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CBES Platform Grant - The Unintended Consequences of Decarbonising the Built Environment

Gaining a deeper understanding of the physical performance of built environment choices and their implications for energy use, health, conservation, productivity and climate change.

7 July 2017

The Complex Built Environment Systems group (CBES) is a dynamic team of academics working together to gain a deeper understanding of the physical performance of built environment choices and their implications for energy use, health, conservation, productivity and climate change.  CBES is primarily interested in developing solutions to the practical problems of designing, constructing, and managing appropriate environments within and around buildings.  

In 2006, CBES was awarded a prestigious five-year platform grant from EPSRC in recognition of its "world-leading" research into the complex built environment.

This platform grant was renewed for another five years in 2011 in order to allow CBES to focus on the unintended consequences of de-carbonising the built environment.

The grant was renewed for another five years for a second time in 2017, with CBES now focusing on transforming the scientific understanding of the systemic nature of a sustainable built environment. 

People

PI: Michael Davies

Co-Is: Mark Barrett, May Cassar, Ben Croxford, Paul Ekins, Robert Lowe, Tadj Oreszczyn, Peter Raynham, Ian Ridley, David Shipworth, Philip Steadman, Matija Strlic  and Alex Summerfield.

Rs: Henoc Agbota, Zaid Chalabi, Naomi Luxford, Alex Macmillan, Neil May, Eleni Oikonomou, Caroline Rye, Cameron Scott, Esfandiar Burman, Sibel Eker, Phil Symonds, Gurdane Virk, Clive Shrubsole and Nici Zimmermann. 

Outputs

Recent outputs include the following selection of papers published / accepted since January 2016 plus two research papers of note being in receipt of awards:

1. Taylor J, Mavrogianni A, Davies M, Wilkinson, P, Shrubsole C, Hamilton I, Oikonomou E, Biddulph P. Housing as a modifier of air contaminant and temperature exposure in Great Britain: A modelling framework Indoor Air 2016, Ghent, Belgium, 03 Jul 2016 - 08 Jul 2016.

2. Symonds P, Taylor J, Chalabi Z, Mavrogianni A, Davies M, Hamilton I, Vardoulakis S, Heaviside C, Macintyre H. Development of an England-wide indoor overheating and air pollution model using artificial neural networks Journal of Building Performance Simulation 1-14 02 Apr 2016.

3. Taylor J, Davies M, Mavrogianni A, Shrubsole C, Hamilton I, Das P, Jones B, Oikonomou E, Biddulph P. Mapping indoor overheating and air pollution risk modification across Great Britain: A modelling study Building and Environment 99:1-12 01 Apr 2016. 

4. Macmillan A, Davies M, Shrubsole C, Luxford N, May N, Chiu LF, Trutnevyte E, Bobrova Y, Chalabi Z. Integrated decision-making about housing, energy and wellbeing: a qualitative system dynamics model Environmental Health 15 Article number ARTN 37 08 Mar 2016.

5. Shrubsole, C., Taylor, J., Das, P., Hamilton, I. G., Oikonomou, E., & Davies, M. (2016). Impacts of energy efficiency retrofitting measures on indoor PM2.5 concentrations across different income groups in England: a modelling study. Advances in Building Energy Research, 10 (1), 69-83.

6. Impact of the new Chilean air-tightness regulation on indoor air pollution in dwellings with inefficient heating sources Findings from a Field Study. Narvaez, R., Shrubsole, C., Altamirano-Medina, Indoor Air Conference 2016 Ghent, Belgium. 

7. Estimating Current and Future Indoor Air Pollution and Temperatures in England. Taylor, J., Symonds, P., Mavrogianni, A., Davies, M., Shrubsole, C., Hamilton, I., Chalabi, Z. and Wilkinson, P.  Indoor Air Conference 2016 Ghent, Belgium.    

8. Makantasi A.-M., Mavrogianni A. Adaptation of London's social housing to climate change through retrofit: a holistic evaluation approach. Advances in Building Energy Research. 2016; 10:1, 99-124.

9. Loucari C., Taylor J., Raslan R., Oikonomou E., Mavrogianni A. Retrofit solutions for solid wall dwellings in England: The impact of uncertainty upon the energy performance gap. Building Services Engineering Research and Technology. 2016.

10. Taylor J., Symonds P., Mavrogianni A., Davies M., Shrubsole C., Hamilton I., Chalabi Z., Wilkinson P. Modelling population exposure to high indoor temperatures under changing climates, housing conditions, and urban environments in England. In: International Conference on Urban Risks (ICUR); 30 June - 2 July 2016; Lisbon, Portugal.

11. Hsu S.-C., Hamilton I., Mavrogianni A. Comparing spatial interpolation techniques of local urban temperature for heat- related health risk estimation in a sub-tropical city. In: Urban Transitions Global Summit 2016 - Towards A Better Urban future in an Interconnected Age; 5-9 September 2016; Shanghai, China. 

12. Eker, Sibel; Zimmermann, Nici: Understanding the Mechanisms behind Fragmentation in the Housing Construction and Retrofit, 34th International Conference of the System Dynamics Society, 17–21 July 2016.

13. Taylor J., Picetti R., Symonds P., Heaviside C., MacIntyre H., Wilkinson P., Davies M., Mavrogianni A. Estimating changes in heat-related mortality following built environment adaptations in the West Midlands, UK. In: Public Health England (PHE) Annual Conference 2016; 13-14 September 2016; London, UK.

14. Joshi R., Mavrogianni A. A holistic modelling framework for retrofitting hard-to-treat homes in London: Energy, comfort, cost and value propositions. In: International Building Performance Simulation Association (IBPSA) Conference - Building Simulation and Optimisation (BSO) 2016; 16-17 September 2016; Newcastle, UK. 

15. Taylor J., Symonds P., Mavrogianni A., Davies M., Shrubsole C., Hamilton I., Chalabi Z., Wilkinson P. Estimating current and future indoor air pollution and temperatures in England. In: Indoor Air 2016; 3-8 July 2016; Ghent, Belgium.

16. Schneider dos Santos R., Taylor J., Davies M., Mavrogianni A., Symonds P. Modelling and monitoring tools to evaluate the urban heat island’s contribution to the risk of indoor overheating. In: International Building Performance Simulation Association (IBPSA) Conference - Building Simulation and Optimisation (BSO) 2016; 16-17 September 2016; Newcastle.

17. Stave, Krystyna; Zimmermann, Nici; Kim, Hyunjung: What are System Dynamics Insights? 34th International Conference of the System Dynamics Society, 17–21 July 2016.

18. Yates, T. A., Khan, P. Y., Knight, G. M., Taylor, J. G., McHugh, T. D., Lipman, M., . . . Abubakar, I. (2016). The transmission of Mycobacterium tuberculosis in high burden settings. The Lancet Infectious Diseases, 16 (2), 227-238. doi:10.1016/S1473-3099(15)00499-5.

19. Taylor, J., Yates, T., Mthethwa, M., Tanser, F., Abubakar, I., and Altamirano, H. (2016). Measuring ventilation and modelling M. tuberculosis transmission in indoor congregate settings, rural KwaZulu-Natal. International Journal of Tuberculosis and Lung Disease, doi:10.5588/ijtld.116.0085.

20. Milner, J., Taylor, J., Hamilton, I., Barreto, M., Davies, M., Haines, A., Sehgal, M., Wilkinson, P. (2016). Climate change related temperature increases and associated health risks for cities in the SHUE database. In: International Society of Environmental Epidemiologists (ISEE) Conference - 2016; 1-4 September 2016; Rome, Italy.

21. Picetti, R., Taylor, J., Symonds, P., Macintyre, H., Heaviside, C., Davies, M., Wilkinson, P. (2016). Estimating the health impact of housing adaptations on heat-related risks in the West Midlands region (UK).  In: International Society of Environmental Epidemiologists (ISEE) Conference - 2016; 1-4 September 2016; Rome, Italy.

22. Li, Y., Lalor, M., Taylor, J., Altamirano-Medina, H. (2016). Assessing the role of UK buildings on the transmission of tuberculosis. In: Indoor Air 2016; 3-8 July 2016; Ghent, Belgium.

23. Taylor, J., Mavrogianni, A., Davies, M., Das, P., Shrubsole, C., Biddulph, P. & Oikonomou (2015). Understanding and mitigating overheating and indoor PM2.5 risks using coupled temperature and indoor air quality models Building Services Engineering Research and Technology, 0 (0), 682-690 Winner of the CIBSE Napier Shaw Bronze Research Medal, awarded for the most highly rated research paper published in BSER&T.

24. Shrubsole C., Macmillan A., Davies M., May N., (2014). 100 unintended consequences of policies to improve the energy efficiency of the housing stock. Indoor and Built Environment 23: 340-352Awarded Best Paper 2014:  Indoor and Built Environment Sage Publishing. 

Engagement

Recent examples of engagement in 2016 include:

We are currently involved in a series of on-going projects which involves over 50 successful collaborations with other research teams / institutions. In April we were visited by a large team from Tsinghua University for a 2-day workshop regarding the new EPSRC funded ‘TOP’ (‘The ‘Total Performance’ of Low Carbon Buildings in China and the UK) project. We have undertaken the initial round of interviews with stakeholders for the system dynamics work and also arranged for access to suitable buildings for the monitoring work which has now begun. The HEW report has been published.  This involved very significant engagement with approximately 50 stakeholders and hence this work is a major knowledge exchange success for CBES. A large stakeholder workshop was held at the end of June We launched the new UCL IEDE Master’s Degree in ‘Health, Wellbeing and Sustainable Buildings’ at VISION - a event aimed at architects, specifiers and their clients. Members of CBES contributed to the Committee on Climate Change UK Climate Change Risk Assessment 2017 Evidence Report, providing vital evidence to assist with government policy on climate change adaptation and mitigation for the built environment The UK Centre for Moisture in Buildings (UKCMB) held its launch conference at UCL The aim of the UKCMB is the development of a moisture-safe built environment in the UK. The centre is the brain child of CBES member Neil May. The UKCMB team has been awarded Innovate UK funding for a 2 year KTP project co-funded by the Property Care Association (PCA). The EPSRC funded ‘MERLIN 2 ‘project (led by Peter Raynham) to undertake work to reduce the energy consumed by road lighting, whilst maintaining the visual benefits, continues. This project is aimed at understanding the needs of pedestrians at night Flood House, launched in April, was a collaborative project between UCL IEDE CBES Staff and  The Bartlett School of Architecture This mobile prototype structure travelled along Thames Estuary for four weeks as part of the Radical Essex project We now have a series of ‘so-what?’ reports published on the ARCC network where we disseminate CBES research in an easily to read format for a wider audience. CBES continues to contribute to the Scientific Board of ‘Healthy Polis’ – the International Consortium for Urban Environmental Health & Sustainability. 

Links

Read more about the ‘HEW’ project, which is a subset of the CBES Platform Grant

For further information please contact: Michael Davies