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    Simulation of Heat Exchanger Performance by Artificial Neural Networks

    New search for: Díaz, Gerardo
    New search for: Sen, Mihir
    New search for: Yang, K. T.
    New search for: McClain, Rodney L.

    The artificial neural network technique was applied to heat transfer through a series of problems of increasing complexity. For the simplest problem of one-dimensional heat conduction with linear activation function, it is possible to give physical meaning to the synaptic weights of the network. A network with sigmoid activation function was used for non-linear representation of convection problems where identification of the weights with physical variables was not possible. Two cases of convective heat transfer with one and two heat transfer coefficients and artificially generated data were examined. Finally, the method was applied to the analysis of data obtained in the laboratory for a single-row, fin-tube heat exchanger. It is shown that a better prediction with smaller scatter is obtained in comparison to a conventional power-law correlation for the heat transfer coefficients.

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    Simulation of Heat Exchanger Performance by Artificial Neural Networks

    New search for: Díaz, Gerardo
    New search for: Sen, Mihir
    New search for: Yang, K. T.
    New search for: McClain, Rodney L.

    The artificial neural network technique was applied to heat transfer through a series of problems of increasing complexity. For the simplest problem of one-dimensional heat conduction with linear activation function, it is possible to give physical meaning to the synaptic weights of the network. A network with sigmoid activation function was used for non-linear representation of convection problems where identification of the weights with physical variables was not possible. Two cases of convective heat transfer with one and two heat transfer coefficients and artificially generated data were examined. Finally, the method was applied to the analysis of data obtained in the laboratory for a single-row, fin-tube heat exchanger. It is shown that a better prediction with smaller scatter is obtained in comparison to a conventional power-law correlation for the heat transfer coefficients.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Simulation of Heat Exchanger Performance by Artificial Neural Networks

    New search for: Díaz, Gerardo
    New search for: Sen, Mihir
    New search for: Yang, K. T.
    New search for: McClain, Rodney L.

    The artificial neural network technique was applied to heat transfer through a series of problems of increasing complexity. For the simplest problem of one-dimensional heat conduction with linear activation function, it is possible to give physical meaning to the synaptic weights of the network. A network with sigmoid activation function was used for non-linear representation of convection problems where identification of the weights with physical variables was not possible. Two cases of convective heat transfer with one and two heat transfer coefficients and artificially generated data were examined. Finally, the method was applied to the analysis of data obtained in the laboratory for a single-row, fin-tube heat exchanger. It is shown that a better prediction with smaller scatter is obtained in comparison to a conventional power-law correlation for the heat transfer coefficients.

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    Title:

    Simulation of Heat Exchanger Performance by Artificial Neural Networks

    Contributors:

    Díaz, Gerardo (author) / Sen, Mihir (author) / Yang, K. T. (author) / McClain, Rodney L. (author)

    Published in:

    HVAC&R Research ; 5 ; 195-208

    Publication date:

    1999-07-01

    Size:

    14 pages

    ISSN:

    1078-9669 , 1938-5587

    DOI:

    https://doi.org/10.1080/10789669.1999.10391233

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

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