James Cook University Subject Handbook - 2020

CL3030 - Reactor Design

Subject Description

Overview of stoichiometry and reaction kinetics; determination of rate law and order of reaction from stoichiometry and rate data; simultaneous mass and energy balances for the design of ideal reactors (batch, semi-batch, well-mixed and plug flow) for single and multiple reactions and reactors (including recycle and bypass arrangements), constant and variable density and temperature conditions, consideration of adiabatic/non-adiabatic and pressure effects, with consideration of catalytic solid-fluid reactions involving diffusion and reaction in porous catalysts; comparison of ideal and real reactors with residence time distribution investigations; modelling and optimisation of industrially significant reactions and reactors; troubleshooting operational reactors; chemical reactor control system design

Learning Outcomes

• define and explain key concepts that underpin chemical reactor modelling and design for both ideal and industrial settings
• apply kinetic and mixing relations within a mass and energy balance framework to estimate reactor parameters
• analyse reactor performance using methods and tools and generate metrics that enable design decisions to be made
• develop knowledge and comprehension of optimisation methods and apply them to reactor engineering

Subject Assessment

• Practical Report - (10%)
• Reactor Design Project - (30%)
• Non-Invigilated > Assignments - (10%)
• Invigilated > Other exams - (50%)

Note that minor variations might occur due to the continuous subject quality improvement process, and in case of minor variation(s) in assessment details, the Subject Outline represents the latest official information.

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