Abstracts – Browse Results
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Candido, C, Kim, J, de Dear, R and Thomas, L (2016) Bossa: A multidimensional post-occupancy evaluation tool. Building Research & Information, 44(02), 214-28.
Ferreira, M, Almeida, M, Rodrigues, A and Silva, S M (2016) Comparing cost-optimal and net-zero energy targets in building retrofit. Building Research & Information, 44(02), 188-201.
Gabe, J (2016) Successful greenhouse gas mitigation in existing Australian office buildings. Building Research & Information, 44(02), 160-74.
Hewitt, E L, Andrews, C J, Senick, J A, Wener, R E, Krogmann, U and Sorensen Allacci, M (2016) Distinguishing between green building occupants' reasoned and unplanned behaviours. Building Research & Information, 44(02), 119-34.
Johnston, D, Farmer, D, Brooke-Peat, M and Miles-Shenton, D (2016) Bridging the domestic building fabric performance gap. Building Research & Information, 44(02), 147-59.
- Type: Journal Article
- Keywords: energy performance gap; building performance; housing; co-heating; air tightness; heat flux; thermal barrier; case studies; insulation; energy efficiency; building construction
- ISBN/ISSN: 0961-3218
- URL: https://doi.org/10.1080/09613218.2014.979093
- Abstract:
It is recognized that there is often a discrepancy between the measured fabric thermal performance of dwellings as built and the predicted performance of the same dwellings and that the magnitude of this difference in performance can be quite large. This paper presents the results of a number of in-depth building fabric thermal performance tests undertaken on three case study dwellings located on two separate Passivhaus developments in the UK: one masonry cavity and the other two timber-frame. The results from the tests revealed that all the case study dwellings performed very close to that predicted. This is in contrast with other work that has been undertaken regarding the performance of the building fabric, which indicates that a very wide range of performance exists in new-build dwellings in the UK, and that the difference between the measured and predicted fabric performance can be greater than 100%. Despite the small non-random size of the sample, the results suggest that careful design coupled with the implementation of appropriate quality control systems, such as those required to attain Passivhaus Certification, may be conducive to delivering dwellings that begin to 'bridge the gap' between measured and predicted fabric performance.; It is recognized that there is often a discrepancy between the measured fabric thermal performance of dwellings as built and the predicted performance of the same dwellings and that the magnitude of this difference in performance can be quite large. This paper presents the results of a number of in-depth building fabric thermal performance tests undertaken on three case study dwellings located on two separate Passivhaus developments in the UK: one masonry cavity and the other two timber-frame. The results from the tests revealed that all the case study dwellings performed very close to that predicted. This is in contrast with other work that has been undertaken regarding the performance of the building fabric, which indicates that a very wide range of performance exists in new-build dwellings in the UK, and that the difference between the measured and predicted fabric performance can be greater than 100%. Despite the small non-random size of the sample, the results suggest that careful design coupled with the implementation of appropriate quality control systems, such as those required to attain Passivhaus Certification, may be conducive to delivering dwellings that begin to 'bridge the gap' between measured and predicted fabric performance.;
Reinoso, E, Jaimes, M A and Torres, M A (2016) Evaluation of building code compliance in Mexico city: Mid-rise dwellings. Building Research & Information, 44(02), 202-13.
Terry, N and Palmer, J (2016) Trends in home computing and energy demand. Building Research & Information, 44(02), 175-87.
Walker, G, Brown, S and Neven, L (2016) Thermal comfort in care homes: Vulnerability, responsibility and 'thermal care'. Building Research & Information, 44(02), 135-46.