Detailed module information

Thermodynamics 2

Module aims

This module builds on ME1 Thermodynamics to develop an understanding of the principles of a variety of industrially-significant processes concerned with energy conversion and use, and of the design and operation of plant relying on those processes including gas and steam turbines, boilers and heat exchangers, reciprocating engines, refrigeration and air-conditioning plant.

ECTS units: 5

Learning outcomes

Recall the principles of design and operation of a variety of industrially-significant equipment concerned with energy conversion and use;

Describe the thermodynamics processes involved, using the appropriate terminology;

Identify appropriate parameters and criteria for assessing the performance of devices or processes;

Identify interactions between thermodynamics and other engineering disciplines in the design of components and systems;

Compare the performance of real plant with ideal models for several gas and vapour power cycles, refrigeration/heat pump cycles and gas liquefication processes;

Analyse processes involving ideal gas and gas-vapour mixtures, analytically and by use of psychrometric charts;

Use the laws of thermodynamics and fluid mechanics to make preliminary analyses and designs of axial-flow turbomachine states;

Determine the irreversibility and exergy change in processes involving turbomachines, heat exchangers, valves etc;

Account for chemical reactions in solving simple problems on combustion and demonstrate awareness of their environmental consequences;

Use a variety of measuring techniques for pressure, temperature, dryness fraction, humidity, flow rate, torque and power (met during laboratory investigations of the operation and performance of an air conditioning unit and a steam power plant);

Work effectively within a small group to plan, execute and communicate results from an experimental study.

Module syllabus

Introduction and revision of ME1 course

Power cycles and power plant

Gas turbine engines

Gas and gas-vapour mixtures

Refrigeration, heat pump and gas liquefaction cycles and plant

Thermodynamics of turbomachinery

Entropy and Exergy  

Combustion

Pre-requisites

 ME1-hTHD

Teaching methods

Students will be introduced to the main topics through lectures, supported by technology (PowerPoint, Panapto and Blackboard). Short activities (using interactive pedagogies) will occasionally be introduced in the classroom setting to reinforce learning, for example through mentimeter and the like. You will be provided with problem solving sheets and should complete these as part of your independent study. Tutorials sessions will provide small group interaction with teaching staff where you are expected to engage in discussion on specific problems. 

Assessments

Reading list

Supplementary readings

• Thermodynamics : an engineering approach.

  Çengel, Yunus A., author.

  Tenth edition / Yunus A. Çengel, Michael A. Boles, Mehmet Kanoğlu., McGraw Hill

• Thermodynamics for engineers

  Wong, Kau-Fui Vincent.

  2nd ed., CRC Press

• Fundamentals of thermodynamics

  Borgnakke, Claus.

  8th ed., John Wiley & Sons Inc.

• Gas turbine theory

  Saravanamuttoo, H. I. H., author.

  Seventh edition., Pearson

Module leaders

Dr Huizhi Wang