The University of Southampton
Courses

# SESM6046 Heat Transfer and Applications

## Module Overview

This module gives a comprehensive coverage of the classical heat transfer syllables, including steady and transient heat conduction, convection and radiation. While the underlying mathematics are properly elaborated, their conceptual significance and physical interpretations are emphasised and enforced through in-class examples. Numerical methods are introduced for problems in 2-3 dimensions and the use of commercial software such as AnsysTM is introduced. In addition to the traditional analysis of heat exchangers, the application section is expanded to introduce heat transfer engineering at different heat flux and/or temperature differences, with emphasis on energy systems and the thermal management of electronic components/devices.

### Aims and Objectives

#### Module Aims

â€¢ To give coherent and rigorous treatises of the mechanisms and analysis of heat transfer phenomena routinely encountered in a wide range of mechanical engineering themes. â€¢ To develop a concrete understanding of heat transfer as a generic mechanical engineering subject by reviewing classical and modern applications for different scenarios. â€¢ To develop practical and transferable problem solving skills including conceptual evaluation, analytical solutions and numerical modelling.

#### Learning Outcomes

##### Knowledge and Understanding

Having successfully completed this module, you will be able to demonstrate knowledge and understanding of:

• The mechanisms for different heat transfer modes and their relevance to a wide range of mechanical engineering themes [Contributes to AHEP learning outcomes Sm1, Sm2, Sm3, Sm5m, Sm8M].
• The engineering practices for enhancing heat transfer or increasing thermal insulation [Contributes to AHEP learning outcomes Sm1, Sm3].
• The mathematical underpinning of heat transfer analysis and corresponding problem solving techniques [Contributes to AHEP learning outcomes Sm1, Sm2, Sm3, Sm5, Sm8M].
• The relevant thermal properties of materials and working fluids and the considerations for material selection according application requirements Contributes to AHEP learning outcomes Sm1, Sm2, Sm3, Sm5m, Sm8M].
• The use commercial software for heat transfer analysis [Contributes to AHEP learning outcomes Sm1, Sm2, Sm3, Sm5m, Sm8M, P3].
• The roles of heat transfer analysis in system design [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].
##### Subject Specific Intellectual and Research Skills

Having successfully completed this module you will be able to:

• Be able to independently assess the relevance and impact of heat transfer process in a given engineering application/context [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].
• Identify and advise the dominant heat transfer mode and qualitative estimation of its importance [Contributes to AHEP learning outcomes Sm3, Sm8M].
• Be able to appreciate and discuss with specialists the best heat transfer solutions [Contribute to AHEP learning outcomes EA1m, EA2, EA3m, EA4m, EA5m, EA6m]
• Be able to perform heat transfer analysis as a part of system design [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m].
##### Transferable and Generic Skills

Having successfully completed this module you will be able to:

• Work as heat transfer and thermal analysis specialist as part of design teams [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P, G4]
• Apply the underlying mathematical analysis used in heat transfer to other engineering problems [Contributes to AHEP learning outcomes Sm3, SM8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].
• Application to the heat transfer conceptual design and analysis for system integration into an engineering equipment [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].
##### Subject Specific Practical Skills

Having successfully completed this module you will be able to:

• Abstract and formulate the heat transfer analysis for a given engineering problem by applying the appropriate equations and/or correlations [Contributes to AHEP learning outcomes Sm3, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m].
• Use the appropriate method (conceptual, analytical and numerical) to obtain the solution for a given heat transfer problem [Contributes to AHEP learning outcomes Sm3, Sm5m, Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m]
• Evaluate and critically assess the heat transfer analysis presented [Contributes to AHEP learning Sm8M, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].
• Outline engineering design for heat transfer applications [Contributes to AHEP learning outcomes Sm3, EA1m, EA2, EA3m, EA4m, EA5m, EA6m, P1].

### Syllabus

#### Special Features

Some in-class demonstrations of advanced heat transfer phenomena such as hysteresis in boiling heat transfer and working of heat pipes

### Learning and Teaching

#### Teaching and learning methods

The teaching method is based primarily classroom teaching, which consists of systematic development of theoretical fundamentals and problem solving through examples. Comprehensive lecture notes are provided. Problem sheets and solutions are distributed by stages to aid independent study. Some in-class demonstrations (boiling heat transfer, heat pipes etc) are used. Computer based sessions are used for the numerical modelling content.

TypeHours
Revision18
Lecture36
Tutorial3
Follow-up work36
Practical classes and workshops6
Preparation for scheduled sessions36
Total study time150

Jack P. Holman, Heat Transfer (2009). Heat Transfer.

Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine (2012). Principles of Heat and Mass Transfer.

Younes Shabany (2010). Heat Transfer: Thermal Management of Electronics.

### Assessment

#### Summative

MethodPercentage contribution
Coursework 30%
Examination 70%

#### Repeat

MethodPercentage contribution
Examination 100%

#### Referral

MethodPercentage contribution
Examination 100%

#### Repeat Information

Repeat type: Internal & External