Quantifying the domestic building fabric ‘performance gap’

In the UK, there is mounting evidence that the measured in situ performance of the building fabric in new build dwellings can be greater than that predicted, resulting in a significant building fabric ‘performance gap’. This paper presents the coheating test results from 25 new build dwellings built...

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Published in	Building services engineering research & technology Vol. 36; no. 5; pp. 614 - 627
Main Authors	Johnston, David, Miles-Shenton, Dominic, Farmer, David
Format	Journal Article
Language	English
Published	London, England SAGE Publications 01.09.2015 Sage Publications Ltd
Subjects	Built environment Climate change Construction Emissions Green buildings Heat transfer Heating R&D Research & development Residential buildings Studies Test methods Ventilation United Kingdom > UK domestic building performance Coheating CO2 emissions building fabric
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Abstract	In the UK, there is mounting evidence that the measured in situ performance of the building fabric in new build dwellings can be greater than that predicted, resulting in a significant building fabric ‘performance gap’. This paper presents the coheating test results from 25 new build dwellings built to Part L1A 2006 or better. Whilst the total number of dwellings reported here is small, the results suggest that a substantial ‘performance gap’ can exist between the predicted and measured performance of the building fabric, with the measured whole building U value being just over 1.6 times greater than that predicted. This is likely to have significant implications in terms of the energy use and CO2 emissions attributable to these dwellings in use. Practical application: This paper describes an aggregate approach (coheating test) that has been applied to a small sample of dwellings to quantify the size of the ‘performance gap’. The results suggest that this ‘gap’ can be large (>100%) and can vary depending upon form and construction type. The results also illustrate the importance of developing a larger, more representative whole dwelling heat loss data set. This could be used by industry to apply a suitable performance factor (note 1) to the nominal performance of new build that accounts for the ‘performance gap’. This factor could be specific to form and main construction type.
AbstractList	In the UK, there is mounting evidence that the measured in situ performance of the building fabric in new build dwellings can be greater than that predicted, resulting in a significant building fabric ‘performance gap’. This paper presents the coheating test results from 25 new build dwellings built to Part L1A 2006 or better. Whilst the total number of dwellings reported here is small, the results suggest that a substantial ‘performance gap’ can exist between the predicted and measured performance of the building fabric, with the measured whole building U value being just over 1.6 times greater than that predicted. This is likely to have significant implications in terms of the energy use and CO2 emissions attributable to these dwellings in use. Practical application: This paper describes an aggregate approach (coheating test) that has been applied to a small sample of dwellings to quantify the size of the ‘performance gap’. The results suggest that this ‘gap’ can be large (>100%) and can vary depending upon form and construction type. The results also illustrate the importance of developing a larger, more representative whole dwelling heat loss data set. This could be used by industry to apply a suitable performance factor (note 1) to the nominal performance of new build that accounts for the ‘performance gap’. This factor could be specific to form and main construction type. In the UK, there is mounting evidence that the measured in situ performance of the building fabric in new build dwellings can be greater than that predicted, resulting in a significant building fabric performance gap. This paper presents the coheating test results from 25 new build dwellings built to Part L1A 2006 or better. Whilst the total number of dwellings reported here is small, the results suggest that a substantial performance gap can exist between the predicted and measured performance of the building fabric, with the measured whole building U value being just over 1.6 times greater than that predicted. This is likely to have significant implications in terms of the energy use and CO2 emissions attributable to these dwellings in use. This paper describes an aggregate approach (coheating test) that has been applied to a small sample of dwellings to quantify the size of the performance gap. The results suggest that this gap can be large (>100%) and can vary depending upon form and construction type. The results also illustrate the importance of developing a larger, more representative whole dwelling heat loss data set. This could be used by industry to apply a suitable performance factor (note 1) to the nominal performance of new build that accounts for the performance gap. This factor could be specific to form and main construction type. In the UK, there is mounting evidence that the measured in situ performance of the building fabric in new build dwellings can be greater than that predicted, resulting in a significant building fabric ‘performance gap’. This paper presents the coheating test results from 25 new build dwellings built to Part L1A 2006 or better. Whilst the total number of dwellings reported here is small, the results suggest that a substantial ‘performance gap’ can exist between the predicted and measured performance of the building fabric, with the measured whole building U value being just over 1.6 times greater than that predicted. This is likely to have significant implications in terms of the energy use and CO 2 emissions attributable to these dwellings in use. Practical application: This paper describes an aggregate approach (coheating test) that has been applied to a small sample of dwellings to quantify the size of the ‘performance gap’. The results suggest that this ‘gap’ can be large (>100%) and can vary depending upon form and construction type. The results also illustrate the importance of developing a larger, more representative whole dwelling heat loss data set. This could be used by industry to apply a suitable performance factor (note 1) to the nominal performance of new build that accounts for the ‘performance gap’. This factor could be specific to form and main construction type.
Author	Miles-Shenton, Dominic Johnston, David Farmer, David
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Cites_doi	10.1177/1744259107082685 10.1177/0143624407077196 10.1016/j.enpol.2004.02.003 10.2172/6715518
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References_xml	– volume: 33 start-page: 1643 year: 2005 end-page: 1659 article-title: An exploration of the technical feasibility of achieving CO emission reductions in excess of 60% within the UK housing stock by the year 2050 publication-title: Energy Policy – volume: 86 start-page: 394 year: 1979 end-page: 407 article-title: In-situ measurements of residential energy performance using electric co-heating publication-title: ASHRAE Trans – volume: 28 start-page: 161 year: 2007 end-page: 181 article-title: Evidence for heat losses via party wall cavities in masonry construction publication-title: Build Serv Eng Res Technol – volume: 13 start-page: 383 year: 2012 end-page: 390 publication-title: Quick measurements of energy efficiency of buildings. – volume: 31 start-page: 95 year: 2007 end-page: 124 article-title: A performance analysis based on measurements and simulations publication-title: J Build Phys – ident: bibr22-0143624415570344 – ident: bibr3-0143624415570344 – ident: bibr7-0143624415570344 doi: 10.1177/1744259107082685 – ident: bibr11-0143624415570344 – ident: bibr27-0143624415570344 – volume-title: The Building Regulations 2000 approved Document Part L1A: conservation of fuel and power in new dwellings. 2006 ed year: 2006 ident: bibr25-0143624415570344 – ident: bibr24-0143624415570344 – volume-title: Rapid thermal calibration of houses year: 1985 ident: bibr20-0143624415570344 – volume: 13 start-page: 383 year: 2012 ident: bibr14-0143624415570344 publication-title: Quick measurements of energy efficiency of buildings. C. R. Physique – volume-title: Zero Carbon Hub. Carbon compliance for tomorrow’s new homes: a review of the modelling tool and assumptions. Topic 4: closing the gap between designed and built performance ident: bibr10-0143624415570344 – ident: bibr21-0143624415570344 – volume: 86 start-page: 394 year: 1979 ident: bibr17-0143624415570344 publication-title: ASHRAE Trans – ident: bibr5-0143624415570344 – ident: bibr15-0143624415570344 – ident: bibr26-0143624415570344 – ident: bibr28-0143624415570344 doi: 10.1177/0143624407077196 – volume-title: Thermal calibration of houses year: 1985 ident: bibr19-0143624415570344 – ident: bibr2-0143624415570344 – ident: bibr18-0143624415570344 – ident: bibr6-0143624415570344 doi: 10.1016/j.enpol.2004.02.003 – ident: bibr12-0143624415570344 – ident: bibr23-0143624415570344 – volume-title: Energy saving energy in the home – Princeton’s experiments at Twin Rivers year: 1978 ident: bibr16-0143624415570344 – ident: bibr4-0143624415570344 – ident: bibr9-0143624415570344 – volume-title: United Kingdom Housing Energy Fact File 2013. A report prepared under contract to DECC by Cambridge Architectural Research, Eclipse Research Consultants and Cambridge Energy year: 2013 ident: bibr1-0143624415570344 – volume-title: Field investigations of the thermal performance of construction elements as built. BRE Client Report No. 78132. A DETR Framework Project Report year: 2001 ident: bibr8-0143624415570344 – ident: bibr13-0143624415570344 doi: 10.2172/6715518
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SubjectTerms	Built environment Climate change Construction Emissions Green buildings Heat transfer Heating R&D Research & development Residential buildings Studies Test methods Ventilation
Title	Quantifying the domestic building fabric ‘performance gap’
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