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A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems

Mohsen Sharifi, dr. ir. arch. Rana Mahmoud, Eline Himpe (UGent) and Jelle Laverge (UGent)
(2022) JOURNAL OF BUILDING ENGINEERING. 50.
Author
Organization
Project
  • MPC-. GT (Model Predictive Control and Innovative System Integration of GEOTABS in Hybrid Low Grade Thermal Energy Systems - Hybrid MPC GEOTABS)
Abstract
Thermally activated building systems (TABS) integrate high thermal inertia into the heating and cooling system, which has advantages and disadvantages. During sudden fluctuations and high peaks in the energy demand of a building, the thermal comfort may not be efficiently maintained by TABS due to its slow reaction to the control signals. Thus, one solution is to add a complementary fast-reacting emission system to offset the peak loads and guarantee thermal comfort. Conversely, the high thermal inertia of TABS offers peak-shaving and load-shifting opportunities. By optimally exploiting the high thermal inertia of TABS, significant downsizing of the production system can be achieved. Thus, the dynamic behavior of the TABS must be incorporated into the design procedure. Furthermore, the optimal load split between the TABS and the secondary system is a key design consideration. This study reviews the reasons why an appropriate design methodology is not currently available. Moreover, an optimal load splitting algorithm (OLSA) is proposed as a solution, and its performance was verified against a baseline scenario by applying it to nine case studies. The results demonstrate that the OLSA estimated the optimal load split with a maximum error of 9.6%. The application of the OLSA as an easy-to-use tool for the designer was also illustrated. Additionally, the OLSA provided a significant downsizing of the components in the early-stage design (45% in cooling and 38% in heating).
Keywords
Mechanics of Materials, Safety, Risk, Reliability and Quality, Building and Construction, Architecture, Civil and Structural Engineering, Thermally activated building systems, Optimal design, Sustainable energy system, Thermal energy storage, ADAPTIVE PREDICTIVE CONTROL, COOLING SYSTEMS, DESIGN, TABS, OPTIMIZATION

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MLA
Sharifi, Mohsen, et al. “A Heuristic Algorithm for Optimal Load Splitting in Hybrid Thermally Activated Building Systems.” JOURNAL OF BUILDING ENGINEERING, vol. 50, 2022, doi:10.1016/j.jobe.2022.104160.
APA
Sharifi, M., Mahmoud, dr. ir. arch. R., Himpe, E., & Laverge, J. (2022). A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems. JOURNAL OF BUILDING ENGINEERING, 50. https://doi.org/10.1016/j.jobe.2022.104160
Chicago author-date
Sharifi, Mohsen, dr. ir. arch. Rana Mahmoud, Eline Himpe, and Jelle Laverge. 2022. “A Heuristic Algorithm for Optimal Load Splitting in Hybrid Thermally Activated Building Systems.” JOURNAL OF BUILDING ENGINEERING 50. https://doi.org/10.1016/j.jobe.2022.104160.
Chicago author-date (all authors)
Sharifi, Mohsen, dr. ir. arch. Rana Mahmoud, Eline Himpe, and Jelle Laverge. 2022. “A Heuristic Algorithm for Optimal Load Splitting in Hybrid Thermally Activated Building Systems.” JOURNAL OF BUILDING ENGINEERING 50. doi:10.1016/j.jobe.2022.104160.
Vancouver
1.
Sharifi M, Mahmoud dr. ir. arch. R, Himpe E, Laverge J. A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems. JOURNAL OF BUILDING ENGINEERING. 2022;50.
IEEE
[1]
M. Sharifi, dr. ir. arch. R. Mahmoud, E. Himpe, and J. Laverge, “A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems,” JOURNAL OF BUILDING ENGINEERING, vol. 50, 2022.
@article{8742235,
  abstract     = {{Thermally activated building systems (TABS) integrate high thermal inertia into the heating and cooling system, which has advantages and disadvantages. During sudden fluctuations and high peaks in the energy demand of a building, the thermal comfort may not be efficiently maintained by TABS due to its slow reaction to the control signals. Thus, one solution is to add a complementary fast-reacting emission system to offset the peak loads and guarantee thermal comfort. Conversely, the high thermal inertia of TABS offers peak-shaving and load-shifting opportunities. By optimally exploiting the high thermal inertia of TABS, significant downsizing of the production system can be achieved. Thus, the dynamic behavior of the TABS must be incorporated into the design procedure. Furthermore, the optimal load split between the TABS and the secondary system is a key design consideration. This study reviews the reasons why an appropriate design methodology is not currently available. Moreover, an optimal load splitting algorithm (OLSA) is proposed as a solution, and its performance was verified against a baseline scenario by applying it to nine case studies. The results demonstrate that the OLSA estimated the optimal load split with a maximum error of 9.6%. The application of the OLSA as an easy-to-use tool for the designer was also illustrated. Additionally, the OLSA provided a significant downsizing of the components in the early-stage design (45% in cooling and 38% in heating).}},
  articleno    = {{104160}},
  author       = {{Sharifi, Mohsen and Mahmoud, dr. ir. arch. Rana and Himpe, Eline and Laverge, Jelle}},
  issn         = {{2352-7102}},
  journal      = {{JOURNAL OF BUILDING ENGINEERING}},
  keywords     = {{Mechanics of Materials,Safety,Risk,Reliability and Quality,Building and Construction,Architecture,Civil and Structural Engineering,Thermally activated building systems,Optimal design,Sustainable energy system,Thermal energy storage,ADAPTIVE PREDICTIVE CONTROL,COOLING SYSTEMS,DESIGN,TABS,OPTIMIZATION}},
  language     = {{eng}},
  pages        = {{22}},
  title        = {{A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems}},
  url          = {{http://doi.org/10.1016/j.jobe.2022.104160}},
  volume       = {{50}},
  year         = {{2022}},
}
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