Analysis of an Immoblised Enzyme Reactor with Catalysts Activation
-
Mark I Nelson
We investigate the behavior of a reaction described by Michaelis-Menten kinetics in an immobilized enzyme reactor (IER). The IER is treated as a well stirred flow reactor, in which the immobilized bounded and unbounded enzyme species are constrained to remain within the reaction vessel. The product species leaves the IER in the reactor outflow. Before the substrate can react with the enzyme, the enzyme must first be activated by absorption of an activator. We use steady state analysis to identify the best operating conditions or the reactor. To this end, we show that the concentration of product is maximized at low residence time whereas the productivity of the reactor is maximized at high residence times.
©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston
Artikel in diesem Heft
- Article
- Editorial: Special Issue Contributed from CHEMECA 2008-Mathematical Modeling
- Advanced Modelling for Investigating the Effects of Reactor Operation on Controlled Living Emulsion Polymerization
- Influence of Jet Velocity on Jet Breakup in Immiscible Liquid-Liquid Systems
- Computational Fluid Dynamics Study of New Vacuum Degassing Process
- Kinetic Simulation of Methacrolein and Lactone Production from the Catalytic Oxidation of Isobutane over Lanthanide Phosphomolybdates
- Operability Analysis of MTBE Reactive Distillation Column using a Process Simulator
- MIQP-Based MPC in the Presence of Control Valve Stiction
- A Theoretical Investigation into Phase Change Clothing Benefits for Firefighters under Extreme Conditions
- Travelling Waves in a Two-Step Chain Branching Model with Heat Loss
- Three-Dimensional Numerical Study on Flames
- 2D Computer Simulations of Ohmic Heating of Milk Solutions in Laminar Annular Flow
- Inhibition of Premixed Methane-Air Flames with CF3I
- Adaptive Supervisory Control of an Industrial Steel Slab Reheating Furnace
- Analysis of an Immoblised Enzyme Reactor with Catalysts Activation
Artikel in diesem Heft
- Article
- Editorial: Special Issue Contributed from CHEMECA 2008-Mathematical Modeling
- Advanced Modelling for Investigating the Effects of Reactor Operation on Controlled Living Emulsion Polymerization
- Influence of Jet Velocity on Jet Breakup in Immiscible Liquid-Liquid Systems
- Computational Fluid Dynamics Study of New Vacuum Degassing Process
- Kinetic Simulation of Methacrolein and Lactone Production from the Catalytic Oxidation of Isobutane over Lanthanide Phosphomolybdates
- Operability Analysis of MTBE Reactive Distillation Column using a Process Simulator
- MIQP-Based MPC in the Presence of Control Valve Stiction
- A Theoretical Investigation into Phase Change Clothing Benefits for Firefighters under Extreme Conditions
- Travelling Waves in a Two-Step Chain Branching Model with Heat Loss
- Three-Dimensional Numerical Study on Flames
- 2D Computer Simulations of Ohmic Heating of Milk Solutions in Laminar Annular Flow
- Inhibition of Premixed Methane-Air Flames with CF3I
- Adaptive Supervisory Control of an Industrial Steel Slab Reheating Furnace
- Analysis of an Immoblised Enzyme Reactor with Catalysts Activation
