Multi-Scale Simulation Thermo-Chemical District Network

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschung

Autoren

  • Philipp Florian Geyer
  • Dirk Saelens
  • Muhannad Delwati

Externe Organisationen

  • KU Leuven
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksProceedings of the 16th IBPSA Conference
Herausgeber/-innenV. Corrado, E. Fabrizio, A. Gasparella, F. Patuzzi
ErscheinungsortRom
Seiten1889-1897
ISBN (elektronisch)978-1-7750520-1-2
PublikationsstatusVeröffentlicht - 2019
Extern publiziertJa
Veranstaltung16th IBPSA Conference - Rom, Italien
Dauer: 2 Sept. 20194 Sept. 2019

Abstract

Thermochemical-district-heating-cooling-networks provide an effective way to transport the excess heat and hygroscopic properties for long distances without suffering heat loss. Therefore, multinode thermochemical network components have been developed on two scales: 1) Demand-side application models for heating-cooling; 2) Thermochemical-district-network model, which transfers heat to the first-scale models.
In this paper, we propose a design and simulation approach for a thermochemical-district-heating-cooling- network and its components. Simulation results show the feasibility of the simulation approach, which uses multiscale modelling. Moreover, the thermochemical- fluid mass on the second-scale was defined based on buildings heating-cooling requirements. The electrical energies used to produce the required heating-cooling were 16% and 30% respectively.

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Multi-Scale Simulation Thermo-Chemical District Network. / Geyer, Philipp Florian; Saelens, Dirk; Delwati, Muhannad.
Proceedings of the 16th IBPSA Conference. Hrsg. / V. Corrado; E. Fabrizio; A. Gasparella; F. Patuzzi. Rom, 2019. S. 1889-1897.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschung

Geyer, PF, Saelens, D & Delwati, M 2019, Multi-Scale Simulation Thermo-Chemical District Network. in V Corrado, E Fabrizio, A Gasparella & F Patuzzi (Hrsg.), Proceedings of the 16th IBPSA Conference. Rom, S. 1889-1897, 16th IBPSA Conference, Italien, 2 Sept. 2019. https://doi.org/10.26868/25222708.2019.210652
Geyer, P. F., Saelens, D., & Delwati, M. (2019). Multi-Scale Simulation Thermo-Chemical District Network. In V. Corrado, E. Fabrizio, A. Gasparella, & F. Patuzzi (Hrsg.), Proceedings of the 16th IBPSA Conference (S. 1889-1897). https://doi.org/10.26868/25222708.2019.210652
Geyer PF, Saelens D, Delwati M. Multi-Scale Simulation Thermo-Chemical District Network. in Corrado V, Fabrizio E, Gasparella A, Patuzzi F, Hrsg., Proceedings of the 16th IBPSA Conference. Rom. 2019. S. 1889-1897 doi: 10.26868/25222708.2019.210652
Geyer, Philipp Florian ; Saelens, Dirk ; Delwati, Muhannad. / Multi-Scale Simulation Thermo-Chemical District Network. Proceedings of the 16th IBPSA Conference. Hrsg. / V. Corrado ; E. Fabrizio ; A. Gasparella ; F. Patuzzi. Rom, 2019. S. 1889-1897
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abstract = "Thermochemical-district-heating-cooling-networks provide an effective way to transport the excess heat and hygroscopic properties for long distances without suffering heat loss. Therefore, multinode thermochemical network components have been developed on two scales: 1) Demand-side application models for heating-cooling; 2) Thermochemical-district-network model, which transfers heat to the first-scale models.In this paper, we propose a design and simulation approach for a thermochemical-district-heating-cooling- network and its components. Simulation results show the feasibility of the simulation approach, which uses multiscale modelling. Moreover, the thermochemical- fluid mass on the second-scale was defined based on buildings heating-cooling requirements. The electrical energies used to produce the required heating-cooling were 16% and 30% respectively.",
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Download

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AU - Geyer, Philipp Florian

AU - Saelens, Dirk

AU - Delwati, Muhannad

PY - 2019

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N2 - Thermochemical-district-heating-cooling-networks provide an effective way to transport the excess heat and hygroscopic properties for long distances without suffering heat loss. Therefore, multinode thermochemical network components have been developed on two scales: 1) Demand-side application models for heating-cooling; 2) Thermochemical-district-network model, which transfers heat to the first-scale models.In this paper, we propose a design and simulation approach for a thermochemical-district-heating-cooling- network and its components. Simulation results show the feasibility of the simulation approach, which uses multiscale modelling. Moreover, the thermochemical- fluid mass on the second-scale was defined based on buildings heating-cooling requirements. The electrical energies used to produce the required heating-cooling were 16% and 30% respectively.

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