CHE 492: Microbial Engineering
Fall 2017
Course Description: This course is intended to provide students with an understanding of the principles and processes involved in engineering microbial cells. Over the course of the semester, students will work in teams to design a microbial cell capable of producing a desired chemical. Topics will include genetic engineering techniques, metabolic engineering, and synthetic biology applications.
Course Description: This course is intended to provide students with an understanding of the principles and processes involved in engineering microbial cells. Over the course of the semester, students will work in teams to design a microbial cell capable of producing a desired chemical. Topics will include genetic engineering techniques, metabolic engineering, and synthetic biology applications.
CHE 354: Chemical Reactor Design
Spring 2015, 2016, 2018
Summer 2014, 2015
Book: Essentials of Chemical Reaction Engineering, H. Scott Fogler
Book Website
Course Description: Reaction rate equations and comparisons with experimental data; use of rate information for the design of chemical reactors.
Summer 2014, 2015
Book: Essentials of Chemical Reaction Engineering, H. Scott Fogler
Book Website
Course Description: Reaction rate equations and comparisons with experimental data; use of rate information for the design of chemical reactors.
CHE 304: Fluid Flow Operations
Fall 2014, 2015, 2016
Book: Transport Processes and Separation Principles, Christie John Geankoplis
Course Description: Equations of momentum and energy transport and their applications to the analysis of fluid process behavior, filtration, fluidization and metering of fluids.
Book: Transport Processes and Separation Principles, Christie John Geankoplis
Course Description: Equations of momentum and energy transport and their applications to the analysis of fluid process behavior, filtration, fluidization and metering of fluids.