Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis
One of the main sectors that contribute to climate change is the buildings sector. While nearly zero-energy buildings are becoming a new norm in many countries in the world, research is advancing towards energy flexibility and resilience to reach energy efficiency and sustainability goals. Combining...
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Format: | Article |
Language: | English |
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MDPI AG
2023-07-01
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Series: | Energies |
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Online Access: | https://www.mdpi.com/1996-1073/16/14/5506 |
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author | Hassam ur Rehman Ala Hasan |
author_facet | Hassam ur Rehman Ala Hasan |
author_sort | Hassam ur Rehman |
collection | DOAJ |
description | One of the main sectors that contribute to climate change is the buildings sector. While nearly zero-energy buildings are becoming a new norm in many countries in the world, research is advancing towards energy flexibility and resilience to reach energy efficiency and sustainability goals. Combining the energy flexibility and energy resilience concept is rare. In this article, we aim to investigate the effect of energy efficiency in a new single-family building on the energy flexibility potential and resilience characteristics and compare these with those for an old building in the cold climate of Finland. These two objectives are dependent on the buildings’ respective thermal mass. The heat demands of the two buildings are compared. Their technical and economic performance are calculated to compare their flexibility and resilience characteristics. Dynamic simulation software is used to model the buildings. The results show that the old building has better flexibility and higher energy cost savings when including the energy conservation activation strategy. In the old building, savings can be around EUR 400 and flexibility factor can be around 24–52% depending on the activation duration and strategy. The new building, due to higher efficiency, may not provide higher energy cost savings, and the energy conservation activation strategy is better. In the new building, savings can be around EUR 70 and the flexibility factor reaches around 7–14% depending on the activation duration and strategy. The shifting efficiency of the new house is better compared to that of the old house due to its higher storage capacity. For energy resilience, the new building is shown to be better during power outages. The new building can be habitable for 17 h, while the old building can provide the same conditions for 3 h only. Therefore, it is essential to consider both energy flexibility and resilience as this can impact performance during the energy crisis. |
first_indexed | 2024-03-11T01:06:26Z |
format | Article |
id | doaj.art-1a1024e8f14e45deb64d0e1f4c84c64b |
institution | Directory Open Access Journal |
issn | 1996-1073 |
language | English |
last_indexed | 2024-03-11T01:06:26Z |
publishDate | 2023-07-01 |
publisher | MDPI AG |
record_format | Article |
series | Energies |
spelling | doaj.art-1a1024e8f14e45deb64d0e1f4c84c64b2023-11-18T19:11:24ZengMDPI AGEnergies1996-10732023-07-011614550610.3390/en16145506Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic AnalysisHassam ur Rehman0Ala Hasan1VTT Technical Research Centre of Finland Ltd., P.O. Box 1000, FI-02044 Espoo, FinlandVTT Technical Research Centre of Finland Ltd., P.O. Box 1000, FI-02044 Espoo, FinlandOne of the main sectors that contribute to climate change is the buildings sector. While nearly zero-energy buildings are becoming a new norm in many countries in the world, research is advancing towards energy flexibility and resilience to reach energy efficiency and sustainability goals. Combining the energy flexibility and energy resilience concept is rare. In this article, we aim to investigate the effect of energy efficiency in a new single-family building on the energy flexibility potential and resilience characteristics and compare these with those for an old building in the cold climate of Finland. These two objectives are dependent on the buildings’ respective thermal mass. The heat demands of the two buildings are compared. Their technical and economic performance are calculated to compare their flexibility and resilience characteristics. Dynamic simulation software is used to model the buildings. The results show that the old building has better flexibility and higher energy cost savings when including the energy conservation activation strategy. In the old building, savings can be around EUR 400 and flexibility factor can be around 24–52% depending on the activation duration and strategy. The new building, due to higher efficiency, may not provide higher energy cost savings, and the energy conservation activation strategy is better. In the new building, savings can be around EUR 70 and the flexibility factor reaches around 7–14% depending on the activation duration and strategy. The shifting efficiency of the new house is better compared to that of the old house due to its higher storage capacity. For energy resilience, the new building is shown to be better during power outages. The new building can be habitable for 17 h, while the old building can provide the same conditions for 3 h only. Therefore, it is essential to consider both energy flexibility and resilience as this can impact performance during the energy crisis.https://www.mdpi.com/1996-1073/16/14/5506energy flexibilityenergy resiliencethermal energyenergy crisisenergy pricingNordic climate |
spellingShingle | Hassam ur Rehman Ala Hasan Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis Energies energy flexibility energy resilience thermal energy energy crisis energy pricing Nordic climate |
title | Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis |
title_full | Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis |
title_fullStr | Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis |
title_full_unstemmed | Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis |
title_short | Energy Flexibility and towards Resilience in New and Old Residential Houses in Cold Climates: A Techno-Economic Analysis |
title_sort | energy flexibility and towards resilience in new and old residential houses in cold climates a techno economic analysis |
topic | energy flexibility energy resilience thermal energy energy crisis energy pricing Nordic climate |
url | https://www.mdpi.com/1996-1073/16/14/5506 |
work_keys_str_mv | AT hassamurrehman energyflexibilityandtowardsresilienceinnewandoldresidentialhousesincoldclimatesatechnoeconomicanalysis AT alahasan energyflexibilityandtowardsresilienceinnewandoldresidentialhousesincoldclimatesatechnoeconomicanalysis |