Extreme and near-extreme climate change data in relation to building and plant design

Extreme and near-extreme climate change data in relation to building and plant design

Buildings and plant are designed utilizing near-extreme weather data. The present data used are brie‘ y discussed, including manual near-extreme percentiles for manual design and hourly data for simulation on a PC (test reference years and design summer years, and near-extreme periods). However, wit...

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Bibliographic Details
Published in:Building services engineering research & technology Vol. 23; no. 4; pp. 233 - 242
Main Authors: Chow, D HC, Levermore, G, Jones, P, Lister, D, Laycock, P J, Page, J
Format: Journal Article
Language:English
Published: Thousand Oaks, CA Sage Publications 01-11-2002
Sage Publications Ltd
Subjects:
Buildings
Climate change
Datasets
Design
Emissions
General circulation models
Radiation
Simulation
Summer
Temperature
Trends
Winter
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Summary:Buildings and plant are designed utilizing near-extreme weather data. The present data used are brie‘ y discussed, including manual near-extreme percentiles for manual design and hourly data for simulation on a PC (test reference years and design summer years, and near-extreme periods). However, with climate change occurring, designs based on current data will produce uncomfortable summer thermal conditions within and around buildings in the future. This expected change is especially relevant now, as buildings have to last typically from 50 to 100 years. Climate change data for the future are needed to assess the performance of buildings and plant in the future. The Hadley Centre climate change models could provide such data. In this paper analysis of extreme data from one model, the HadCM3 model (south-east England grid box) with an appropriate climate change scenario, are considered in relation to their use for design assessment. Dry bulb temperature and solar irradiance extreme values are considered in this paper. The expected trend in both minimum and maximum temperature is for both to increase with time, but the maxima are found to rise faster than the minima. There are two factors in‘ uencing the solar radiation estimates, the basic clarity of the atmosphere and the seasonal amount of cloud. The latter is predicted to increase slightly in winter and decrease slightly in summer. The variations in the predicted short-wave radiation values re‘ ect the expected combined impacts of these two factors. The implications of these results are brie‘ y discussed.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0143-6244
1477-0849
DOI:10.1191/0143624402bt046oa