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Fastställd 2024-09-12

Byggnaders energiprestanda - simulering och analys (ABY22W)

H3K3V (HT24, 25%, Dag, Normal, Borlänge, Omg. 2, ORD)

Litteratur

  • Allard, I., Nair, G., & Olofsson, T. (2021). Energy performance criteria for residential buildings: A comparison of Finnish, Norwegian, Swedish, and Russian building codes. Energy and Buildings, 250, s. 11276. DOI: 10.1016/j.enbuild.2021.111276
    Tidskriftsartikel
  • Allard, I., Olofsson, T., & Nair, G. (2017). Energy Performance Indicators in the Swedish Building Procurement Process. Sustainability, 9(10), s. 1877. DOI: 10.3390/su9101877
    Tidskriftsartikel
  • Beausoleil-Morrison, I. (2018). Learning the fundamentals of building performance simulation through an experiential teaching approach. Journal of Building Performance Simulation, 12(3), 308-325. DOI: 10.1080/19401493.2018.1479773
    Tidskriftsartikel
  • Cornaro, C., Puggioni, V. A., & Strollo, R. M. (2016). Dynamic simulation and on-site measurements for energy retrofit of complex historic buildings: Villa Mondragone case study. Journal of Building Engineering, 6, 17-28. DOI: 10.1016/j.jobe.2016.02.001
    Tidskriftsartikel
  • Hilliaho, K., Nordquist, B., Wallentèn, P., et al. (2016). Energy saving and indoor climate effects of an added glazed facade to a brick wall building: Case study. Journal of Building Engineering, 7, 246-262. DOI: 10.1016/j.jobe.2016.07.004
    Tidskriftsartikel
  • Hilliaho, K., Mäkitalo, E., & Lahdensivu, J. (2015). Energy saving potential of glazed space: Sensitivity analysis. Energy and Buildings, 99, 87-97. DOI: 10.1016/j.enbuild.2015.04.016
    Tidskriftsartikel
  • Hilliaho, K., Lahdensivu, J., & Vinha, J. (2015). Glazed space thermal simulation with IDA-ICE 4.61 software—Suitability analysis with case study. Energy and Buildings, 89, 132-141. DOI: 10.1016/j.enbuild.2014.12.041
    Tidskriftsartikel
  • Kauko, H., Alonso, M. J., Stavset, O., et al. (2014). Case Study on Residential Building Renovation and its Impact on the Energy Use and Thermal Comfort. Energy Procedia, 58, 160-165. DOI: 10.1016/j.egypro.2014.10.423
    Tidskriftsartikel
  • La Fleur, L., Moshfegh, B., & Rohdin, P. (2017). Measured and predicted energy use and indoor climate before and after a major renovation of an apartment building in Sweden. Energy and Buildings, 146, 98-110. DOI: 10.1016/j.enbuild.2017.04.042
    Tidskriftsartikel
  • LI, B. (2017). Use of Building Energy Simulation Software in Early-Stage of Design Process. (Doktorsavhandling, KTH Royal Institute of Technology, Sotckholm, Department of Civil and Environmental Engineering Degree Project No. 459, 2017). Hämtad från https://www.diva-portal.org/smash/get/diva2:1158865/FULLTEXT01.pdf.
    Avhandling
  • Liu, L., Moshfegh, B., Akander, J., et al. (2014). Comprehensive investigation on energy retrofits in eleven multi-family buildings in Sweden. Energy and Buildings, 84, 704-715. DOI: 10.1016/j.enbuild.2014.08.044
    Tidskriftsartikel
  • Manfren, M., Sibilla, M., & Tronchin, L. (2021). Energy Modelling and Analytics in the Built Environment—A Review of Their Role for Energy Transitions in the Construction Sector. Energies, 14(3), s. 679. DOI: 10.3390/en14030679
    Tidskriftsartikel
  • Niemelä, T., Kosonen, R., & Jokisalo, J. (2016). Cost-optimal energy performance renovation measures of educational buildings in cold climate. Applied Energy, 183, 1005-1020. DOI: 10.1016/j.apenergy.2016.09.044
    Tidskriftsartikel
  • Petrovic, B., Myhren, J. A., Zhang, X., et al. (2019). Life cycle assessment of a wooden single-family house in Sweden. Applied Energy, 251, s. 115. DOI: 10.1016/j.apenergy.2019.05.056
    Tidskriftsartikel
  • Poirazis, H., Blomsterberg, Å., & Wall, M. (2008). Energy simulations for glazed office buildings in Sweden. Energy and Buildings, 40(7), 1161-1170. DOI: 10.1016/j.enbuild.2007.10.011
    Tidskriftsartikel