Teaching

Fall 2021: Materials Design for Energy Application (CHE5533)

Spring 2021: Advanced Process Design (CHE 4273)

Spring 2021: Advanced Chemical Engineering Thermodynamics (CHE 5843)

Fall 2019: Numerical Methods (CHE 3723)

Spring 2019: Advanced Chemical Engineering Thermodynamics (CHE 5843)

Fall 2018: Numerical Methods (CHE 3723)

Fall 2017: Numerical Methods (CHE 3723)

Fall 2017: Materials Design for Energy Application (CHE5533)

Spring 2017: Advanced Process Design (CHE 4273)

The objective of this class is to design a stationary battery for a 3-bedroom house, which applies CHE fundamentals, thermodynamics, materials science, numerical simulations etc.

Spring 2017: Advanced Chemical Engineering Thermodynamics (CHE 5843)

The objective of this class is to connect the principles, concepts, and laws/postulates of classical and statistical thermodynamics to applications that require quantitative knowledge of thermodynamic properties from a macroscopic to a molecular level.

Fall 2016: Materials Design for Energy Application (CHE5533)

This course is designed to help understanding electrochemical engineering and its application in various energy-related research, such as batteries, fuel cells, and hydrogen generation. The class is focused on addressing issues in these applications from a materials science perspective.

Spring 2016: Advanced Process Design (CHE 4273)

The objective of this class is to design a battery package for a EV to commute between OKC and Norman

Spring 2016: Advanced Chemical Engineering Thermodynamics (CHE 5843)

The objective of this class is to connect the principles, concepts, and laws/postulates of classical and statistical thermodynamics to applications that require quantitative knowledge of thermodynamic properties from a macroscopic to a molecular level.

Fall 2015: Numerical Methods (CHE 3723)

Students will understand truncation error, round off error, and convergence and how they apply to numerical approximations of the solutions to equations. Students will be able to obtain numerical solutions to non-linear algebraic equations, systems of linear equations, definite integrals, non-linear ordinary differential equations, and curve fitting problems. Students will become proficient in formulating the numerical solution to a mathematical problem using Excel with Visual Basic (VB).

Spring 2015:  Materials Design for Energy Application CHE 5480

This course is designed to help understanding electrochemical engineering and its application in various energy-related research, such as batteries, fuel cells, and hydrogen generation. The class is focused on addressing issues in these applications from a materials science perspective.