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Analysis of Thermal Response to Power Outages in Residential Sector Using a Multi-zone Data-Driven Archetype Energy Model

Abtahi, Seyed Matin / Athienitis, Andreas K. / Delcroix, Benoit

This paper simulates the thermal response of a single-family house to power outages during extremely-cold periods, using a multi-zone data-driven energy model. The archetype model is developed with data from an unoccupied research house at Laboratoire des Technologies de l’Energie, Québec. Indoor air temperature is first simulated, assuming no auxiliary heating during an outage. Next, to explore the impact of adopting technologies on the building performance during this period, the simulation is repeated, assuming a residential-size PV/battery system feeds either baseboard heaters or a heat pump with a rule-based control. The free-floating indoor air temperature rapidly deviates from comfort conditions; however, with auxiliary heat from the heat pump, the comfort conditions are retained throughout the outage, emphasizing how integrating PV/battery plus heat pump boosts the building energy resilience.

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Analysis of Thermal Response to Power Outages in Residential Sector Using a Multi-zone Data-Driven Archetype Energy Model

Abtahi, Seyed Matin / Athienitis, Andreas K. / Delcroix, Benoit

This paper simulates the thermal response of a single-family house to power outages during extremely-cold periods, using a multi-zone data-driven energy model. The archetype model is developed with data from an unoccupied research house at Laboratoire des Technologies de l’Energie, Québec. Indoor air temperature is first simulated, assuming no auxiliary heating during an outage. Next, to explore the impact of adopting technologies on the building performance during this period, the simulation is repeated, assuming a residential-size PV/battery system feeds either baseboard heaters or a heat pump with a rule-based control. The free-floating indoor air temperature rapidly deviates from comfort conditions; however, with auxiliary heat from the heat pump, the comfort conditions are retained throughout the outage, emphasizing how integrating PV/battery plus heat pump boosts the building energy resilience.

Analysis of Thermal Response to Power Outages in Residential Sector Using a Multi-zone Data-Driven Archetype Energy Model

Abtahi, Seyed Matin / Athienitis, Andreas K. / Delcroix, Benoit

This paper simulates the thermal response of a single-family house to power outages during extremely-cold periods, using a multi-zone data-driven energy model. The archetype model is developed with data from an unoccupied research house at Laboratoire des Technologies de l’Energie, Québec. Indoor air temperature is first simulated, assuming no auxiliary heating during an outage. Next, to explore the impact of adopting technologies on the building performance during this period, the simulation is repeated, assuming a residential-size PV/battery system feeds either baseboard heaters or a heat pump with a rule-based control. The free-floating indoor air temperature rapidly deviates from comfort conditions; however, with auxiliary heat from the heat pump, the comfort conditions are retained throughout the outage, emphasizing how integrating PV/battery plus heat pump boosts the building energy resilience.

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Title:

Analysis of Thermal Response to Power Outages in Residential Sector Using a Multi-zone Data-Driven Archetype Energy Model

Additional title:

Environ Sci Eng

Contributors:

Wang, Liangzhu Leon (editor) / Ge, Hua (editor) / Zhai, Zhiqiang John (editor) / Qi, Dahai (editor) / Ouf, Mohamed (editor) / Sun, Chanjuan (editor) / Wang, Dengjia (editor) / Abtahi, Seyed Matin (author) / Athienitis, Andreas K. (author) / Delcroix, Benoit (author)

Conference:

International Conference on Building Energy and Environment ; 2022

Published in:

Proceedings of the 5th International Conference on Building Energy and Environment ; Chapter: 127 ; 1213-1221

Environmental Science and Engineering

Publication date:

2023-09-05

Size:

9 pages

ISBN:

978-981-19-9822-5 , 978-981-19-9821-8

ISSN:

1863-5539 , 1863-5520

DOI:

https://doi.org/10.1007/978-981-19-9822-5_127

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Power outage , Multi-zone energy models , Data-driven archetype energy models , Energy resilience Engineering , Building Physics, HVAC , Fire Science, Hazard Control, Building Safety , Sustainable Architecture/Green Buildings , Renewable and Green Energy , Environment, general

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