ME4160 Applications of Heat Transfer

Applications of heat transfer principles to engineering systems. Design topics include heat exchangers (e.g., boilers, condensers, coolers), cooling electronic components, heat pipes, solar collectors, turbine blade cooling.

Prerequisite

ME3150

Lecture Hours

4

Lab Hours

0

Course Learning Outcomes

  • Apply heat transfer principles to analyze and design engineering systems, focusing on heat exchangers such as boilers, condensers, coolers, and other relevant components.
  • Demonstrate understanding of heat transfer mechanisms and their applications in cooling electronic components, such as microprocessors and integrated circuits.
  • Evaluate the design and performance of heat pipes, including their applications in heat transfer and thermal management systems.
  • Analyze and design solar collectors for efficient heat absorption and transfer in renewable energy systems.
  • Assess turbine blade cooling techniques and their significance in improving the efficiency and durability of turbine systems.
  • Apply mathematical modeling and simulation techniques to predict heat transfer behavior and optimize the design of engineering systems.
  • Demonstrate proficiency in selecting appropriate heat transfer solutions for specific engineering applications, considering factors such as efficiency, cost, and environmental impact.
  • Communicate effectively through written reports and presentations, conveying heat transfer analysis results and design recommendations to stakeholders.