Automated energy performance certificate based urban building energy modelling approach for predicting heat load profiles of districts.
Heidenthaler, D., Deng, Y., Leeb, M., Grobbauer, M., Kranzl, L., Seiwald, L., Mascherbauer, P., Reindl, P., & Bednar, T. (2023).
Automated energy performance certificate based urban building energy modelling approach for predicting heat load profiles of districts. Energy, 278.
https://doi.org/10.1016/j.energy.2023.128024
https://pure.fh-salzburg.ac.at/en/publications/automated-energy-performance-certificate-based-urban-building-ene/
Characterizing the energy flexibility of districts using urban building energy modelling.
Heidenthaler, D., Leeb, M., Moltinger, M., & Bednar, T. (2023).
Characterizing the energy flexibility of districts using urban building energy modelling. In Building Simulation Conference Proceedings
https://doi.org/10.26868/25222708.2023.1285
https://pure.fh-salzburg.ac.at/en/publications/characterizing-the-energy-flexibility-of-districts-using-urban-bu/
Modelling virtual sensors for real-time indoor comfort control.
Edtmayer, H., Brandl, D., Mach, T., Schlager, E., Gursch, H., Lugmair, M., & Hochenauer, C. (2023). Modelling virtual sensors for real-time indoor comfort control. J. Build. Eng., 67.
https://doi.org/10.1016/j.jobe.2023.106040
https://pure.fh-salzburg.ac.at/en/publications/modelling-virtual-sensors-for-real-time-indoor-comfort-control/
Development of a timber construction system for redensification
Wieder, E., Gnigler, M., Schweiger, A., Grobbauer, M., & Grobbauer, M. (2023).
Development of a timber construction system for redensification — system description and application. In Zentrum Alpines Bauen 2018 to 2022
Center for Alpine Construction 2018–2022: Interdisciplinary contributions to structural redensification.
Moltinger, M., Seiwald, L., Leeb, M., Wieder, E., Heidenthaler, D., Reindl, P., & Grobbauer, M. (2023). Center for Alpine Construction 2018–2022: Interdisciplinary contributions to structural redensification.