Activities per year
Abstract
This study investigated the ventilation efficiency and energy performance of three ventilation strategies—an all-air system (AAS), a radiant panel system with a displacement ventilation system (DPS), and a radiant panel system with a decentralized ventilation system (DVS). The research analyzed the indoor air quality (IAQ) in a high-rise building based on the building’s height, the air handling unit (AHU) location, air infiltration rate, outdoor air pollution rate, seasonal change, and air filter efficiency. The results indicated that the AAS had the best performance in terms of IAQ in the high-rise building in winter; however, the AAS also had the highest annual energy demand. For the same conditions, the DVS consumed less energy but had the worst performance in main-taining a satisfactory IAQ. Considering energy consumption, it is worth developing the DVS further to improve ventilation performance. By applying a double-filter system on the lower floors in a high-rise building, the DVS’s ventilation performance was dramatically improved while at the same time consuming less energy than the original DPS and AAS. The application of DVS can also mini-mize the negative effect of the infiltration rate on indoor air quality (IAQ) in a building, which means that the DVS can better maintain IAQ within a healthy range for a more extended period. Moreover, it was found that the DVS still had a substantial potential for saving energy during the season when the outdoor air was relatively clean. Hence, it is highly recommended that the DVS is used in high-rise buildings.
Original language | English |
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Article number | 8453 |
Journal | Sustainability (Switzerland) |
Volume | 13 |
Issue number | 15 |
DOIs | |
Publication status | Published - 1 Aug 2021 |
Keywords
- Air filter efficiency
- Centralized ventilation
- Decentralized ventilation system
- High-rise building
- Indoor air quality
- Infiltration
Activities
- 1 PhD Supervision
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PhD thesis: Novel decentralized ventilation system with a hybrid radiant panel for low exergy and zero emission architecture
Martin Goffriller (Supervisor), Bing Chen (Co-supervisor), Huiqing Wen (Co-supervisor), Stephen Sharples (Co-supervisor) & Moon Keun Kim (Supervisor)
1 Dec 2018 → 31 Oct 2022Activity: Supervision › PhD Supervision