1. On Implementation of Plants in the Indoor Environment in Intelligent Buildings
- Author
-
Ondřej Franek and Čeněk Jarský
- Subjects
Environmental Engineering ,Renewable Energy, Sustainability and the Environment ,Air comfort ,Climate Change ,media_common.quotation_subject ,Environmental engineering ,Indoor greening ,Carbon Dioxide ,Management, Monitoring, Policy and Law ,Pollution ,law.invention ,chemistry.chemical_compound ,Indoor air quality ,chemistry ,law ,Range (aeronautics) ,Carbon dioxide ,Ventilation (architecture) ,Environmental science ,Quality (business) ,Indoor Environment ,Waste Management and Disposal ,Air quality index ,media_common - Abstract
The article deals with the research of the influence of plants on the potential energy savings in the field of ventilation of intelligent buildings. It is known that selected plants can effectively reduce the concentration of carbon dioxide even in the indoor environment of buildings in poor lighting conditions. The paper presents a theoretical simulation method that shows the potential of selected plants to reduce the concentration of carbon dioxide in the indoor environment and thus reduce the requirement for the amount of supplied air in intelligent buildings which are air-conditioned based on the current and required concentration of carbon dioxide. The results of the research are very influential; in terms of overall percentage savings, plants have the most significant effect in buildings with lower indoor air quality (IDA4+), while they have a less significant effect in areas with high air quality according to carbon dioxide concentration (IDA2, IDA3). Research with the help of computer simulation shows that the implementation of 1 m2 of living green plants, depending on the quality class of the IDA indoor environment, can bring savings on the amount of supplied air in the range of 0.058 % to 1.997 % for a typical office for 4 people.
- Published
- 2021