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Projects: Projects for Investigator
Reference Number EP/M021890/1
Title The creation of localized current and future weather for the built environment
Status Completed
Energy Categories Energy Efficiency(Residential and commercial) 50%;
Not Energy Related 50%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Computer Science and Informatics) 20%;
ENGINEERING AND TECHNOLOGY (Architecture and the Built Environment) 40%;
ENVIRONMENTAL SCIENCES (Earth Systems and Environmental Sciences) 40%;
UKERC Cross Cutting Characterisation Sociological economical and environmental impact of energy (Environmental dimensions) 100%
Principal Investigator Professor DA (David ) Coley
No email address given
Architecture and Civil Engineering
University of Bath
Award Type Standard
Funding Source EPSRC
Start Date 01 September 2015
End Date 31 August 2019
Duration 48 months
Total Grant Value £614,628
Industrial Sectors Environment
Region South West
Programme NC : Engineering
Investigators Principal Investigator Professor DA (David ) Coley , Architecture and Civil Engineering, University of Bath (99.997%)
  Other Investigator Dr S Natarajan , Architecture and Civil Engineering, University of Bath (0.001%)
Dr NJ McCullen , Architecture and Civil Engineering, University of Bath (0.001%)
Dr MA Brown , Computer Science, University of Bath (0.001%)
  Industrial Collaborator Project Contact , CIBSE (0.000%)
Project Contact , Microsoft Research Ltd (0.000%)
Project Contact , Fielden Clegg Bradley (0.000%)
Project Contact , Innovate UK (0.000%)
Project Contact , Colin Johns Architect (0.000%)
Project Contact , AVR London (0.000%)
Project Contact , Oculus Building Consultancy (0.000%)
Project Contact , Seed Landscape Design Ltd (0.000%)
Project Contact , Thoday Associates (0.000%)
Project Contact , To-Studio (0.000%)
Web Site
Abstract It is well known that climate change will have a significant impact on UK building design and energy use. It is also known within the building science and architectural communities that the current weather files used for thermal modeling of buildings only represent average weather rather than heat waves or cold snaps. As was shown by the 14,000 deaths in Paris during the 2003 heat wave, this is a highly serious issue and there is the need to ensure future buildings are designed to deal with future weather, or extremes of current weather.In addition, the current weather files used by the construction industry and building scientists divide the UK into only 14 regions, with, for example, the whole of the South West peninsular (including up-land areas) being assigned the coastal Plymouth weather file. It is known that this can easily lead to a 200% error in the estimation of annual energy demand. The scale of this error is such that it renders many of the dynamic simulations carried out by engineers questionable. This is unfortunate when simulation is used within the framework of the building regulations, but it is fatal when trying to use simulation to estimate how resilient a pre-existing building is, or the danger its vulnerable occupants might be in.The aim of this project will be to see if a method can be devised that is capable of creating local weather from 2015 to 2080 covering the whole UK at a resolution of 5km, and to include within this files that represent various excursions from the mean: e.g. heat waves and cold snaps.An interdisciplinary approach is envisaged with the project separated into six work packages:WP1 We will use a method already published by the team together with the UKCP09 weather generator to produce current and future typical weather at a resolution of approximately 5km.WP2 The work in the previous work package will initially require the creation of thousands of years of weather per site. Within these initial years will reside a large number of weather events of interest to the building scientist or engineer. These files will be used in computer models of 1200 differing architectures and building uses to identify what are the key drivers of weather variable coincidence that defines the likelihood of building system failure or thermal issues for occupants.WP3 Having characterised which events best describe the stresses on a building, its occupants and systems in WP2. Event years (i.e. times series of weather data variables on a one hour time step that represent atypical hot, dry, cold and wet periods) will be created for the whole UK.WP4 Having generated the event years, and simulations from the 1200 buildings, the two will be recombined to produce the first map of UK resilience to a changing climate. Although others have looked at the regional resilience of the built environment using average weather years, the concern is not about the response of building and occupants to such average time series, but to more extreme events.WP5 Given the large number of files proposed, guidance will need to be given on which to use in practice, and how this might be expressed in the building regulations and other documentation.We plan to use case studies as the main guidance tool. This will add greatly to their intellectual validity within the target audience of practicing engineers. In total, we expect the guidance to be tested on >100 real building projects. WP6 Impact. All weather files produced by the project will be publicly available for a minimum of 10 years. A series of road shows will be undertaken at the end of the project. At these events the results of the project will be presented to a large number of users. The idea will be to introduce the whole UK built environment community to the idea of designing resilient buildings aided by the weather data produced by the project. A short film will also be produced for those that cannot attend and for an international audience

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Added to Database 01/12/15