5 dm³/s. The rate law follows the Monod equation with max = 0.5s-¹ and Ks = 50 g/dm³. --vo(cco-Cc) + ro-ro Cell mass balance is given by: vcc dt D= V/ CcCs Monod growth rate is given by:; p=Hmax (Ks+Cs);rd=0 a)Determine the substrate concentration Cs (g/dm³) to 2 decimal place Dks CS= Max -0

The biomass reaction Substrate S + Cells → More cells + Product takes place in a 46-dm³ CSTR (Chemostat) where the entering concentration of substrate is 200 g/dm³ and volumetric flowrate of 5 dm³/s. The rate law follows the Monod equation with max = 0.5s-¹ and Ks = 50 g/dm³. --vo(cco-Cc) + ro-ro Cell mass balance is given by: vcc dt D= V/ CcCs Monod growth rate is given by:; p=Hmax (Ks+Cs);rd=0 a)Determine the substrate concentration Cs (g/dm³) to 2 decimal place Dks CS= Max -0

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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The biomass reaction Substrate S + Cells → More cells + Product takes place in a 46-dm³ CSTR (Chemostat) where the entering concentration of substrate is 200 g/dm³ and volumetric flowrate of 5 dm³/s. The rate law follows the Monod equation with "max=0.5s1 and Ks = 50 g/dm³. Cell mass balance is given by: V- vocc = vo(cco-Cc) + ro-ro dt CcCs Monod growth rate is given by: ; g =Hmax (Ks+Cs) d=0 a)Determine the substrate concentration Cg (g/dm³) to 2 decimal place Dks Mmax - D D= C₂5.
Transcribed Image Text:The biomass reaction Substrate S + Cells → More cells + Product takes place in a 46-dm³ CSTR (Chemostat) where the entering concentration of substrate is 200 g/dm³ and volumetric flowrate of 5 dm³/s. The rate law follows the Monod equation with "max=0.5s1 and Ks = 50 g/dm³. Cell mass balance is given by: V- vocc = vo(cco-Cc) + ro-ro dt CcCs Monod growth rate is given by: ; g =Hmax (Ks+Cs) d=0 a)Determine the substrate concentration Cg (g/dm³) to 2 decimal place Dks Mmax - D D= C₂5.
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