The effect of phase-changing material thickness on light construction building indoor temperature
Апстракт
Due to the excessive use of air conditioners and heating systems, energy consumption by the builiding sector has been growing significantly in recent years, which leads to the accelerated depletion of conventional energy sources and to the fact that renewable energy sources are becoming more and more popular. Phase change materials are suitable for use in latent heat energy storage technology due to their high storage density and stable thermal properties. The thickness of phase change materials (PCMs) added to the thermal envelope of a lightweight building is investigated in this study. The simulations were run for 7 days in July, which was determined to be the hottest period of the summer based on the Meteonorm weather file, and when it is difficult to maintain thermal comfort without using a lot of energy. The thermal behavior of the building without PCM and with builtin PCM in the envelope of the building in one wall on the south side and on the ceiling, with different thicknesses ...of phase-changing material was simulated and the results obtained were analyzed with the aim of establishing which thickness of phase-changing material is optimal for installation in the envelope of the building
Кључне речи:
Building / PCM / Phase-change material / TRNSYSИзвор:
ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings, 2023, 281-290Издавач:
- University of Belgrade : Faculty of Agriculture : The Institute for Agricultural Engineering
Финансирање / пројекти:
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200017 (Универзитет у Београду, Институт за нуклеарне науке Винча, Београд-Винча) (RS-MESTD-inst-2020-200017)
Напомена:
- The 6th International Symposiumon Agricultural Engineering; Oct 19-21, Belgrade, 2023.
Колекције
Институција/група
VinčaTY - CONF AU - Vučićević, Biljana AU - Mrđa, Dragoslav AU - Turanjanin, Valentina AU - Mladenović, Milica AU - Škobalj, Predrag PY - 2023 UR - https://vinar.vin.bg.ac.rs/handle/123456789/12476 AB - Due to the excessive use of air conditioners and heating systems, energy consumption by the builiding sector has been growing significantly in recent years, which leads to the accelerated depletion of conventional energy sources and to the fact that renewable energy sources are becoming more and more popular. Phase change materials are suitable for use in latent heat energy storage technology due to their high storage density and stable thermal properties. The thickness of phase change materials (PCMs) added to the thermal envelope of a lightweight building is investigated in this study. The simulations were run for 7 days in July, which was determined to be the hottest period of the summer based on the Meteonorm weather file, and when it is difficult to maintain thermal comfort without using a lot of energy. The thermal behavior of the building without PCM and with builtin PCM in the envelope of the building in one wall on the south side and on the ceiling, with different thicknesses of phase-changing material was simulated and the results obtained were analyzed with the aim of establishing which thickness of phase-changing material is optimal for installation in the envelope of the building PB - University of Belgrade : Faculty of Agriculture : The Institute for Agricultural Engineering C3 - ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings T1 - The effect of phase-changing material thickness on light construction building indoor temperature SP - 281 EP - 290 UR - https://hdl.handle.net/21.15107/rcub_vinar_12476 ER -
@conference{ author = "Vučićević, Biljana and Mrđa, Dragoslav and Turanjanin, Valentina and Mladenović, Milica and Škobalj, Predrag", year = "2023", abstract = "Due to the excessive use of air conditioners and heating systems, energy consumption by the builiding sector has been growing significantly in recent years, which leads to the accelerated depletion of conventional energy sources and to the fact that renewable energy sources are becoming more and more popular. Phase change materials are suitable for use in latent heat energy storage technology due to their high storage density and stable thermal properties. The thickness of phase change materials (PCMs) added to the thermal envelope of a lightweight building is investigated in this study. The simulations were run for 7 days in July, which was determined to be the hottest period of the summer based on the Meteonorm weather file, and when it is difficult to maintain thermal comfort without using a lot of energy. The thermal behavior of the building without PCM and with builtin PCM in the envelope of the building in one wall on the south side and on the ceiling, with different thicknesses of phase-changing material was simulated and the results obtained were analyzed with the aim of establishing which thickness of phase-changing material is optimal for installation in the envelope of the building", publisher = "University of Belgrade : Faculty of Agriculture : The Institute for Agricultural Engineering", journal = "ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings", title = "The effect of phase-changing material thickness on light construction building indoor temperature", pages = "281-290", url = "https://hdl.handle.net/21.15107/rcub_vinar_12476" }
Vučićević, B., Mrđa, D., Turanjanin, V., Mladenović, M.,& Škobalj, P.. (2023). The effect of phase-changing material thickness on light construction building indoor temperature. in ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings University of Belgrade : Faculty of Agriculture : The Institute for Agricultural Engineering., 281-290. https://hdl.handle.net/21.15107/rcub_vinar_12476
Vučićević B, Mrđa D, Turanjanin V, Mladenović M, Škobalj P. The effect of phase-changing material thickness on light construction building indoor temperature. in ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings. 2023;:281-290. https://hdl.handle.net/21.15107/rcub_vinar_12476 .
Vučićević, Biljana, Mrđa, Dragoslav, Turanjanin, Valentina, Mladenović, Milica, Škobalj, Predrag, "The effect of phase-changing material thickness on light construction building indoor temperature" in ISAE 2023 : The 6th International Symposiumon Agricultural Engineering : Proceedings (2023):281-290, https://hdl.handle.net/21.15107/rcub_vinar_12476 .