2. The kinetics of two parallel enzyme-catalyzed reactions Si , P, S2 P2 is expressed as aS1 dS2 ri = (1+ bS1 + cS2)' 12 = (1+ bS1 + cS2) with ri and r2 [mol/{L.h}] being the volume-specific reaction rates that include enzyme loading me/V. The reactions are conducted in a steady state continuous flow well-mixed reactor. Deduce that the mass balances for S1 and S2 are (S10 – S1) = rīt, (S20 – S2) = r2T, V T=- For b = 20 M-1, c = 30 M-1, at = = 50, S10 = 1 M, and S2 = 0.12 M, calculate S1 and S20 (M = mol/L). 32, dr

Introduction to Chemical Engineering Thermodynamics
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Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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2. The kinetics of two parallel enzyme-catalyzed reactions
Si , P, S2 P2
is expressed as
aS1
dS2
ri =
(1+ bS1 + cS2)'
12 =
(1+ bS1 + cS2)
with ri and r2 [mol/{L.h}] being the volume-specific reaction rates that include enzyme loading
me/V. The reactions are conducted in a steady state continuous flow well-mixed reactor. Deduce
that the mass balances for S1 and S2 are
(S10 – S1) = rīt, (S20 – S2) = r2T,
V
T=-
For b = 20 M-1, c = 30 M-1, at = = 50, S10 = 1 M, and S2 = 0.12 M, calculate S1 and
S20 (M = mol/L).
32, dr
Transcribed Image Text:2. The kinetics of two parallel enzyme-catalyzed reactions Si , P, S2 P2 is expressed as aS1 dS2 ri = (1+ bS1 + cS2)' 12 = (1+ bS1 + cS2) with ri and r2 [mol/{L.h}] being the volume-specific reaction rates that include enzyme loading me/V. The reactions are conducted in a steady state continuous flow well-mixed reactor. Deduce that the mass balances for S1 and S2 are (S10 – S1) = rīt, (S20 – S2) = r2T, V T=- For b = 20 M-1, c = 30 M-1, at = = 50, S10 = 1 M, and S2 = 0.12 M, calculate S1 and S20 (M = mol/L). 32, dr
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