M.W. Browne scite author profile

SUMMARYThe aim of this paper is to model the steady-state performance of a vapour-compression liquid heat pump with the use of neural networks. The model uses a generalized radial basis function (GRBF) neural network. Its input vector consists only of parameters that are easily measurable, i.e. the chilled water outlet temperature from the evaporator, the cooling water inlet temperature to the condenser and the evaporator capacity. The model then predicts relevant performance parameters of the heat pump, especially the coe$cient of performance (COP). Models are developed for three di!erent refrigerants, namely LPG, R22 and R290. It is found that not every model achieves the same accuracy. Predicted COP values, when LPG or R22 are used as refrigerant, are usually accurate to within 2 per cent, whereas many predictions for R290 deviate more than $10 per cent.

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Transient simulation of vapour-compression packaged liquid chillers

Browne

Bansal

2002

International Journal of Refrigeration

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Heat transfer characteristics of boiling phenomenon in flooded refrigerant evaporators

Browne

Bansal

1999

Applied Thermal Engineering

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M.W. Browne

New approach to dynamic modelling of vapour-compression liquid chillers: artificial neural networks

An elemental NTU-ε model for vapour-compression liquid chillers

Neural networks?a new approach to model vapour-compression heat pumps

Transient simulation of vapour-compression packaged liquid chillers

Heat transfer characteristics of boiling phenomenon in flooded refrigerant evaporators

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