Evaluating UKCP18-Based weather files for overheating assessment using building simulation: A case study for a flat in london
Global warming and net zero transition are the two biggest challenges currently faced by the building industry in the UK. While the net zero transition primarily focuses on the problems of energy efficiency and heat decarbonization, the rise of global temperature imposes a significant threat to the...
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| Published in | Building services engineering research & technology Vol. 46; no. 2; pp. 203 - 213 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London, England
SAGE Publications
01.03.2025
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Global warming and net zero transition are the two biggest challenges currently faced by the building industry in the UK. While the net zero transition primarily focuses on the problems of energy efficiency and heat decarbonization, the rise of global temperature imposes a significant threat to the health and wellbeing of occupants and the industry is obliged to make buildings climate-resilient by testing their designs using future weather files. To improve the quality of the current weather files, a new project has been commissioned by CIBSE to revisit the data and the methodology employed for creating future weather files and produce new CIBSE weather files using the latest UK Climate Projections released in 2018 (UKCP18). In this study, we evaluate the newly produced weather files for overheating risk using building simulation. Two different batches of weather files were curated. The first batch was produced primarily using the existing methodology for creating the UKCP09 based weather files, with an adjustment to accommodate new features of the UKCP18 and an improved procedure for morphing the solar radiation data. The second batch was created through an improved morphing process to better emulate the characteristics of distributions of climatic variables. The differences between the existing UKCP09 and new UCKP18 based weather files are compared by evaluating overheating metrics. The new weather files enable robust building performance assessment against future climate conditions under different scenarios and will play an important role in designing climate-resilient buildings and delivering a net zero built environment.
Practical applications
As the extreme weather events resulting from climate change become more frequent and intense, they pose significant challenges to the resilience of the built environment and severe threats to the health and wellbeing of the occupants. Climate data, which serves as the foundation for climate risk assessment, plays a critical role in helping the building sector to achieve climate resilience through the means of performance assessment and the channel of regulatory compliance. In this study, the revised future weather files created using the latest UKCP18 climate projections are presented and evaluated using building simulation, as part of the weather file testing programme for quality assurance. The revision of the CIBSE weather files according to the latest climate science, i.e. UKCP18, will enable the building industry to quantify overheating risks with more accurate climate assumptions and better inform decision making about risk mitigation and climate adaptation. |
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| AbstractList | Global warming and net zero transition are the two biggest challenges currently faced by the building industry in the UK. While the net zero transition primarily focuses on the problems of energy efficiency and heat decarbonization, the rise of global temperature imposes a significant threat to the health and wellbeing of occupants and the industry is obliged to make buildings climate-resilient by testing their designs using future weather files. To improve the quality of the current weather files, a new project has been commissioned by CIBSE to revisit the data and the methodology employed for creating future weather files and produce new CIBSE weather files using the latest UK Climate Projections released in 2018 (UKCP18). In this study, we evaluate the newly produced weather files for overheating risk using building simulation. Two different batches of weather files were curated. The first batch was produced primarily using the existing methodology for creating the UKCP09 based weather files, with an adjustment to accommodate new features of the UKCP18 and an improved procedure for morphing the solar radiation data. The second batch was created through an improved morphing process to better emulate the characteristics of distributions of climatic variables. The differences between the existing UKCP09 and new UCKP18 based weather files are compared by evaluating overheating metrics. The new weather files enable robust building performance assessment against future climate conditions under different scenarios and will play an important role in designing climate-resilient buildings and delivering a net zero built environment.
Practical applications
As the extreme weather events resulting from climate change become more frequent and intense, they pose significant challenges to the resilience of the built environment and severe threats to the health and wellbeing of the occupants. Climate data, which serves as the foundation for climate risk assessment, plays a critical role in helping the building sector to achieve climate resilience through the means of performance assessment and the channel of regulatory compliance. In this study, the revised future weather files created using the latest UKCP18 climate projections are presented and evaluated using building simulation, as part of the weather file testing programme for quality assurance. The revision of the CIBSE weather files according to the latest climate science, i.e. UKCP18, will enable the building industry to quantify overheating risks with more accurate climate assumptions and better inform decision making about risk mitigation and climate adaptation. |
| Author | Mylona, Anastasia De Grussa, Zoe Xie, Hailun Challenor, Peter Davies, Hywel Eames, Matt |
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| Keywords | morphing weather file Overheating climate change |
| Language | English |
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| References | Xie, Eames, Mylona 2024; 357 Eames, Xie, Mylona 2023; 45 2018 2017 Eames, Kershaw, Coley 2010; 32 Eames, Virk 2016 Murphy, Harris, Sexton 2018 Lowe, Bernie, Bett 2018 |
| References_xml | – volume: 357 start-page: 122549 year: 2024 article-title: Creating granular climate zones for future-proof building design in the UK publication-title: Appl Energy – year: 2016 article-title: CIBSE weather files 2016 release: technical briefing and testing publication-title: CIBSE - Chartered Institution of Building Services Engineers – volume: 32 start-page: 127 issue: 2 year: 2010 end-page: 142 article-title: On the creation of future probabilistic design weather years from UKCP09 publication-title: Build Serv Eng Res Tecnol – year: 2018 article-title: UKCP18 land projections: science report publication-title: Met Office – volume: 45 start-page: 5 issue: 1 year: 2023 end-page: 20 article-title: A revised morphing algorithm for creating future weather for building performance evaluation publication-title: Build Serv Eng Res Tecnol – year: 2018 article-title: UKCP18 guidance: representative concentration pathways – year: 2017 article-title: TM59 design methodology for the assessment of overheating risk in homes publication-title: Chartered Institution of Building Services Engineers – year: 2018 article-title: UKCP18 science overview report publication-title: Met Office |
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| Title | Evaluating UKCP18-Based weather files for overheating assessment using building simulation: A case study for a flat in london |
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