MECHENG 433//AUTO 533 Advanced Energy Solutions

MECHENG 433/AUTO 533 Advanced Energy Solutions  (Undergraduate & Graduate)  (2025 Winter, 2026 Winter)

Instructor: Prof. Jing Tang

Held Weekly: Tuesday & Thursday 10:30-12:00, 133 Chrysler, January 8 - April 22, 2025

Office Hours: After Class or By Appointment via Email

Course Description

This course provides an introduction to the challenges of power generation for a global society. The course starts with an overview of the current and future demands for energy, the various methods of power generation including fossil fuel, solar, thermal, wind, and nuclear, and the detrimental byproducts associated with these methods. Advanced strategies to improve power densities, reduce pollutant emissions and improve thermal efficiencies, such as advanced combustion cycles, batteries, and fuel cells for stationary and mobile power generation; synthetic and bio-renewable fuels; and reconfiguring power plants are the primary focus of the second half of the course. The material includes an emphasis on specific methods to improve energy efficiencies in the mobile transportation sector such as hybrid vehicles and ultracapacitors. Additional topics include the advantages and technical difficulties associated with a hydrogen economy including production, transport, storage, and application. The emphasis is on the application of thermodynamic analysis to understand the basic operating principles and the inherent limitations of the technologies considered.

Credits: 3

Download a sample syllabus


Prerequisite

ME 235 Thermodynamics

Courtesy: Professor Margaret Wooldridge who originally created MECHENG 433/AUTO 533: Advanced Energy Solutions, has discussed her Advanced Energy Systems course and emphasized the importance of understanding the principles behind the application and development of energy technology many years ago.

Prof. Margaret Wooldridge discusses a report from the National Academies, calling for increased research into another greenhouse gas to target for removal below.


Phys.org Q&A: Getting serious about atmospheric methane removal #climatechange