Autors: Heidarinejad, M., Mattise, N.W., Dahlhausen, M., Nikkho, S.K., Liu, J., Gracik, S., Liu, K., Sharma, K., Zhang, H., Wentz, J.R., Roudsari, M.S., Pitchurov, G. T., Srebric, J.
Title: Urban scale modeling of campus building using virtual pulse
Keywords: Energy utilization, Building energy simulations, Urban neigh

References

    Issue

    Building Simulation 2015, pp. 1861-1868, 2015, India, International Building Performance Simulation Association

    Цитирания (Citation/s):
    1. Heidarinejad, M., Mattise, N., Sharma, K., Srebric, J. Creating Geometry with Basic Shape Templates in OpenStudio (2017) Procedia Engineering, 205, pp. 1990-1995, DOI: 10.1016/j.proeng.2017.10.068 - 2017 - в издания, индексирани в Scopus или Web of Science
    2. Heidarinejad, M., Mattise, N., Dahlhausen, M., Sharma, K., Benne, K., Macumber, D., Brackney, L., Srebric, J. Demonstration of reduced-order urban scale building energy models (2017) Energy and Buildings, 156, pp. 17-28, DOI: 10.1016/j.enbuild.2017.08.086 - 2017 - в издания, индексирани в Scopus или Web of Science
    3. Frayssinet, L., Merlier, L., Kuznik, F., Hubert, J.-L., Milliez, M., Roux, J.-J. Modeling the heating and cooling energy demand of urban buildings at city scale (2018) Renewable and Sustainable Energy Reviews, 81, pp. 2318-2327. DOI: 10.1016/j.rser.2017.06.040 - 2018 - в издания, индексирани в Scopus или Web of Science
    4. Fathollahzadeh, M.H., Tabares-Velasco, P.C. Building control virtual test bed and functional mock-up interface standard: comparison in the context of campus energy modelling and control (2020) Journal of Building Performance Simulation, 13 (4), pp. 456-471. DOI: 10.1080/19401493.2020.1769191 - 2020 - в издания, индексирани в Scopus или Web of Science
    5. Nikkho, S. K., Heidarinejad, M., Liu, J., & Srebric, J. (2017). Quantifying the impact of urban wind sheltering on the building energy consumption. Applied Thermal Engineering, 116, 850-865. https://doi.org/10.1016/j.applthermaleng.2017.01.044 - 2017 - в издания, индексирани в Scopus или Web of Science
    6. Nytsch-Geusen, C., Kreulitsch, D., & Kaul, W. (2018). GIS-basierte enegertische Modellierung und Simulation von Stadtquartieren aus dem Bestand auf Basis von Modelica. BauSim2018, Modellierung und Simulation im Lebenszyklus von Gebäuden. - 2018 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    7. Dahlhausen, M. (2020). Determining Measurement Requirements for Whole Building Energy Model Calibration (Doctoral dissertation, University of Maryland, College Park). - 2020 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    8. Kuznik, F., Frayssinet, L., Roux, J.-J., Merlier, L. Calculation of heating and cooling energy loads at the district scale: Development of MoDEM, a modular and technologically explicit platform (2022) 83, art. no. 103901, DOI: 10.1016/j.scs.2022.103901 - 2022 - в издания, индексирани в Scopus или Web of Science
    9. Long, N., Gautier, A., Elarga, H., Allen, A., Summer, T., Klun, L., Moore, N., Wetter, M. Modeling district heating and cooling systems with URBANopt, GeoJSON to Modelica Translator, and the Modelica Buildings Library (2022) pp. 2187-2194, DOI: 10.26868/25222708.2021.30943 - 2022 - в издания, индексирани в Scopus или Web of Science
    10. Pasandi, L., Qian, Z., Woo, W.L., Palacin, R. A comprehensive review of applications and feedback impact of microclimate on building operation and energy (2024) 263, art. no. 111855, DOI: 10.1016/j.buildenv.2024.111855 - 2024 - в издания, индексирани в Scopus или Web of Science

    Вид: публикация в международен форум, публикация в реферирано издание, индексирана в Scopus