A continuous enzyme reactor consists of a stirred tank of volume 0.01 m3 through which liquid is pumped at 0.02 m3⁄h. The enzyme is immobilised onto non-porous, spherical support particles, and the contents are stirred well to ensure that the composition is uniform and that the particles remain in suspension. A plastic mesh has been placed in front of the exit pipe to prevent the particles from leaving the vessel. The reactor is used to carried out a 98% conversion of a substrate entering at 0.1 kmol m3 ⁄ . Michaelis-Menten kinetics apply, with the following enzyme characteristics: Turnover number = 1 × 10^3 s KM = 5 × 10−3 kmol m3 ⁄ Enzyme RMM = 65,000 (a) If the enzyme is stable, calculate the mass of enzyme that needs to be immobilised. (b) If the enzyme is not stable and experiences exponential denaturation with a half-life of 10 h at the reaction temperature, determine the denaturation constant. (c) How would you expect denaturation to affect the reactor performance?

A continuous enzyme reactor consists of a stirred tank of volume 0.01 m3 through which liquid is pumped at 0.02 m3⁄h. The enzyme is immobilised onto non-porous, spherical support particles, and the contents are stirred well to ensure that the composition is uniform and that the particles remain in suspension. A plastic mesh has been placed in front of the exit pipe to prevent the particles from leaving the vessel. The reactor is used to carried out a 98% conversion of a substrate entering at 0.1 kmol m3 ⁄ . Michaelis-Menten kinetics apply, with the following enzyme characteristics: Turnover number = 1 × 10^3 s KM = 5 × 10−3 kmol m3 ⁄ Enzyme RMM = 65,000 (a) If the enzyme is stable, calculate the mass of enzyme that needs to be immobilised. (b) If the enzyme is not stable and experiences exponential denaturation with a half-life of 10 h at the reaction temperature, determine the denaturation constant. (c) How would you expect denaturation to affect the reactor performance?

Biomedical Instrumentation Systems

1st Edition

ISBN:9781133478294

Author:Chatterjee

Publisher:Chatterjee

Chapter5: Biomedical Electronics: Digital

Section: Chapter Questions

Problem 5Q

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