Reducing energy consumption in low energy buildings through implementation of a policy system used in automated heating systems

•We analyzed the behavior of a low-energy house built during cold season.•The temperature and air quality was kept in comfort values range due to the MVHR.•We obtained very low energy consumption using a smart control of the HVAC system.•The study shows a way to achieve the energy requirements for i...

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Bibliographic Details
Published in:Energy and buildings 2015-05, Vol.94, p.227-239
Main Authors: Carutasiu, Mihail-Bogdan, Tanasiev, Vladimir, Ionescu, Constantin, Danu, Alexandra, Necula, Horia, Badea, Adrian
Format: Article
Language:English
Subjects:
Energy consumption
HVAC system
Low-energy building
Monitoring system
Smart building controller
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Summary:•We analyzed the behavior of a low-energy house built during cold season.•The temperature and air quality was kept in comfort values range due to the MVHR.•We obtained very low energy consumption using a smart control of the HVAC system.•The study shows a way to achieve the energy requirements for implementing an nZEB. The objective of this article is to analyze the opportunity of the nearly zero energy building (nZEB) concept implementation in Romanian climate conditions. Similar with the values in European Union, the largest share of energy consumption in Romanian buildings is due to the interior space heating. Therefore, our study was concentrated on energy consumption and interior comfort level of the low-energy house, built in the campus of POLITEHNICA University of Bucharest. The study house was built in accordance with the Passive House Institute (PHI) standards and it's equipped with a monitoring and data acquisition system for research purposes. The implemented Smart Building Controller (SBC) has an execution mechanism driven by a complex set of “policies”, which activates the heating system. It was found that the implementation of the SBC assures an optimal interior comfort and the total energy consumption for heating didn’t exceed the value imposed by the PHI (15kWh/m2/year). The energy balance analysis indicates that the total energy consumption can be covert in a major percentage by the energy production system (photovoltaic panels), making the nZEB concept an achievable goal.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2015.03.008