Abstract
In addition to a growing and aging population, Canada has experienced large shifts in its residential sector. There are more households, homes are larger with less people in them, and there are more appliances per household, all of which contribute to increased energy consumption. The present work explores the demographic determinants of residential energy efficiency adoption using the 2013 Households and Environment Survey. With binary logistic regressions, we predicted the odds of households adopting three energy-efficient actions: energy-saving lights, programmable thermostats, and changes to a dwelling following an energy audit. Although it was found that Canadian households are participating in energy efficiency, not all groups are participating equally. Similar to previous research, seniors appear to be more inclined to adopt less challenging measures such as energy-saving lights, as opposed to more intensive dwelling upgrades. Additionally, levels of education and income were positively related to the adoption of energy efficiency measures. However, the results showed household income to be less of a contributing factor for decisions regarding dwelling changes compared to the financial incentives offered via government grants. The results suggest a need to increase energy efficiency education and to continue offering financial incentives as the country increases its residential energy efficiency.
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References
Abrahamse, W., & Steg, L. (2009). How do socio-demographic and psychological factors relate to households’ direct and indirect energy use and savings? Journal of Economic Psychology, 30(5), 711–720. https://doi.org/10.1016/j.joep.2009.05.006.
Abrahamse, W., & Steg, L. (2011). Factors related to household energy use and intention to reduce it: the role of psychological and socio-demographic variables. Human Ecology Review, 18(1), 30–40.
Allison, P. D. (2014). Measures of fit for logistic regression. In SAS Global Forum, Washington, DC.
Ameli, N., & Brandt, N. (2015). Determinants of households’ investment in energy efficiency and renewables: evidence from the OECD survey on household environmental behaviour and attitudes. Environmental Research Letters, 10(4), 044015. https://doi.org/10.1088/1748-9326/10/4/044015.
Benders, R. M. J., Kok, R., Moll, H. C., Wiersma, G., & Noorman, K. J. (2006). New approaches for household energy conservation—in search of personal household energy budgets and energy reduction options. Energy Policy, 2006(34), 3612–3622.
Berry, L., & Brown, M. (1988). Participation of the elderly in residential conservation programmes. Energy Policy, 16(2), 152–163.
Berry, L., & Schweitzer, M. (1991). Residential conservation programmes for the elderly. Marketing techniques and organizational structures. Energy Policy, 19(6), 596–605.
Biesiot, W., & Noorman, K. J. (1999). Energy requirements of household consumption: a case study of the Netherlands. Ecological Economics, 28(3), 367–383. https://doi.org/10.1016/S0921-8009(98)00113-X.
Blackwell, R. (2015). Canada dims the light on the incandescent light bulb. The Globe and Mail. Retrieved from http://www.theglobeandmail.com/report-on-business/industry-news/energy-and-resources/canada-dims-the-light-on-the-incandescent-light-bulb/article22739434/
Brounen, D., Kok, N., & Quigley, J. M. (2013). Energy literacy, awareness, and conservation behavior of residential households. Energy Economics, 38, 42–50. https://doi.org/10.1016/j.eneco.2013.02.008.
Brown, C., Gorgolewski, M., & Goodwill, A. (2015). Using physical, behavioral, and demographic variables to explain suite-level energy use in multiresidential buildings. Building and Environment, 89, 308–317. https://doi.org/10.1016/j.buildenv.2015.02.039.
Brown, M. A., & Rollinson, P. A. (1985). Residential energy consumption in low-income and elderly households: how nondiscretionar is it? Energy Systems and Policy, 9(3), 271–301.
CMHC. (2008). Impacts of the aging of the Canadian population on housing and communities. Research Highlight, Socio-Economic Series. Retrieved from www.cmhc.ca.
CMHC. (2012). Housing for older Canadians: the definitive guide to the over-55 market: Planning the Project, 1.
Fawcett, T. (2014). Exploring the time dimension of low carbon retrofit: owner-occupied housing. Building Research & Information, 42(4), 477–488. https://doi.org/10.1080/09613218.2013.804769.
Frederiks, E. R., Stenner, K., & Hobman, E. V. (2015). The socio-demographic and psychological predictors of residential energy consumption: a comprehensive review. Energies, 8(1), 573–609. https://doi.org/10.3390/en8010573.
Fritzsche, D. (1981). An analysis of energy consumption patterns by stage of family life cycle. Journal of Marketing Research, 18(May), 227–232.
Gamtessa, S. F. (2013). An explanation of residential energy-efficiency retrofit behavior in Canada. Energy and Buildings, 57, 155–164. https://doi.org/10.1016/j.enbuild.2012.11.006.
Gardner, G. T., & Stern, P. C. (2008). The short list: the most effective actions U.S. households can take to curb climate change. Environment, 50, 12–23.
Gatersleben, B., Steg, L., & Vlek, C. (2002). Measurement and determinants of environmentally significant consumer behavior. Environment and Behavior, 34(3), 335–362.
Gillingham, K., Harding, M., & Rapson, D. (2012). Split incentives in residential energy consumption. The Energy Journal, 33(2), 37.
Hicks, A. L., & Theis, T. L. (2014). Residential energy-efficient lighting adoption survey. Energy Efficiency, 7, 323–333. https://doi.org/10.1007/s12053-013-9226-6.
Hoicka, C. E., Parker, P., & Andrey, J. (2014). Residential energy efficiency retrofits: how program design affects participation and outcomes. Energy Policy, 65, 594–607. https://doi.org/10.1016/j.enpol.2013.10.053.
Holloway, D., & Bunker, R. (2006). Planning, housing and energy use: a review, urban policy and research. Urban Policy and Research, 24, 115–126.
Huebner, G. M., Hamilton, I., Chalabi, Z., Shipworth, D., & Oreszczyn, T. (2015). Explaining domestic energy consumption—the comparative contribution of building factors, socio-demographics, behaviours and attitudes. Applied Energy, 159, 589–600. https://doi.org/10.1016/j.apenergy.2015.09.028.
Jaccard, M., & Dennis, M. (2006). Estimating home energy decision parameters for a hybrid energy—economy policy model. Environmental Modeling and Assessment, 11(2), 91–100.
Macey, S. M. (1988). Eldery consumption and the elderly. The Canadian Geographer, 2(2), 167–169.
Mahapatra, K., & Gustavsson, L. (2008). An adopter-centric approach to analyze the diffusion patterns of innovative residential heating systems in Sweden. Energy Policy, 36(2), 577–590.
Maller, C. J., & Horne, R. E. (2011). Living lightly: how does climate change feature in residential home improvements and what are the implications for policy? Urban Policy and Research, 29(1), 59–72.
McKenzie-Mohr, D. (2011). Fostering sustainable behavior: an introduction to community-based social marketing. Gabriola Island: New society publishers.
Michelsen, C. C., & Madlener, R. (2012). Homeowners’ preferences for adopting innovative residential heating systems: a discrete choice analysis for Germany. Energy Economics, 34(5), 1271–1283. https://doi.org/10.1016/j.eneco.2012.06.009.
Mills, B. F., & Schleich, J. (2010). Why don’t households see the light? Explaining the diffusion of compact fluorescent lamps. Resource and Energy Economics, 32(3), 363–378. https://doi.org/10.1016/j.reseneeco.2009.10.002.
Mills, B., Schleich, J., & Volume, E. P. (2012). Residential energy-efficient technology adoption, energy conservation, knowledge, and attitudes: an analysis of European countries. Energy Policy, 49, 616–628.
Nair, G., Gustavsson, L., & Mahapatra, K. (2010). Factors influencing energy efficiency investments in existing Swedish residential buildings. Energy Policy, 38(6), 2956–2963. https://doi.org/10.1016/j.enpol.2010.01.033.
Natural Resources Canada. (n.d.). Retrieved from http://www.nrcan.gc.ca/energy/funding/efficiency/4947
Natural Resources Canada. (n.d.) Retrieved from https://oee.nrcan.gc.ca/corporate/statistics/neud/dpa/data_e/glossary_e.cfm#p
Natural Resources Canada. (2016). Energy efficiency trends in Canada 1990 to 2013.
Pan, Y., & Jackson, R. T. (2008). Ethnic difference in the relationship between acute inflammation and serum ferritin in US adult males. Epidemiology and Infection, 136, 421–431.
Peffer, T., Pritoni, M., Meier, A., Aragon, C., & Perry, D. (2011). How people use thermostats in homes: a review. Building and Environment, 46(12), 2529–2541.
Poortinga, W., Steg, L., Vlek, C., & Wiersma, G. (2003). Household preferences for energy-saving measures: a conjoint analysis. Journal of Economic Psychology, 24(1), 49–64. https://doi.org/10.1016/S0167-4870(02)00154-X.
Rea, L. M., & Parker, R. A. (2014). Designing and conducting survey research: a comprehensive guide. San Francisco: John Wiley & Sons.
Reid, L., Sutton, P., & Hunter, C. (2010). Theorizing the meso level: the household as a crucible of pro-environmental behaviour. Progress in Human Geography, 34(3), 309–327.
Ritchie, J. R. B., Mcdougall, G. H. G., & Claxton, J. D. (1981). Complexities of household energy consumption and conservation. Journal of Consumer Research, 8(3), 233–242.
Rogerson, P. A. (2001). Statistical methods for geography. London: Sage.
Sabia, J. J. (2008). There’s no place like home. A hazard model analysis of aging in place among older homeowners in the PSID. Research on Aging, 30(1), 3–35. https://doi.org/10.1177/0164027507307919.
Santin, O. G. (2011). Behavioural patterns and user profiles related to energy consumption for heating. Energy and Buildings, 43(10), 2662–2672.
Sardianou, E., & Genoudi, P. (2013). Which factors affect the willingness of consumers to adopt renewable energies? Renewable Energy, 57, 1–4. https://doi.org/10.1016/j.renene.2013.01.031.
Shove, E. (1998). Gaps, barriers and conceptual chasms: theories of technology transfer and energy in buildings. Energy Policy, 26(15), 1105–1112.
Statistics Canada. (2011) Census of population and statistics Canada catalogue no. 98-313-XCB http://www.statcan.gc.ca/tables-tableaux/sum-som/l01/cst01/famil55a-eng.htm. Accessed 23 Oct 2017.
Stern, P. C. (2000). New environmental theories: toward a coherent theory of environmentally significant behavior. Journal of Social Issues, 56(3), 407–424.
Stern, P. C., & Gardner, G. T. (1981). Psychological research and energy policy. American Psychologist, 36(4), 329–342.
Tonn, B., & Berry, L. (1986). Determinants of participation in home energy audit/loan programs: discrete choice model results. Energy, 11(8), 785–795.
Toronto Hydro. (n.d.). Retrived from http://www.torontohydro.com/sites/electricsystem/electricityconservation/residentialconservation/Pages/HomeLighting.aspx
US Department of Enrgy. (n.d.). Retrieved from https://energy.gov/energysaver/thermostats
Verhage, B. J. (1980). Stimulating energy conservation: applying the business heritage of marketing. European Journal of Marketing, 14(4), 167–179.
Warriner, G. K. (1981). Electricity consumption by the elderly: policy implications. Journal of Consumer Research, 8, 258–264.
Wilson, C., Crane, L., & Chryssochoidis, G. (2015). Why do homeowners renovate energy efficiently? Contrasting perspectives and implications for policy. Energy Research & Social Science, 7, 12–22.
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The authors would like to thank the anonymous reviewers for their valuable comments and suggestions. Although the research and analysis are based on data from Statistics Canada, the opinions expressed do not represent the views of Statistics Canada.
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Das, R., Richman, R. & Brown, C. Demographic determinants of Canada’s households’ adoption of energy efficiency measures: observations from the Households and Environment Survey, 2013. Energy Efficiency 11, 465–482 (2018). https://doi.org/10.1007/s12053-017-9578-4
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DOI: https://doi.org/10.1007/s12053-017-9578-4