International Journal of Energy and Power Engineering

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Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building

Received: 10 March 2013    Accepted:     Published: 20 June 2013
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Abstract

One-dimensional nonstationary heat transfer in three-layered building envelope is examined in this work. Therefore, initial and boundary conditions are examined. Possibility not only for modelling but for forecasting of heat transfer in capillary-porous structures of building envelopes is considered as well. For this purpose, time series analysis method was used. Standards for resistance of heat transfer in European countries and in Belarus are considered. Resistance to heat transfer of three-layer envelope where internal and exterior layers are precast layers and heat insulation is cellular polystyrene against heat insulation layer depth is examined as well.

DOI 10.11648/j.ijepe.20130203.12
Published in International Journal of Energy and Power Engineering (Volume 2, Issue 3, June 2013)
Page(s) 97-103
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Heat Transfer, Envelope, Temperature Variation, Heat Insulation, Layer Depth

References
[1] S. Kundas and E. Kresova. Forecasting of air temperature variation in heat transfer tasks of capillary-porous structures. In Proceedings of the First Virtual International Conference, Advanced Research in Scientific Areas, Slovak Republic, 2012.
[2] The national energy efficiency program for 2011 - 2015 years.
[3] Crosscutting agenda for design, building and reconstruction of power efficient apartment buildings in Belarus for 2009–2010 years and prospect to 2020 year.
[4] J. A. Clarke. Energy Simulation in Building Design. Adam Hilger Ltd., Bristol and Boston, 1985.
[5] H. Hens, editor (1995) Heat, Air and Moisture Transfer in Insulated Envelope Parts, several volumes. International Energy Agency, IEA, Energy Conservation in Buildings and Community Systems (BCS), Annex 24.
[6] Technical code of Belarus 45-2.04-43-2006(02250). Building heat engineering. Building design standard.
[7] S. P. Kundas, I. A. Gishkeluk, V. I. Kovalenko, O. S. Hilko. Computer modelling of contaminant migration in natural disperse media. Minsk, ISEU Press, 2011.
[8] О. Seppanen. Requirements for building energy efficiency in EU countries, Energy saving, №7/2010.
[9] M.D. Dettinger, M.Ghil, C.M.Strong, W.Weibel, and P.Yiou, Software expedites singular-spectrum analysis of noisy time series, Eos Trains. AGU, 76(2), 12, 1995.
[10] E.V. Kresova, S.P. Kundas. Time series analysis method application for forecasting of climate factors variations in heat and moisture transfer tasks. In Proceedings of the twelfth International Scientfic Conference, Sakharov Readings: Environmental Problems of the XXI century, Minsk, Belarus, 2012.
Author Information
  • International Sakharov Environmental University, ISEU, Minsk, Belarus

  • International Sakharov Environmental University, ISEU, Minsk, Belarus

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  • APA Style

    Semjen Kundas, Elena Kresova. (2013). Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building. International Journal of Energy and Power Engineering, 2(3), 97-103. https://doi.org/10.11648/j.ijepe.20130203.12

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    ACS Style

    Semjen Kundas; Elena Kresova. Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building. Int. J. Energy Power Eng. 2013, 2(3), 97-103. doi: 10.11648/j.ijepe.20130203.12

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    AMA Style

    Semjen Kundas, Elena Kresova. Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building. Int J Energy Power Eng. 2013;2(3):97-103. doi: 10.11648/j.ijepe.20130203.12

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  • @article{10.11648/j.ijepe.20130203.12,
      author = {Semjen Kundas and Elena Kresova},
      title = {Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building},
      journal = {International Journal of Energy and Power Engineering},
      volume = {2},
      number = {3},
      pages = {97-103},
      doi = {10.11648/j.ijepe.20130203.12},
      url = {https://doi.org/10.11648/j.ijepe.20130203.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijepe.20130203.12},
      abstract = {One-dimensional nonstationary heat transfer in three-layered building envelope is examined in this work. Therefore, initial and boundary conditions are examined. Possibility not only for modelling but for forecasting of heat transfer in capillary-porous structures of building envelopes is considered as well. For this purpose, time series analysis method was used. Standards for resistance of heat transfer in European countries and in Belarus are considered. Resistance to heat transfer of three-layer envelope where internal and exterior layers are precast layers and heat insulation is cellular polystyrene against heat insulation layer depth is examined as well.},
     year = {2013}
    }
    

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    T1  - Modelling and Forecasting of One-dimensional Nonstationary Heat Transfer in Building Envelopes for Energy Efficiency Building
    AU  - Semjen Kundas
    AU  - Elena Kresova
    Y1  - 2013/06/20
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    DO  - 10.11648/j.ijepe.20130203.12
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    JF  - International Journal of Energy and Power Engineering
    JO  - International Journal of Energy and Power Engineering
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    UR  - https://doi.org/10.11648/j.ijepe.20130203.12
    AB  - One-dimensional nonstationary heat transfer in three-layered building envelope is examined in this work. Therefore, initial and boundary conditions are examined. Possibility not only for modelling but for forecasting of heat transfer in capillary-porous structures of building envelopes is considered as well. For this purpose, time series analysis method was used. Standards for resistance of heat transfer in European countries and in Belarus are considered. Resistance to heat transfer of three-layer envelope where internal and exterior layers are precast layers and heat insulation is cellular polystyrene against heat insulation layer depth is examined as well.
    VL  - 2
    IS  - 3
    ER  - 

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