1.1 apply Fourier’s law and the Newton rate equa

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1.1 apply Fourier’s law and the Newton rate equation to composite solids and fluid/solid interfaces

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Learning outcomes

On successful completion of

this unit a learner will:

Assessment criteria for pass

The learner can:

 

LO1 Understand heat transfer

rates for composite systems

 

1.1 apply Fourier’s law and the Newton rate equation to

composite solids and fluid/solid interfaces

1.2 calculate heat transfer rates for combined modes

including radiation

1.3 evaluate lagging for optimum performance

 

LO2 Understand heat transfer

mechanisms and coefficients

 

2.1 apply dimensional analysis to energy and mass

transfer relationships

2.2 evaluate heat transfer mechanisms

2.3 determine heat transfer coefficients using

experimental and tabulated data

 

LO3 Be able to evaluate heat

transfer equipment

 

3.1 evaluate various types and layout of recuperators

3.2 estimate heat transfer performance

3.3 specify recuperator type, size and fluids for given

Applications

 

LO4 Be able to analyse the

combustion processes

 

4.1 derive combustion equations

4.2 determine calorific value

4.3 analyse products of combustion.