Bacteria (Pseudomonas sp.) are grown in an 8.0 L CSTR/chemostat on limiting substrate, acetate. The cells are growing in the exponential growth phase with a mass doubling time of 2.33 hours. The saturation constant (Ks) is 1.65 g/L, and cell yield on acetate is 0.41 g cell/g acetate. If a chemostat is operated with a sterile feed stream containing 38.2 g/L acetate (and the rest of the nutrients supplied in excess), find the following: A. the specific growth rate during exponential growth (max)... which equals the maximum dilution rate (Dmax) B. the steady state substrate concentration in the CSTR when the dilution rate is 0.5 Dmax, 0.8 Dmax, and 0.9 Dmax C. the steady state cell concentration when the dilution rate is half of the maximum (Dmax), 0.8 Dmax, and 0.9 Dmax

Bacteria (Pseudomonas sp.) are grown in an 8.0 L CSTR/chemostat on limiting substrate, acetate. The cells are growing in the exponential growth phase with a mass doubling time of 2.33 hours. The saturation constant (Ks) is 1.65 g/L, and cell yield on acetate is 0.41 g cell/g acetate. If a chemostat is operated with a sterile feed stream containing 38.2 g/L acetate (and the rest of the nutrients supplied in excess), find the following: A. the specific growth rate during exponential growth (max)... which equals the maximum dilution rate (Dmax) B. the steady state substrate concentration in the CSTR when the dilution rate is 0.5 Dmax, 0.8 Dmax, and 0.9 Dmax C. the steady state cell concentration when the dilution rate is half of the maximum (Dmax), 0.8 Dmax, and 0.9 Dmax

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

See similar textbooks

Related questions

Q: Problem 2 1) Show that where V Cy-cig= V=00 dv этг VJ Cy heat capacity at constant volume: Cy = au V…

A: Where,is the heat capacity at a constant volume is the ideal gas heat capacity at a constant volume

Q: P.15.3 Water is pumped through a heat exchanger and control valve. At normal conditions, the flow…

A: a. The pressure drop across the valve at normal flow rate condition.b. The total pressure across the…

Q: A simple atmospheric distillation tower as shown in the Figure below have a capacity of 1200…

A: It is given that, the distillation tower has a capacity of Flow rate of steam vapor at…

Q: en, temperature (Tin)= 300k face temperature (TW = BLOK mel length 2083 6)= 0.05kgls. 1.

A: GivenInlet temperature Tin =300 KSurface temperature Ts = 600 KChannel length = 0.8 mFlow rate =…

Q: |what is the relative saturation of water vapor in air at 25 °C, i

A: Relative saturation typically refers to the extent to which a substance or medium is saturated with…

Q: Power demand (average) = 4MW; Area of CMU: 4090 hectares (1 hectare = 10,000 square m); Average…

A: Given :Power demand (average) Area of Average solar incident at Wind turbine: Diameter , Wind speed…

Q: A double mixture containing molce 60% A and 40% B will be distilled in a continuous column at a rate…

A: Feed contains 60% A and 40% Bflow rate The upper component 90% and the lower component 10%equation…

Q: A 20-cm diameter cylindrical enclosed pan is placed on top of a heating unit for vaporizing propane…

A: Given:The diameter of the pan Vapor pressure of propane The heat flux Surface temperature of the…

Q: Q2. An aqueous glucose stream is to be catalytically hydrogenated to produce sorbitol in a CSTR.…

A: Given: Feed concentration of glucose, Hydrogen gas stream (considered excess)Reactor temperature,…

Q: Nitrogen dioxide is one of the many oxides of nitrogen (often collectively called "NOX") that are of…

A: The equilibrium reaction that converts nitrogen dioxide to dinitrogen tetroxide can be written as…

Q: Chemical: The dimension of diffusion coefficient is ?? Explain.

A: The diffusion coefficient (D) is a measure of how quickly particles or molecules move through a…

Q: It is desired to produce 500 kg of ethanol per hour in a continuous fermentation in a system with…

A: The total volume of the fermenter and the recycle ratio.The volume of the fermenter for the same…

Q: A truck carrying road salt crashed, spilling the salt near a spring where it entered an aquifer. The…

A: Given :Distance of well Graph is given.

Q: Hexane (1) / ethanol (2) / methylcyclopentane (3)/ benzene (4) system Determine the following: 1.…

A: Given :Componentx110.2520.4030.2040.15Componenty110.2520.4030.2040.15

Q: CO2 has a positive slope on the melting (fusion) curve. Using the questions below as a guide, show…

A: Introduction:The question introduces a concept related to the behavior of carbon dioxide (CO2) upon…

Q: In a beverage plant, a beer was administered in a sequence of filtration run with 20 percent cake.…

A: Given : Area of the filter Filtration time Viscosity of the filtrate

Q: Example 7.2: A simple U-tube manometer is installed across an orifice meter. The manometric fluid is…

A: U tube manometer is the simplest pressure measuring devices and are used for measuring low pressure…

Q: Problem 1 The dehydrogenation of a compound (elementary kinetics) is taking place in a selective…

A: First, we need to calculate the molar flow rate of B (FB) for no pressure drop. To do this, we can…

Q: Please trace this process on the given psychrometric chart. A crystalline solid is to be dried from…

A: Given :1. Stream A: 2. Stream B: 3. Stream C: 4. Stream D: %Humidity = 30%, constant-wet bulb

Q: Water (T = 20°C) from a reservoir is pumped up at 5 kg/s through a 3-in Sch. 40 pipe connected to a…

A: Given :Fluid Flow and Pumping:Water is being pumped from a reservoir through a The flow rate is Pump…

Q: 3. Stoichiometric Calculations of Metabolic Process Consider the glycolysis of glucose where 20 μmol…

A: Given : Glucose consider the glycolysis of glucose

Q: Give a brief description of the use of hydrostatic pressure in level measurement. List the main…

A: The pressure asserted on a non-flowing liquid depending on the height to which the liquid is filled…

Q: PROBLEM BACKGROUND The most common heat exchanger used in industry is a 'shell-and-tube' heat…

A: Coefficient of Convective Heat Transfer for Air (h_out) We estimated the convective heat transfer…

Q: The decomposition of N2O5 in the gas phase to N2O4 and O2 is complicated by the subsequent…

A: To find:a) The kinetics scheme corresponds to the stoichiometry.b) The values on the table.c) The…

Q: The irreversible catalytic gas phase reaction A B₂ is carried out over a catalyst of which the…

A: a) Propose a possible reaction mechanism for this reaction.b) Explain the behaviour.

Q: A novel material is suddenly exposed on one side to a fluid material. The material has an overall…

A: Since the problem involves a solid material and a fluid, the heat transfer mechanism is likely…

Q: Q4/ It is desired to carry out a process in a packed column with heat transfer. The column an be…

Q: 7. Capacity of a rotary dryer depends on its A. O R.p.m B. Inclination with ground surface C. Both A…

A: Drying is define as the removal of the moisture or water from wet solids at the specified…

Q: 5.11 Consider the one-atmospheric equilibrium reaction R₁.T N₂ 2N at 4,000K. For this condition,…

A: a. Equilibrium Mole Fractionsb.Mixture Gibbs Functionc.whether this condition gives a minimum value…

Q: You are given a container partially filled with water at 25°C. You then proceed to pump all of the…

A: To find:The pressure in the box.Given:saturated fugacity coefficient is The temperature of the water…

Q: A novice chemist conducted an experiment to study the decomposition of a reactant A. The…

A: b) Rate Law describes the relationship between the rate of a reaction and the concentration of the…

Q: An examination of the problem table for this dataset indicates a minimum hot utility demand of 15 MW…

Q: Define Accuracy and give two examples of how this can be expressed. Define Hysteresis.

A: Accuracy is the measure of how close a measurement is to its standard value. Hysteresis is the…

Q: A continuous, stirred-tank blending system is. The control objective is to blend the two inlet…

A: To Derive:The transfer function model for inlet concentrations, x1, and inlet mass flow rates w1 and…

Q: Μγ m = CAP, MY (2) P(t) = = RTƒ Pf.t=0 C₁tRTƒ e MV Y+1 Y-1 (2) (3) My C₁ = COA RTf V+1 2 V-1 +1 (4)…

A: The pressure is obtained as a function of time. The initial condition will be zero. The orifice flow…

Q: Hydrogen and chlorine gas react to form gaseous hydrogen chloride in an isothermal and isobaric flow…

A: To find:The exit concentrations of H2, Cl2, HCl, and inert in mol/L.The composition of the exit…

Q: Using the equilibrium data shown below for benzene-toluene system at 1 atm with relative volatility…

A: The pressure of the benzene-toluene mixture The relative volatility,

Q: Paddle agitator in Chemical industries is used for a. For mixing low viscosity liquids b. Produces…

A: Paddle agitator in chemical industries is used forAnswer is a. For mixing low viscosity…

Q: An isothermal continuous flow reactor is needed to carry out the decomposition of ethanal to produce…

A: An isothermal continuous flow reactor is needed to carry out the decomposition of acetaldehyde to…

Q: One common method of making hydrogen gas is called steam methane reforming (SMR). The reaction is as…

A: “Since you posted a question with multiple sub-parts, we will provide the solution only to the first…

Q: Ortho phosphoric acid is completely miscible in water a. True b. False

A: Ortho phosphoric acid is an inorganic acid which is manufactured from phosphate rock and sulphuric…

Q: estion 19 If the area of a Nitrogen molecule is 15 Angstrom², approximately how many moles of N2…

Q: My m = CAP, MY (2) P(t) = RT f Pf,t=0 C₁tRTƒ e MV y+1 (2) Y+1 My C₁ = COA RTf 2 V-1 +1. (4) (3)…

A: Given : Assume the rupture occurs at .The liquid ammonia transitions immediately to the gas phase at…

Q: 2. sdu to (di CUS A concentric tube arrangement, for which the inner and outer diameters are 80 mm…

A: Assumptions,

Q: A mixture containing 45.0 %mole benzene (B), 30%mole toluene (T), and 25 %mole xylene (X) is fed to…

A: Given :Mixture containingBenzene Toluene Xylene Bottom product:Xylene Benzene87.9% of the xylene in…

Q: ii) Two rate law of equations based on the reaction of tert-butyl alcohol has been proposed as…

A: Given : 1) 2)

Q: SOLVE USING THE MOST EASIEST METHOD. HANDWRITTEN Aqueous reactant A is converted to product at the…

A: Given : Concentration12467912rA0.060.10.251.02.01.00.5Initial concentration Final concentration

Q: Consider a solution of completely miscible liquids A and B. Show that the slopes of the plots of the…

A: Given : Consider a solution of completely miscible liquids A and BTo Show : Slopes of the plots of…

Q: -by bx u = v= 2 2 x² + y² x+y which also has circular streamlines. (i) Calculate the vorticity…

A: To find:The circulation of a velocity vector around a path.Given:The steady-state velocity profiles…

Q: Assuming that the specific gravity of the following substances is approximately the same, that is,…

Question

Bacteria (Pseudomonas sp.) are grown in an 8.0 L CSTR/chemostat on limiting substrate, acetate. The cells are growing
in the exponential growth phase with a mass doubling time of 2.33 hours. The saturation constant (Ks) is 1.65
g/L, and cell yield on acetate is 0.41 g cell/g acetate. If a chemostat is operated with a sterile feed stream
containing 38.2 g/L acetate (and the rest of the nutrients supplied in excess), find the following:
A. the specific growth rate during exponential growth (μmax)... which equals the maximum dilution rate (Dmax)
B. the steady state substrate concentration in the CSTR when the dilution rate is 0.5 Dmax, 0.8 Dmax, and 0.9 Dmax
C. the steady state cell concentration when the dilution rate is half of the maximum (Dmax), 0.8 Dmax, and 0.9 Dmax
D. the rate of cell production DX (gdw cells/L-h) and total cell production rate FX (gdw cells/h) when operated at
0.5 Dmax, 0.8 Dmax, and 0.9 Dmax.
E. Calculate Dopt (optimum dilution rate to maximize cell production) and the total cell production rate at this
optimal dilution rate. Discuss your answers to parts C, D & E. Do they make sense?

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Calculate the exponential growth

VIEW

Step 2: Calculate the exponential growth

VIEW

Step 3: Calculate the steady state substrate concentration in the CSTR

VIEW

Step 4: Calculate the steady state cell concentration

VIEW

Solution

VIEW

Step by step

Solved in 5 steps with 21 images

SEE SOLUTION Check out a sample Q&A here

Recommended textbooks for you

Introduction to Chemical Engineering Thermodynami…

Chemical Engineering

ISBN:

9781259696527

Author:

J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:

McGraw-Hill Education

Elementary Principles of Chemical Processes, Bind…

Chemical Engineering

ISBN:

9781118431221

Author:

Richard M. Felder, Ronald W. Rousseau, Lisa G. Bullard

Publisher:

WILEY

Elements of Chemical Reaction Engineering (5th Ed…

Chemical Engineering

ISBN:

9780133887518

Author:

H. Scott Fogler

Publisher:

Prentice Hall

Process Dynamics and Control, 4e

Chemical Engineering

ISBN:

9781119285915

Author:

Seborg

Publisher:

WILEY

Industrial Plastics: Theory and Applications

Chemical Engineering

ISBN:

9781285061238

Author:

Lokensgard, Erik

Publisher:

Delmar Cengage Learning

Unit Operations of Chemical Engineering

Chemical Engineering

ISBN:

9780072848236

Author:

Warren McCabe, Julian C. Smith, Peter Harriott

Publisher:

McGraw-Hill Companies, The

Introduction to Chemical Engineering Thermodynami…

Chemical Engineering

ISBN:

9781259696527

Author:

J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:

McGraw-Hill Education

Elementary Principles of Chemical Processes, Bind…

Chemical Engineering

ISBN:

9781118431221

Author:

Richard M. Felder, Ronald W. Rousseau, Lisa G. Bullard

Publisher:

WILEY

Elements of Chemical Reaction Engineering (5th Ed…

Chemical Engineering

ISBN:

9780133887518

Author:

H. Scott Fogler

Publisher:

Prentice Hall

Process Dynamics and Control, 4e

Chemical Engineering

ISBN:

9781119285915

Author:

Seborg

Publisher:

WILEY

Industrial Plastics: Theory and Applications

Chemical Engineering

ISBN:

9781285061238

Author:

Lokensgard, Erik

Publisher:

Delmar Cengage Learning

Unit Operations of Chemical Engineering

Chemical Engineering

ISBN:

9780072848236

Author:

Warren McCabe, Julian C. Smith, Peter Harriott

Publisher:

McGraw-Hill Companies, The

SEE MORE TEXTBOOKS

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

About Ads

Manage My Data

bartleby, a Learneo, Inc. business