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book Bioprocess Engineering 2nd Edition by Fikret Kargi,Michael Shuler cover

Bioprocess Engineering 2nd Edition by Fikret Kargi,Michael Shuler

النسخة 2الرقم المعياري الدولي: 9780130819086

book Bioprocess Engineering 2nd Edition by Fikret Kargi,Michael Shuler cover

Bioprocess Engineering 2nd Edition by Fikret Kargi,Michael Shuler

النسخة 2الرقم المعياري الدولي: 9780130819086

تمرين 18

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is
independent of the feed substrate concentration. You observe that in your chemostat an in-
crease in

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is independent of the feed substrate concentration. You observe that in your chemostat an in- crease in causes an increase in the residual substrate concentration. Your friend suggests that you consider whether the Contois equation may describe the situation better. The Contois equation (eq. 6.36) is: a. Derive an expression for S in terms of and X for a steady-state CFSTR (chemostat). b. Derive an equation for S as a function of c. If increases twofold, by how much will S increase?

causes an increase in the residual substrate concentration. Your friend suggests
that you consider whether the Contois equation may describe the situation better. The Contois
equation (eq. 6.36) is:

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is independent of the feed substrate concentration. You observe that in your chemostat an in- crease in causes an increase in the residual substrate concentration. Your friend suggests that you consider whether the Contois equation may describe the situation better. The Contois equation (eq. 6.36) is: a. Derive an expression for S in terms of and X for a steady-state CFSTR (chemostat). b. Derive an equation for S as a function of c. If increases twofold, by how much will S increase?

a. Derive an expression for S in terms of

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is independent of the feed substrate concentration. You observe that in your chemostat an in- crease in causes an increase in the residual substrate concentration. Your friend suggests that you consider whether the Contois equation may describe the situation better. The Contois equation (eq. 6.36) is: a. Derive an expression for S in terms of and X for a steady-state CFSTR (chemostat). b. Derive an equation for S as a function of c. If increases twofold, by how much will S increase?

and X for a steady-state CFSTR
(chemostat).
b. Derive an equation for S as a function of

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is independent of the feed substrate concentration. You observe that in your chemostat an in- crease in causes an increase in the residual substrate concentration. Your friend suggests that you consider whether the Contois equation may describe the situation better. The Contois equation (eq. 6.36) is: a. Derive an expression for S in terms of and X for a steady-state CFSTR (chemostat). b. Derive an equation for S as a function of c. If increases twofold, by how much will S increase?

c. If

In a chemostat you know that if a culture obeys the Monod equation, the residual substrate is independent of the feed substrate concentration. You observe that in your chemostat an in- crease in causes an increase in the residual substrate concentration. Your friend suggests that you consider whether the Contois equation may describe the situation better. The Contois equation (eq. 6.36) is: a. Derive an expression for S in terms of and X for a steady-state CFSTR (chemostat). b. Derive an equation for S as a function of c. If increases twofold, by how much will S increase?

increases twofold, by how much will S increase?

التوضيح

موثّق

If a culture obeys the Monod equation in...

Bioprocess Engineering 2nd Edition by Fikret Kargi,Michael Shuler

تفوق شركة سعودية مقرها الرياض، المملكة العربية السعودية، ومرخصة بموجب سجل تجاري رقم (1009085957).

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