Details
| Original language | English |
|---|---|
| Title of host publication | Proceedings of the 16th IBPSA Conference |
| Editors | V. Corrado, E. Fabrizio, A. Gasparella, F. Patuzzi |
| Place of Publication | Rom |
| Pages | 1889-1897 |
| ISBN (electronic) | 978-1-7750520-1-2 |
| Publication status | Published - 2019 |
| Externally published | Yes |
| Event | 16th IBPSA Conference - Rom, Italy Duration: 2 Sept 2019 → 4 Sept 2019 |
Abstract
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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Proceedings of the 16th IBPSA Conference. ed. / V. Corrado; E. Fabrizio; A. Gasparella; F. Patuzzi. Rom, 2019. p. 1889-1897.
Research output: Chapter in book/report/conference proceeding › Conference contribution › Research
}
TY - GEN
T1 - Multi-Scale Simulation Thermo-Chemical District Network
AU - Geyer, Philipp Florian
AU - Saelens, Dirk
AU - Delwati, Muhannad
PY - 2019
Y1 - 2019
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.
AB - 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.
U2 - 10.26868/25222708.2019.210652
DO - 10.26868/25222708.2019.210652
M3 - Conference contribution
SP - 1889
EP - 1897
BT - Proceedings of the 16th IBPSA Conference
A2 - Corrado, V.
A2 - Fabrizio, E.
A2 - Gasparella, A.
A2 - Patuzzi, F.
CY - Rom
T2 - 16th IBPSA Conference
Y2 - 2 September 2019 through 4 September 2019
ER -