Project MPC-. GT: Model Predictive Control and Innovative System Integration of GEOTABS in Hybrid Low Grade Thermal Energy Systems - Hybrid MPC GEOTABS
2016-09-01 – 2021-02-28
- Abstract
The MPC-GT project brought thogether a transdisciplinary team of SMEs, large industry and research institutes, experienced in research and application of design and control systems in the combined building and energy world. Based on prior research, supported by (joint) EU and national projects, and practical experience the bottlenecks where identified that prevent at this moment a real breakthrough of geothermal heat pumps (GEO-HP) combined with thermally activated building systems (TABS)-GEOTABS. Solutions, which need to be implemented in an integrated way, were identified and sufficient proof of concept was gathered to join forces in a RIA.
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- PhD Thesis
- open access
Early-stage integrated design methods for hybrid GEOTABS buildings
(2022) -
- Journal Article
- A1
- open access
Environmental and energy performance assessment of hybrid ground source heat pump coupled with TABS emission system in the EU non-residential building typologies
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Early-stage optimal design of hybrid GEOTABS buildings in terms of costs and CO2 emissions
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A heuristic algorithm for optimal load splitting in hybrid thermally activated building systems
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- Book
- open access
Renewable and storage-integrated systems to supply comfort in buildings : pre-design and control for hybridGEOTABS projects
(2021) -
(D5.4_dataset01) hybridGEOTABS EU climate zones map
(2021) -
(D2.2_dataset02)Internal heat gains and occupancy schedules in offices, schools and elderly homes
(2021) -
(D2.2_dataset01) Building physical parameters for four typologies
(2021) -
Environmental impact assessment of hybridGEOTABS system on the EU building stock based on dynamic modelling
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Model and validation of a multi-family building ‘Haus M’ using modelica