Publication detail
A novel turbine ventilator with a damper regulator to adjust exhausted air for energy-saving in buildings
Wang, B. Klemeš, J.J. Malášek, J. Hemzal, M. Liang, Y. Zeng, M.
English title
A novel turbine ventilator with a damper regulator to adjust exhausted air for energy-saving in buildings
Type
journal article in Web of Science
Language
en
Original abstract
Turbine ventilators are widely used for improving indoor air quality. However, the air exhaust flow rate of presently used turbine ventilators increases with wind speed, which results in a much higher air exchange rate than the required air exchange rate for air quality in the winter for heated buildings. A novel turbine ventilator with damper is developed in this paper for the energy saving of buildings under this circumstance. It could stabilise the air exchange rate in buildings to meet the minimum air quality requirement. Experiment and real site studies are conducted to test the performance of the novel device. The experiment verifies that the novel device could reduce unnecessary air exhaust flow rate when the wind speed is high compared with other presently used turbine ventilators. In a day when the wind speed is 8 m/s, the novel ventilator can reduce about 120 m3/h air volume flow compared with the presently used ventilator in both kitchen and toilet. The real site measurements show that in the conditions of city Brno-Bystrc, Czech Republic, the novel device can save about 30 EUR/y for one apartment on heating, and 2,160 EUR/y for a typical panel house (block of flats) which has three entrances, 72 apartments. © 2020 Elsevier Ltd
English abstract
Turbine ventilators are widely used for improving indoor air quality. However, the air exhaust flow rate of presently used turbine ventilators increases with wind speed, which results in a much higher air exchange rate than the required air exchange rate for air quality in the winter for heated buildings. A novel turbine ventilator with damper is developed in this paper for the energy saving of buildings under this circumstance. It could stabilise the air exchange rate in buildings to meet the minimum air quality requirement. Experiment and real site studies are conducted to test the performance of the novel device. The experiment verifies that the novel device could reduce unnecessary air exhaust flow rate when the wind speed is high compared with other presently used turbine ventilators. In a day when the wind speed is 8 m/s, the novel ventilator can reduce about 120 m3/h air volume flow compared with the presently used ventilator in both kitchen and toilet. The real site measurements show that in the conditions of city Brno-Bystrc, Czech Republic, the novel device can save about 30 EUR/y for one apartment on heating, and 2,160 EUR/y for a typical panel house (block of flats) which has three entrances, 72 apartments. © 2020 Elsevier Ltd
Keywords in English
Turbine ventilator; Novel damper; Heat loss prevention; Energy saving
Released
01.06.2021
Publisher
ELSEVIER, RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS
Location
ELSEVIER, RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS
ISSN
2352-7102
Number
38
Pages from–to
102141–102141
Pages count
13
BIBTEX
@article{BUT169784,
author="Bohong {Wang} and Jiří {Klemeš} and Milan {Hemzal} and Jiří {Malášek},
title="A novel turbine ventilator with a damper regulator to adjust exhausted air for energy-saving in buildings",
year="2021",
number="38",
month="June",
pages="102141--102141",
publisher="ELSEVIER, RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",
address="ELSEVIER, RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",
issn="2352-7102"
}