Heating and cooling loads in high performance construction systems - will climate change alter design decisions?
Heating and cooling loads in high performance construction systems - will climate change alter design decisions?
Climate change and its consequences are of great concern. Buildings can be affected by climate change in different ways, such as changes in energy needs and thermal comfort. However, the challenge is to quantify and assess the uncertainties involved in future climate data as well as the relevant adoption strategies. The aim of this paper is to demonstrate potential energy consumption changes in high performance building construction systems in a changing climate. In this paper, current and future weather data of three time slices of 2020, 2050 and 2080 were used to simulate the performance of a simple building in Manchester and London using DesignBuilder software which employs Energy Plus as its calculation engine. Five of the most commonly used and high performance construction systems were examined in terms of energy consumption in this model and results are given. In general, this paper provides a useful methodology for simplification in design decision-making for current and future UK housing. It is observed that future climate scenarios do not have major effects in qualitative comparisons of construction systems.
498-506
Sajjadian, Seyed Masoud
f08f9a9d-5aee-4844-b4f9-b8f8fb454b5d
Lewis, John
d9534112-1e94-4c29-8e28-95707ec79f30
Sharples, Stephen
3cc35981-5b41-46ba-8dc1-a50212374df6
14 September 2015
Sajjadian, Seyed Masoud
f08f9a9d-5aee-4844-b4f9-b8f8fb454b5d
Lewis, John
d9534112-1e94-4c29-8e28-95707ec79f30
Sharples, Stephen
3cc35981-5b41-46ba-8dc1-a50212374df6
Sajjadian, Seyed Masoud, Lewis, John and Sharples, Stephen
(2015)
Heating and cooling loads in high performance construction systems - will climate change alter design decisions?
Procedia Engineering, 118, .
(doi:10.1016/j.proeng.2015.08.467).
Abstract
Climate change and its consequences are of great concern. Buildings can be affected by climate change in different ways, such as changes in energy needs and thermal comfort. However, the challenge is to quantify and assess the uncertainties involved in future climate data as well as the relevant adoption strategies. The aim of this paper is to demonstrate potential energy consumption changes in high performance building construction systems in a changing climate. In this paper, current and future weather data of three time slices of 2020, 2050 and 2080 were used to simulate the performance of a simple building in Manchester and London using DesignBuilder software which employs Energy Plus as its calculation engine. Five of the most commonly used and high performance construction systems were examined in terms of energy consumption in this model and results are given. In general, this paper provides a useful methodology for simplification in design decision-making for current and future UK housing. It is observed that future climate scenarios do not have major effects in qualitative comparisons of construction systems.
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Published date: 14 September 2015
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Local EPrints ID: 511005
URI: http://eprints.soton.ac.uk/id/eprint/511005
ISSN: 1877-7058
PURE UUID: 02235cd9-56e7-43d4-9231-c5b0c18a67d1
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Date deposited: 28 Apr 2026 17:01
Last modified: 02 May 2026 02:22
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Author:
Seyed Masoud Sajjadian
Author:
John Lewis
Author:
Stephen Sharples
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