Heating control schemes for energy management in buildings

Because of both the global energy crisis and the necessary improvement of energy efficiency in buildings, one of the largest sectors of energy consumption and greenhouse gases emissions, a strategy allowing managing energy resources is proposed. Its aim is reducing energy consumption and promoting t...

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Veröffentlicht in:	Energy and buildings 2010-10, Vol.42 (10), p.1908-1917
Hauptverfasser:	Paris, Benjamin, Eynard, Julien, Grieu, Stéphane, Talbert, Thierry, Polit, Monique
Format:	Artikel
Sprache:	eng
Schlagworte:	Automatic Buildings Energy consumption Energy management Energy management strategy Energy use Engineering Sciences Fuzzy Logic Control (FLC) Heating Mathematical models Model Predictive Control (MPC) Multi-energy buildings PID Proportional integral derivative Strategy Temperature control
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container_end_page	1917
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container_title	Energy and buildings
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creator	Paris, Benjamin Eynard, Julien Grieu, Stéphane Talbert, Thierry Polit, Monique
description	Because of both the global energy crisis and the necessary improvement of energy efficiency in buildings, one of the largest sectors of energy consumption and greenhouse gases emissions, a strategy allowing managing energy resources is proposed. Its aim is reducing energy consumption and promoting the use of renewable energy, while ensuring thermal comfort, when heating “multi-energy” buildings, thanks to indoor temperature control schemes. Three schemes (based on a commonly used PID controller and on the combination of PID and model predictive or fuzzy controllers) were tested in simulation, using dynamic models describing the thermal behavior of a building, and fully met the management strategy's requirements, especially reducing the consumption of fossil energy. Three criteria describing the way energy is used and controlled in real-time were defined with the aim of evaluating the control schemes performance and adapting the strategy to the specific use of a building. The PID-MPC provided the best results while the PID-FLC proved to be a very good compromise, thanks to both the flexibility and the adaptability offered by fuzzy logic, between the easy-to-develop but not-very-efficient PID and the efficient but hard-to-develop PID-MPC.
doi_str_mv	10.1016/j.enbuild.2010.05.027
format	Article
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source	Elsevier ScienceDirect Journals
subjects	Automatic Buildings Energy consumption Energy management Energy management strategy Energy use Engineering Sciences Fuzzy Logic Control (FLC) Heating Mathematical models Model Predictive Control (MPC) Multi-energy buildings PID Proportional integral derivative Strategy Temperature control
title	Heating control schemes for energy management in buildings
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