Model-Based Control Strategies for an Efficient Integration of Solar Thermal Plants Into District Heating Grids

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschung

Abstract

The integration of solar thermal plants into district heating grids requires advanced control strategies in order to utilize the full potential in terms of efficiency and least operating effort. State-of-the-art control strategies cannot completely fulfill this since they are not able to consider the physical characteristics of the different components, nor do they take information on future conditions and requirements into account properly. A promising attempt for improvement is the application of model-based control strategies together with practicable forecasting methods for both the solar yield as well as the heat demand. This contribution will present the results of several projects performed on the development of suitable mathematical models, forecasting methods and control strategies relevant for the integration of solar thermal plants into district heating grids.
Originalspracheenglisch
TitelSWC 2017 / SHC 2017 / ISES Conference Proceedings (2017)
PublikationsstatusVeröffentlicht - 29 Okt 2017
VeranstaltungISES Solar World Congress 2017 - Abu Dhabi, Vereinigte Arabische Emirate
Dauer: 29 Okt 20172 Nov 2017
http://www.shc2017.org/

Konferenz

KonferenzISES Solar World Congress 2017
LandVereinigte Arabische Emirate
Zeitraum29/10/172/11/17
Internetadresse

Dies zitieren

Model-Based Control Strategies for an Efficient Integration of Solar Thermal Plants Into District Heating Grids. / Unterberger, Viktor; Muschick, Daniel; Gölles, Markus.

SWC 2017 / SHC 2017 / ISES Conference Proceedings (2017). 2017.

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschung

Unterberger, V, Muschick, D & Gölles, M 2017, Model-Based Control Strategies for an Efficient Integration of Solar Thermal Plants Into District Heating Grids. in SWC 2017 / SHC 2017 / ISES Conference Proceedings (2017). ISES Solar World Congress 2017 , Vereinigte Arabische Emirate, 29/10/17.
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N2 - The integration of solar thermal plants into district heating grids requires advanced control strategies in order to utilize the full potential in terms of efficiency and least operating effort. State-of-the-art control strategies cannot completely fulfill this since they are not able to consider the physical characteristics of the different components, nor do they take information on future conditions and requirements into account properly. A promising attempt for improvement is the application of model-based control strategies together with practicable forecasting methods for both the solar yield as well as the heat demand. This contribution will present the results of several projects performed on the development of suitable mathematical models, forecasting methods and control strategies relevant for the integration of solar thermal plants into district heating grids.

AB - The integration of solar thermal plants into district heating grids requires advanced control strategies in order to utilize the full potential in terms of efficiency and least operating effort. State-of-the-art control strategies cannot completely fulfill this since they are not able to consider the physical characteristics of the different components, nor do they take information on future conditions and requirements into account properly. A promising attempt for improvement is the application of model-based control strategies together with practicable forecasting methods for both the solar yield as well as the heat demand. This contribution will present the results of several projects performed on the development of suitable mathematical models, forecasting methods and control strategies relevant for the integration of solar thermal plants into district heating grids.

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