In the UK retail outlets are the biggest emitters of CO2 within the commercial property sector. Many retail business are striving to reduce their carbon footprints, with many having ambitious targets for carbon neutrality over the next few years. This feasibility study aims to identify new ways to dramtically reduce end use energy demand within the retail sector. The novelty of the proposed work lies both in its scope and the technologies that it will develop. Rather than attributing energy use and human comfort directly to spatial design, building services, energy controls, company energy policy or human behaviour, this research will explore the intersection of all of these influences within a 'mixed reality' retail environment. This would take the form of an interactive 'gaming' model as a portable 'box' with a tangible user interface deployed in store. It would allow users to 'visualise' energy use and its consequences as part of a broader energy engagement strategy. The box would comprise a scale model of a physical store layout and a set of coded intervention cards that would allow participants to interact with the physical model on the table as well as in the virtual model - the blend between physical and virtual interactions establishes a mixed reality design platform (MRDP). Real time data from existing store sensors can feed directly into the virtual model to inform and respond to scenario testing as users interact with the model. Store staff and customers would be able to engage with the model proactively or passively via a mix of physical, virtual and display modules. This serious gaming environment will provide a stimulating and interactive way of sharing ideas and co-creating new solutions. Most importantly, the MRDP transforms what is normally an intangible numerical database (numbers collected by performance sensors) into an interactive and immersive experience to allow for continual testing and refinement with the opportunity of users co-creating novel approaches to reducing energy use while maintaining a positive shopping experience. The learning that accrues through this serious gaming activity would inform future strategies for reducing energy demand whilst simultaneously attending to other performance criteria (e.g. internal air quality, thermal comfort and the customer experience). The mobility and placement of the MRDP allows the retail floor or back of house area to become a platform for learning and drives a more open relationship with stakeholders. Our principal research partner is Tesco PLC, the UK's largest retailer with revenue of over £55 Billion. Tesco have an ambitious commitment to become a zero carbon business by 2050, and as part of this they aim to reduce carbon emissions in store by 50% over the next 4 years. This research would support their objectives by developing an exciting method of accelerating their progress towards their corporate goal and will help position the organisation at the vanguard of current technology and thinking in the energy demand reduction space.

This project will develop sound methods for future climate change data for building designers to use for new buildings and refurbishments that could last to the end of this century. The principal application output will be a draft Technical Memorandum (TM) for the Chartered Institution of Building Services Engineers, CIBSE, suitable for practising designers. This will be supported by extensive case studies to validate the new weather data design methodology and be used in research tasks described later. 'Story lines' relevant to different scenarios for the climate and built environment will be developed as well as risk levels in building design to enable designers to use the weather data with confidence. The TM will provide CIBSE with a consistent methodology for the selection and use of future data for its new Design Guide, a fundamental document used by designers of buildings and their services and a supporting document for the Government's Building Regulations. The basis for this project will be the UK Climate Impacts Programme (UKCIP) future scenarios to be published in 2008 (UKCIP08) from which may be derived probabilities of different weather outcomes over this century. Academic outputs will include an extensive assessment of the carbon reduction potential of active and passive systems and designs for new and refurbished buildings. They will utilise case studies with PC simulation of the building and systems, employing the new probabilistic weather data. These assessments will provide designers and policy makers with guidelines to help reduce the growth in greenhouse gases (GHGs) from buildings, which at present contribute about 50% of the UK emissions. Other academic outputs will provide the theoretical basis underlying the proposed consistent PC-based and manual design methodology with coincident, probabilistic future weather data parameters such as solar radiation, air temperature, wind speed and direction. It is known that solar radiation and air temperature have peak values at different times and on different days but current design methods do necessarily separate them so that over-design often occurs. A related academic output will be a theory underpinning the selection of the proposed new Design Reference Year (DRY) which will facilitate building design (including passive and active heating and cooling systems and comfort assessment) with simulation on a PC. The DRY will replace the currently unsatisfactory Design Summer Year. Solar radiation data, not covered in detail in the HadRM3 and UKCIP02 models, will be developed to satisfy designers' requirements. Likewise wind data (crucial to include since wind drives natural ventilation) although the confidence level will be lower. Rainfall duration and quantity are also important in the building design process because of drainage and rain penetration damage and designers' requirements will again be reviewed.'Urban heat island' effects (urban areas are often hotter than the nearby rural areas), briefly mentioned in the present Guide, will be incorporated in the new data, developing on SCORCHIO work to provide more realistic urban weather data. Local modification or downscaling will also be applied to generate data for other sites in the UK. This will enable the new Guide to cover more than the current 14 sites for which data were developed by Manchester for CIBSE.To ensure that the new, probabilistic outputs will be useful to professionals, and to reflect best practice in design, there will be strong stakeholder involvement through the formation of a Stakeholders Group, including Corresponding Members, which will include CIBSE, architects and software houses and housebuilders. Policy interests will be reached via the Department for Communities and Local Government, and DEFRA and their contractors, such as BRE. There will be links to the Manchester-led EPSRC SCORCHIO urban heat island and climate change project, UKCIP and the Tyndall Centre.

This project will develop sound methods for future climate change data for building designers to use for new buildings and refurbishments, most of which will last to the end of this century. The outputs will primarily be: academic papers and a draft for a Chartered Institution of Building Services Engineers, CIBSE, Technical Memorandum, suitable for practising designers; case studies to validate the new weather data design methodology and assess the potential adaptation of new and refurbished buildings to reduce carbon emissions. This TM will also be useful for CIBSE to use to determine a consistent future weather design methodology and future data for its new Design Guide, which is the fundamental document used by Building Services Engineers for designing buildings and their services. It is a supporting document for the Government's Building Regulations. The basis for this CIBSE data will be the new UK Climate Impacts Programme, UKCIP, future scenarios due in 2008, UKCIP08, with probabilities of various future weather outcomes for this century.To ensure that the new, probabilistic outputs will be useful to professionals, and to reflect best practice in design, there will be strong stakeholder involvement through the formation of a Stakeholders Group, via CIBSE, (Weather Task Force and collaborating consultancies), the Manchester-led EPSRC SCORCHIO project, (looking at urban heat island and climate change vulnerability, with contacts to UKCIP and the Tyndall Centre), architects and software houses. Policy makers will be reached via the Stakeholder Group Corresponding Members linked to the Department for Communities and Local Government and their contractors, including BRE. Risk levels will be assessed and data provided to enable designers to use the data with confidence. This bottom-up approach will serve to inform policy makers of what can be achieved practically. In addition there will be numerous case studies for validating the new methodology andTo provide this consistency, a novel method will be developed which will allow UKCIP08 scenarios and probabilistic weather data to be the basis of design which takes into account coincident weather parameters, e.g. solar radiation, air temperature, wind speed and direction. It is known that solar and air temperature have profound and sometimes differing influences on the comfort and carbon emissions of the building and that design values in the Guide are not necessarily coincident. Thus the hottest summer (or summer day) may well not be the sunniest summer (or day). New building design indices will be developed, with the aid of the current building designs contributed by members of the Stakeholder Group and collaborators. Solar radiation data, not covered in detail in the HadRM3 and UKCIP02 models, will be developed to satisfy designers' requirements. Likewise wind data, although the confidence level will be lower. It will be crucial to include wind data since wind drives natural ventilation. Rainfall duration and quantity are also important in the building design process because of drainage and rain penetration damage and designers' requirements will again be reviewed.Urban heat island effects, (where the urban areas are often hotter than the nearby rural areas), briefly mentioned in the present Guide, will be developed from the EPSRC SCORCHIO work to provide more realistic urban weather data. Local modification or downscaling will also be applied to generate data for other sites in the UK. This will enable the new Guide to cover more than the current 14 sites for which data were developed by Manchester for CIBSE

This project will develop sound methods for future climate change data for building designers to use for new buildings and refurbishments that could last to the end of this century. The principal application output will be a draft Technical Memorandum (TM) for the Chartered Institution of Building Services Engineers, CIBSE, suitable for practising designers. This will be supported by extensive case studies to validate the new weather data design methodology and be used in research tasks described later. 'Story lines' relevant to different scenarios for the climate and built environment will be developed as well as risk levels in building design to enable designers to use the weather data with confidence. The TM will provide CIBSE with a consistent methodology for the selection and use of future data for its new Design Guide, a fundamental document used by designers of buildings and their services and a supporting document for the Government's Building Regulations. The basis for this project will be the UK Climate Impacts Programme (UKCIP) future scenarios to be published in 2008 (UKCIP08) from which may be derived probabilities of different weather outcomes over this century. Academic outputs will include an extensive assessment of the carbon reduction potential of active and passive systems and designs for new and refurbished buildings. They will utilise case studies with PC simulation of the building and systems, employing the new probabilistic weather data. These assessments will provide designers and policy makers with guidelines to help reduce the growth in greenhouse gases (GHGs) from buildings, which at present contribute about 50% of the UK emissions. Other academic outputs will provide the theoretical basis underlying the proposed consistent PC-based and manual design methodology with coincident, probabilistic future weather data parameters such as solar radiation, air temperature, wind speed and direction. It is known that solar radiation and air temperature have peak values at different times and on different days but current design methods do necessarily separate them so that over-design often occurs. A related academic output will be a theory underpinning the selection of the proposed new Design Reference Year (DRY) which will facilitate building design (including passive and active heating and cooling systems and comfort assessment) with simulation on a PC. The DRY will replace the currently unsatisfactory Design Summer Year. Solar radiation data, not covered in detail in the HadRM3 and UKCIP02 models, will be developed to satisfy designers' requirements. Likewise wind data (crucial to include since wind drives natural ventilation) although the confidence level will be lower. Rainfall duration and quantity are also important in the building design process because of drainage and rain penetration damage and designers' requirements will again be reviewed.'Urban heat island' effects (urban areas are often hotter than the nearby rural areas), briefly mentioned in the present Guide, will be incorporated in the new data, developing on SCORCHIO work to provide more realistic urban weather data. Local modification or downscaling will also be applied to generate data for other sites in the UK. This will enable the new Guide to cover more than the current 14 sites for which data were developed by Manchester for CIBSE.To ensure that the new, probabilistic outputs will be useful to professionals, and to reflect best practice in design, there will be strong stakeholder involvement through the formation of a Stakeholders Group, including Corresponding Members, which will include CIBSE, architects and software houses and housebuilders. Policy interests will be reached via the Department for Communities and Local Government, and DEFRA and their contractors, such as BRE. There will be links to the Manchester-led EPSRC SCORCHIO urban heat island and climate change project, UKCIP and the Tyndall Centre.

This project will develop sound methods for future climate change data for building designers to use for new buildings and refurbishments that could last to the end of this century. The principal application output will be a draft Technical Memorandum (TM) for the Chartered Institution of Building Services Engineers, CIBSE, suitable for practising designers. This will be supported by extensive case studies to validate the new weather data design methodology and be used in research tasks described later. 'Story lines' relevant to different scenarios for the climate and built environment will be developed as well as risk levels in building design to enable designers to use the weather data with confidence. The TM will provide CIBSE with a consistent methodology for the selection and use of future data for its new Design Guide, a fundamental document used by designers of buildings and their services and a supporting document for the Government's Building Regulations. The basis for this project will be the UK Climate Impacts Programme (UKCIP) future scenarios to be published in 2008 (UKCIP08) from which may be derived probabilities of different weather outcomes over this century. Academic outputs will include an extensive assessment of the carbon reduction potential of active and passive systems and designs for new and refurbished buildings. They will utilise case studies with PC simulation of the building and systems, employing the new probabilistic weather data. These assessments will provide designers and policy makers with guidelines to help reduce the growth in greenhouse gases (GHGs) from buildings, which at present contribute about 50% of the UK emissions. Other academic outputs will provide the theoretical basis underlying the proposed consistent PC-based and manual design methodology with coincident, probabilistic future weather data parameters such as solar radiation, air temperature, wind speed and direction. It is known that solar radiation and air temperature have peak values at different times and on different days but current design methods do necessarily separate them so that over-design often occurs. A related academic output will be a theory underpinning the selection of the proposed new Design Reference Year (DRY) which will facilitate building design (including passive and active heating and cooling systems and comfort assessment) with simulation on a PC. The DRY will replace the currently unsatisfactory Design Summer Year. Solar radiation data, not covered in detail in the HadRM3 and UKCIP02 models, will be developed to satisfy designers' requirements. Likewise wind data (crucial to include since wind drives natural ventilation) although the confidence level will be lower. Rainfall duration and quantity are also important in the building design process because of drainage and rain penetration damage and designers' requirements will again be reviewed.'Urban heat island' effects (urban areas are often hotter than the nearby rural areas), briefly mentioned in the present Guide, will be incorporated in the new data, developing on SCORCHIO work to provide more realistic urban weather data. Local modification or downscaling will also be applied to generate data for other sites in the UK. This will enable the new Guide to cover more than the current 14 sites for which data were developed by Manchester for CIBSE.To ensure that the new, probabilistic outputs will be useful to professionals, and to reflect best practice in design, there will be strong stakeholder involvement through the formation of a Stakeholders Group, including Corresponding Members, which will include CIBSE, architects and software houses and housebuilders. Policy interests will be reached via the Department for Communities and Local Government, and DEFRA and their contractors, such as BRE. There will be links to the Manchester-led EPSRC SCORCHIO urban heat island and climate change project, UKCIP and the Tyndall Centre.