1. On the forecast control of heating system as an easily applicable measure to increase energy efficiency in existing buildings: Long term field evaluation.
- Author
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Cholewa, Tomasz, Siuta-Olcha, Alicja, Smolarz, Andrzej, Muryjas, Piotr, Wolszczak, Piotr, Guz, Łukasz, Bocian, Martyna, Sadowska, Gabriela, Łokczewska, Wiktoria, and Balaras, Constantinos A.
- Subjects
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HEATING control , *ENERGY consumption , *HEATING , *WEATHER control , *CARBON offsetting - Abstract
• Long term field evaluation of forecast control of heating. • Easy integration with existing installations in buildings. • Widely applicable measure for energy savings around 10%. • Payback time below one heating season. The priority for reaching carbon neutral buildings by 2050 is to first increase energy efficiency in existing buildings by use of easily and widely applicable measures that are verified based on long-term field research. One such solution is a forecast control of heating systems, which can be quickly and easily integrated to existing weather based controls. However, there are still no long-term field evaluation and detailed analyses of the main features of such a system, which would provide a clear picture about the system's energetical and economical features and thus increase their wide application in existing buildings. This paper provides the data from a long term field evaluation of an innovative forecast control of heating systems (forHEAT), which can be easily installed (in less than 2 h) and integrated with existing installations in millions of existing buildings in Europe and throughout the world. The energy consumption for heating was evaluated in seven residential buildings and three public office buildings before and after the installation and use of the forecast control. The resulting energy savings averaged 13.4% in the residential and 10.7% in the public buildings located in continental European climate, with very cold winters. The payback time averaged a 0.6 heating season and in most case studies does not exceed a single heating season. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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