Fostering active network management through SMEs’ practises
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Managing the electricity network through ‘smart grid’ systems is a key strategy to address challenges of energy security, low carbon transitions and the replacement of ageing infrastructure networks in the UK. Small and medium enterprises (SMEs) have a significant role in shaping patterns of energy consumption. Understanding how their activities interrelate with changes in electricity systems is critical for active network management. A significant challenge for the transformation of electricity systems involves comprehending the complexity that stems from the variety of commercial activities and diversity of social and organizational practises among SMEs that interact with material infrastructures. We engage with SMEs to consider how smart grid interventions ‘fit’ into everyday operational activities. Drawing on analysis of empirical data on electricity use, smart metre data, surveys, interviews and ‘energy tours’ with SMEs to understand lighting, space heating and cooling, refrigeration and IT use, this paper argues for experimenting with the use of practise theory as a framework for bringing together technical and social aspects of energy use in SMEs. This approach reveals that material circumstances and temporal factors shape current energy demand among SMEs, with ‘connectedness’ an emergent factor.
KeywordsSMEs Smart grid Network management Practise Theory UK
This work was supported by Ofgem, the UK’s energy regulator, under the Low Carbon Network Fund (LCNF). The research was conducted as part of a collaborative research project undertaken by the authors from Durham and Newcastle Universities with colleagues from Northern Powergrid, British Gas, EA Technologies and National Energy Action whose contribution and support we would like to acknowledge. The authors would also like to acknowledge that the development of the paper benefitted significantly from the detailed review process but any weaknesses that remain are the responsibility of the authors.
- Bichard, E. (2000). Time to reassess the small business environment advisory system in the UK. In R. Hillary (Ed.), Small and medium-sized enterprises and the environment. Sheffield: Greenleaf.Google Scholar
- Bilton, M., Ramsey, C., Leach, M., Devine-Wright, H., Devine-Wright, P., & Kirschen, D. (2008). Domestic electricity consumption and demand-side participation: opportunities and challenges for the UK power system. In M. Grubb, T. Jamasb, & M. G. Pollitt (Eds.), Delivering a low carbon electricity system: technologies, economics and policy (pp. 207–228). Cambridge: Cambridge University Press.Google Scholar
- BIS (Business, Innovation & Skills) (2012). Business population estimates for the UK and regions 2012. London: Department for Business Innovation and Skills. Resource document. www.bis.gov.uk/assets/biscore/statistics/docs/b/12-92-bpe-2012-stats-release.pdf. Accessed 18 December 2013.1
- Bradford, J., & Fraser, E. D. G. (2007). Local authorities, climate change and small and medium enterprises: identifying effective policy instruments to reduce energy use and carbon emissions. Corporate Social Responsibility and Environmental Management, 14.Google Scholar
- Carbon Trust, (2010). Advanced metering for SMEs: carbon and cost savings. Resource document. https://www.carbontrust.com/media/77244/ctc713_advanced_metering_for_smes.pdf. Accessed 18 June 2015.
- Cox, A., Higgins, T., Gloster, R., Foley, B., & Darnton, A. (2012). The impact of workplace initiatives on low carbon behaviours. Report by AD Research & Analysis for The Scottish Government: Institute for Employment Studies.Google Scholar
- Darby, S. J. (2010b). Literature review for the energy demand research project. Oxford:Oxford Environmental Change Institute.Google Scholar
- DECC (2012). Energy consumption in the UK. UK:Department of Energy & Climate. Change. Resource document. www.gov.uk/government/publications/energy-consumption-in-the-uk Accessed 18 December 2013.
- Element Energy (2012). Demand side response in the non-domestic sector: final report for ofgem. Leicester De Montford University.Google Scholar
- European Commission (2006). European SmartGrids technology platform (ESGT) - vision and strategy for Europe’s electricity networks of the future, Office for Official Publications of the European. Brussels:Communities.Google Scholar
- Hall, M. (2013). Fridges could be switched off without owner’s consent to reduce strain on power stations. The Telegraph (28/04/2013), ed. Resource document. www.telegraph.co.uk/earth/energy/10023508/Fridges-could-be-switched-off-without-owners-consent-to-reduce-strain-on-power-stations.html. Accessed 18 December 2013.
- Hillary, R. (2000). Small and medium sized enterprises and the environment: business imperatives. Greenleaf Pub.Google Scholar
- Higginson, S., McKenna E., Thomson M. (2014). Can practice make perfect (models)? Incorporating social practice theory into quantitative energy demand models. In Behave 2014—Paradigm shift: from energy efficiency to energy reduction through social change, 3rd Behave Energy Conference, Oxford, UK, 3-4:17.Google Scholar
- IEA (2010). Energy technology perspectives: scenarios & strategies to 2050. Paris, France:International Energy Agency.Google Scholar
- Jamasb, T., & Pollitt, M. G. (2011). The future of electricity demand: customers, citizens and loads. Cambridge University Press.Google Scholar
- Ofgem (2013). DECC and ofgem smart grid forum. Resource document. www.ofgem.gov.uk/electricity/distribution-networks/forums-seminars-and-working-groups/decc-and-ofgem-smart-grid-forum Accessed 18 December 2013.
- ONS (2007). UK standard industrial classification of economic activities 2007 (SIC 2007). Basingstoke, Hants.:Palgrave Macmillan. Resource document. www.ons.gov.uk Accessed 3 January 2014.
- Lawrence, J., & Reiman, S. (2011). Small and medium business consumer’s experience of the energy market and their use of energy. Ofgem.Google Scholar
- Schatzki, T. R. (2002). The site of the social: a philosophical account of the constitution of social life and change. Pennsylvania State University Press.Google Scholar
- Schmiemann M. (2006). Eurostat Statistics in Focus, European Commisson.Google Scholar
- Shove, E., Pantzar, M., & Watson, M. (2012). The dynamics of social practice: everyday life and how it changes. Sage.Google Scholar
- SmartGrids European Technology Platform (2013). FAQs. Smart Grids:European technology platform for the electricity networks of the future. Resource document. www.smartgrids.eu Accessed 29 August 2013.
- Sorrell, S., Schleich, J., Scott, S., O’Malley, E., Trace, F., Boede, U., Ostertag, K., & Radgen, P. (2000). Barriers to energy efficiency in public and private organisations: final report to the European Commission. SPRU Environment & Energy:University of Sussex.Google Scholar
- Stromback, J., Dromacque, C., & Yassin, M. H. (2011). The potential of smart meter enabled programs to increase energy and systems efficiency: a mass pilot comparison. Helsinki, Finland:Vaasa ETT, Global Energy Think Tank.Google Scholar
- Sykes, R. (2009). Engaging SME’s to improve their energy efficiency: a market appraisal (electricity and gas). Resource document. Department of Energy and Climate Change. Resource document. www.ukccsrc.ac.uk/.../engagingsmesamarketappraisalmay09v112.doc. Accessed 10 December 2014.
- Thollander, P., Palm, J., & Rohdin, P. (2010). Categorizing barriers to energy efficiency—an interdisciplinary perspective. In J. Palm (Ed.), Energy Efficiency (49–62).Google Scholar
- Torriti J., Leach, M., Devine-Wright, P. (2011). Demand-side participation: price constraints, technical limits and behaviour risks. In T. Jamsan and M. Pollitt (Eds.) The future of electricity demand: customers, citizens and loads: Cambridge University Press.Google Scholar
- UK Standard Industrial Classification, 2007. Office of National Statistics. Resource document. http://www.ons.gov.uk/ons/guide-method/classifications/current-standard-classifications/standard-industrial-classification/index.html. Accessed 10 December 2014.
- Verbong, G.P.J., Beemsterboer, S., Sengers, F. (2013). Smart grids or smart users? Involving users in developing a low carbon electricity economy. Energy Policy, 52(0):117–125, doi: 10.1016/j.enpol.2012.05.003