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    Heat transfer

    New search for: Hens, S. L. C. Hugo

    This first chapter on heat transfer starts with what heat and temperature mean, including the definitions of heat flow and flux. Then we consider heat transfer by conduction in steady and transient states through flat, two‐ and three‐dimensional assemblies, with the thermal resistance and harmonic properties of flat assemblies as usable quantities. Next, the scope moves to the heat exchange at surfaces, looking at convection, so fixing the convective surface film coefficient, and radiation, translated into a radiant surface film coefficient. Surface film coefficients inside and outside and related reference temperatures are considered. Closing topics include the thermal transmittance of single and composite wall assemblies; the thermal resistance of cavities; temperature profiles; thermal bridges; the solar transmittance of glazing, the thermal transmittence of glazing and windows; the mean thermal transmittance of envelopes; the harmonic properties ambient to ambient; and temperature damping in indoor spaces.

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    Heat transfer

    New search for: Hens, S. L. C. Hugo

    This first chapter on heat transfer starts with what heat and temperature mean, including the definitions of heat flow and flux. Then we consider heat transfer by conduction in steady and transient states through flat, two‐ and three‐dimensional assemblies, with the thermal resistance and harmonic properties of flat assemblies as usable quantities. Next, the scope moves to the heat exchange at surfaces, looking at convection, so fixing the convective surface film coefficient, and radiation, translated into a radiant surface film coefficient. Surface film coefficients inside and outside and related reference temperatures are considered. Closing topics include the thermal transmittance of single and composite wall assemblies; the thermal resistance of cavities; temperature profiles; thermal bridges; the solar transmittance of glazing, the thermal transmittence of glazing and windows; the mean thermal transmittance of envelopes; the harmonic properties ambient to ambient; and temperature damping in indoor spaces.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Heat transfer

    New search for: Hens, S. L. C. Hugo

    This first chapter on heat transfer starts with what heat and temperature mean, including the definitions of heat flow and flux. Then we consider heat transfer by conduction in steady and transient states through flat, two‐ and three‐dimensional assemblies, with the thermal resistance and harmonic properties of flat assemblies as usable quantities. Next, the scope moves to the heat exchange at surfaces, looking at convection, so fixing the convective surface film coefficient, and radiation, translated into a radiant surface film coefficient. Surface film coefficients inside and outside and related reference temperatures are considered. Closing topics include the thermal transmittance of single and composite wall assemblies; the thermal resistance of cavities; temperature profiles; thermal bridges; the solar transmittance of glazing, the thermal transmittence of glazing and windows; the mean thermal transmittance of envelopes; the harmonic properties ambient to ambient; and temperature damping in indoor spaces.

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    Title:

    Heat transfer

    Contributors:

    Hens, S. L. C. Hugo (author)

    Published in:

    Building Physics ‐ Heat, Air and Moisture 3e Fundamentals and Engineering Methods with Examples and Exercises ; 15-124

    Publication date:

    2017-10-02

    Size:

    110 pages

    ISBN:

    9783433608548 , 9783433031971

    DOI:

    https://doi.org/10.1002/9783433608548.ch1

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    German

    Keywords:

    heat conduction , thermal transmittance , solar transmittance , cavities , temperature , convection , radiation , temperature damping , heat , thermal bridge

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