Adaptive predictive control of thermo-active building systems (TABS) based on a multiple regression algorithm

•Adaptive and predictive computation method for the control of TABS.•No parameterization of heating and cooling curves is necessary.•Saving of pump-running time of up to 81% while increasing thermal comfort.•The algorithm has the possibility to define a set-point room temperature. There is a growing...

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Published inEnergy and buildings Vol. 103; pp. 14 - 28
Main Authors Schmelas, Martin, Feldmann, Thomas, Bollin, Elmar
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.09.2015
Subjects
Adaptive predictive control
Concrete core activation
Multiple regression
Thermal comfort
Thermo-activate building system (TABS)
Adaptive predictive control
Thermal comfort
Thermo-activate building system (TABS)
Concrete core activation
Multiple regression
Online AccessGet full text
ISSN0378-7788
DOI10.1016/j.enbuild.2015.06.012

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Abstract •Adaptive and predictive computation method for the control of TABS.•No parameterization of heating and cooling curves is necessary.•Saving of pump-running time of up to 81% while increasing thermal comfort.•The algorithm has the possibility to define a set-point room temperature. There is a growing trend toward the use of thermo-active building systems (TABS) for heating and cooling buildings, since these systems are known to be very economical and efficient. However, due to the large thermal inertia, the control of these systems turns out to be complicated and time-consuming in the parameterization. With standard control strategies, the required thermal comfort in buildings often cannot be met, especially if the internal heat sources are suddenly changed. This paper presents a novel adaptive and predictive computation method, based on multiple linear regression (AMLR) for the control of TABS. Through the self-learning effect, no parameterization of heating and cooling curves is necessary. The algorithm is compared to a conventional control strategy for TABS. In this simulation case, it turns out that the adaptive and predictive control strategy can achieve a saving of pump-running time of up to 81% while increasing thermal comfort. In addition, the algorithm is validated by a three-week laboratory experiment. With simple calculation approaches, this algorithm proves to be very practical and can easily be integrated into a building's automation system. Furthermore, it offers the possibility for load shifts from the use of the thermal mass of a building.
AbstractList •Adaptive and predictive computation method for the control of TABS.•No parameterization of heating and cooling curves is necessary.•Saving of pump-running time of up to 81% while increasing thermal comfort.•The algorithm has the possibility to define a set-point room temperature. There is a growing trend toward the use of thermo-active building systems (TABS) for heating and cooling buildings, since these systems are known to be very economical and efficient. However, due to the large thermal inertia, the control of these systems turns out to be complicated and time-consuming in the parameterization. With standard control strategies, the required thermal comfort in buildings often cannot be met, especially if the internal heat sources are suddenly changed. This paper presents a novel adaptive and predictive computation method, based on multiple linear regression (AMLR) for the control of TABS. Through the self-learning effect, no parameterization of heating and cooling curves is necessary. The algorithm is compared to a conventional control strategy for TABS. In this simulation case, it turns out that the adaptive and predictive control strategy can achieve a saving of pump-running time of up to 81% while increasing thermal comfort. In addition, the algorithm is validated by a three-week laboratory experiment. With simple calculation approaches, this algorithm proves to be very practical and can easily be integrated into a building's automation system. Furthermore, it offers the possibility for load shifts from the use of the thermal mass of a building.
Author Schmelas, Martin
Bollin, Elmar
Feldmann, Thomas
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Keywords Adaptive predictive control
Thermal comfort
Thermo-activate building system (TABS)
Concrete core activation
Multiple regression
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Snippet •Adaptive and predictive computation method for the control of TABS.•No parameterization of heating and cooling curves is necessary.•Saving of pump-running...
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SubjectTerms Adaptive predictive control
Concrete core activation
Multiple regression
Thermal comfort
Thermo-activate building system (TABS)
Title Adaptive predictive control of thermo-active building systems (TABS) based on a multiple regression algorithm
URI https://dx.doi.org/10.1016/j.enbuild.2015.06.012
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