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Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they.

Published byCornelius Whinnery Modified over 10 years ago

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Presentation on theme: "Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they."— Presentation transcript:

1 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they take place. Lecture 16

2 Today’s lecture Enzyme Kinetics Noncompetitive Inhibition Bioreactors Monod Equation Yield Coefficients Washout 2

3 Last lecture A given enzyme can only catalyze only one reaction. Urea is decomposed by the enzyme urease, as shown below. Michaelis Menten Equation The corresponding mechanism is: 3

4 Lecture 16 - Bioreactors Nutrient ++ Products Nutrient ++ Products cells more cells 4

5 Bioreactors 5

6 6

7 7

8 inoculum t=0 time  8 Cells + Substrate  More Cells + Product

9 Bioreactors 9 Exponential Growth Phase Death Phase Stationar y Phase Lag Phase 0 time lnC c a)Phases of Bacteria growth: I. Lag II. Exponential III. StationaryIV. Death b) Monod growth rate law:

10 10 Mass Balances: Accumulation = In - Out + Growth - Death Bioreactors

11 Rate Laws: C p *= Product Concentration at which all metabolism ceases 11 Bioreactors

12 Stoichiometry: A.) Yield Coefficients B.) Maintenance 12 Bioreactors

13 v 0 C S0 V=V 0 vCCCSvCCCSC Volume=V 13 1) Mass balance:

14 Bioreactors 14

15 2) Rates: 3) Parameters: 15 Bioreactors

16 Polymath Setup 1.) d(C C )/d(t)=-D*C C +(r g -r d ) 2.) d(C S )/d(t)=-D*(C S0 -C S )-Y sg *r g -m*C C 3.) d(C P )/d(t)=-D*C P +Y PC *r g 4.) rg=(((1-(C P /C pstar ))**0.52)*mumax*(C S /(K S +C S ))*C C 5.) D=0.2 6.) k d =0.01 7.) r d =k d *C C 8.) C S0 =250 9.) Y PC =5.6 10.) m=0.3 11.) mumax=0.33 12.) Y SC =12.5 13.) K S =1.7 16

17 Bioreactors – Chemostats - CSTRs 1. Steady State - Neglect Death Rate and Cell Maintenance 2. Cell 17

18 Bioreactors – Chemostats - CSTRs 3. Substrate 18

19 Bioreactors CSTR Washout C DWDW DC 19 Washout dilution rate

20 How does this figure relate to drinking a lot of fluids when you have an infection or cold? DC C DWDW D D maxprod 20 Maximum Product Flow Rate

21 End of Lecture 16 21

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