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hybridGEOTABS project - MPC for controlling the power of the ground by integration

Filip Jorissen, Eline Himpe UGent, Damien Picard, Tiziana Buso, Jelle Laverge UGent, Wim Boydens UGent and Lieve Helsen (2018) The REHVA European HVAC Journal. 55(3). p.58-64
abstract
GEOTABS is an acronym for a GEOthermal heat pump combined with a Thermally Activated Building System (TABS). GEOTABS combines the use of geothermal energy, which is an almost limitless and ubiquitous energy source, with radiant heating and cooling systems, which can provide very comfortable conditioning of the indoor space. GEOTABShybrid refers to the integration of GEOTABS with secondary heating and cooling systems and other renewable and residual energy sources (R2ES), offering a huge potential to meet heating and cooling needs in office buildings, elderly care homes, schools and multi-family buildings throughout Europe in a sustainable way. Through the use of Model Predictive Control (MPC), a new control-integrated building design procedure and a readily applicable commercial system solution in GEOTABShybrid, the overall efficiency of heating and cooling will be significantly improved in comparison to current best practice GEOTABS systems and its competitiveness will be strengthened. The present paper is the first of a series that first introduces the hybridGEOTABS project and then specifically focuses on the control-related aspects of the hybridGEOTABS solution, the MPC, providing some interesting insights of its potential development.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
keyword
hybridGEOTABS, geothermal heat pump, TABS, MPC, integrated solution, H2020, EU
journal title
The REHVA European HVAC Journal
REHVA Journal
editor
Jaap Hogeling
volume
55
issue
3
pages
58 - 64
publisher
TEKNİK SEKTÖR YAYINCILIĞI A.Ş.
place of publication
Turkey
ISSN
1307-3729
project
MPC-. GT (Model Predictive Control and Innovative System Integration of GEOTABS;-) in Hybrid Low Grade Thermal Energy Systems - Hybrid MPC GEOTABS)
language
English
UGent publication?
yes
classification
U
id
8565221
handle
http://hdl.handle.net/1854/LU-8565221
alternative location
https://bit.ly/2sGRriR
https://bit.ly/2sGRriR
date created
2018-06-13 14:08:58
date last changed
2018-06-13 14:12:26
@article{8565221,
  abstract     = {GEOTABS is an acronym for a GEOthermal heat pump combined with a Thermally Activated Building System (TABS). GEOTABS combines the use of geothermal energy, which is an almost limitless and ubiquitous energy source, with radiant heating and cooling systems, which can provide very comfortable conditioning of the indoor space. GEOTABShybrid refers to the integration of GEOTABS with secondary heating and cooling systems and other renewable and residual energy sources (R2ES), offering a huge potential to meet heating and cooling needs in office buildings, elderly care homes, schools and multi-family buildings throughout Europe in a sustainable way. Through the use of Model Predictive Control (MPC), a new control-integrated building design procedure and a readily applicable commercial system solution in GEOTABShybrid, the overall efficiency of heating and cooling will be significantly improved in comparison to current best practice GEOTABS systems and its competitiveness will be strengthened.
The present paper is the first of a series that first introduces the hybridGEOTABS project and then specifically focuses on the control-related aspects of the hybridGEOTABS solution, the MPC, providing some interesting insights of its potential development.},
  author       = {Jorissen, Filip and Himpe, Eline and Picard, Damien and Buso, Tiziana and Laverge, Jelle and Boydens, Wim and Helsen, Lieve},
  editor       = {Hogeling, Jaap},
  issn         = {1307-3729},
  journal      = {The REHVA European HVAC Journal},
  keyword      = {hybridGEOTABS,geothermal heat pump,TABS,MPC,integrated solution,H2020,EU},
  language     = {eng},
  number       = {3},
  pages        = {58--64},
  publisher    = {TEKN\.{I}K SEKT{\"O}R YAYINCILI\u{G}I A.\c{S}.},
  title        = {hybridGEOTABS project - MPC for controlling the power of the ground by integration},
  url          = {https://bit.ly/2sGRriR},
  volume       = {55},
  year         = {2018},
}

Chicago
Jorissen, Filip, Eline Himpe, Damien Picard, Tiziana Buso, Jelle Laverge, Wim Boydens, and Lieve Helsen. 2018. “hybridGEOTABS Project - MPC for Controlling the Power of the Ground by Integration.” Ed. Jaap Hogeling. The REHVA European HVAC Journal 55 (3): 58–64.
APA
Jorissen, F., Himpe, E., Picard, D., Buso, T., Laverge, J., Boydens, W., & Helsen, L. (2018). hybridGEOTABS project - MPC for controlling the power of the ground by integration. (J. Hogeling, Ed.)The REHVA European HVAC Journal, 55(3), 58–64.
Vancouver
1.
Jorissen F, Himpe E, Picard D, Buso T, Laverge J, Boydens W, et al. hybridGEOTABS project - MPC for controlling the power of the ground by integration. Hogeling J, editor. The REHVA European HVAC Journal. Turkey: TEKNİK SEKTÖR YAYINCILIĞI A.Ş.; 2018;55(3):58–64.
MLA
Jorissen, Filip, Eline Himpe, Damien Picard, et al. “hybridGEOTABS Project - MPC for Controlling the Power of the Ground by Integration.” Ed. Jaap Hogeling. The REHVA European HVAC Journal 55.3 (2018): 58–64. Print.