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This course provides a comprehensive introduction to heat transfer fundamentals and their applications. The course introduces students to the analysis of steady-state and transient one- and multi-dimensional heat conduction. The course considers the analysis of heat transfer by convection using empirical and boundary layer approximations. Radiation heat transfer is considered with applications to multi-body radiation.
Washington Accord (V4) Summary of Graduate Attributes attained in this course: WA1 – Engineering Knowledge WA2 – Problem Analysis WA4 – Investigation WA8 – Individual and Collaborative TeamworkCourse topics with Learning Outcomes (and Washington Accord (WA) and UC Graduate Attributes) identified.1. Energy Balance on a Surface, Extended Surfaces 1.1. Understand a thermal system, develop the schematic diagram for the system, and apply energy balance and heat transfer models to develop governing equations (WA1, WA2) 1.2. Estimate heat transfer from Extended Surfaces, Radial Geometry, and involving Energy Generation (WA2)2. Heat Conduction: Modelling in 1-D, Steady State, Circuit Model, Solutions of Conduction Equations and Transient Heat Conduction 2.1. Calculate heat transfer rates as a function of geometry & materials in 1-D conduction using various tools (WA2) 2.2. Construct transient heat transfer analyses; test for lumped capacitance approximation and understand the assumptions (WA2)3. Convection Heat Transfer: Fundamentals, External Forced, Internal Forced, and Natural Convection 3.1. Understand and model thermal system with external forced, internal forced and natural convection heat transfer 3.2. Characterise geometry and flow conditions and apply appropriate convection models (WA2, WA4)4. Heat and Mass Transfer Analogy 4.1. Understand the analogy between heat and mass transfer. 5. Boiling and Condensation, Heat Exchangers 5.1. Understand the phenomena of boiling and condensation (WA2) 5.2. Conduct analysis to select & size heat exchangers (liquid-liquid, liquid gas, gas-gas), condensers & boilers (WA2)6. Radiation Heat Transfer: Fundamentals and Engineering 6.1. Understand key aspects of radiation heat transfer and solve simple problems (WA2) 6.2. Understand radiative properties and models, such as black body, surface emission and radiosity (WA2) 6.3. Understand and estimate view factors and compute radiation exchange between grey surfaces (WA2)7. Laboratories (WA9)
This course will provide students with an opportunity to develop the Graduate Attributes specified below:
Critically competent in a core academic discipline of their award
Students know and can critically evaluate and, where applicable, apply this knowledge to topics/issues within their majoring subject.
ENME215 or ENME204
ENME305
Students must attend one activity from each section.
David Denkenberger
For detailed course, policy, regulatory and integrity information, please refer to the UC web site, or see relevant Course or Department LEARN pages, (which are available to enrolled students).
Domestic fee $1,122.00
International fee $6,238.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Mechanical Engineering .