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Size matters: House size and thermal efficiency as policy strategies to reduce net emissions of new developments

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  • Clune, Stephen
  • Morrissey, John
  • Moore, Trivess

Abstract

Reducing CO2-e emissions from residential buildings through more stringent building codes has gained increasing international focus. Concurrently, Australian houses have steadily increased in size from 1984 to 2009. This paper estimates the capacity of building codes to reduce residential emissions and achieve progressive reduction targets in light of increasing house sizes. A Residential Emissions Calculator was developed to compare heating and cooling loads for 72 new Australian houses—based on star ratings, historic Australian house sizes by state, and international house sizes. The analysis illustrates that house size has significant impact on the capacity of residential building codes to reduce emissions, and informs three key results: (1) Victoria is forecast to dominate emissions from new houses in Australia, (2) The increase in house size from 2003 to 2009 in Victoria decreased the effectiveness of moving from 5 stars to 6 stars by 38%, (3) Progressive CO2-e reduction targets of 80% could be achieved by a variety of house size and star rating scenarios (with significant housing affordability impacts). The result posit building codes and house size as potent strategies to limit energy associated emissions and underlines the need to apply these strategies in tandem as part of integrated national emissions management policy.

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  • Clune, Stephen & Morrissey, John & Moore, Trivess, 2012. "Size matters: House size and thermal efficiency as policy strategies to reduce net emissions of new developments," Energy Policy, Elsevier, vol. 48(C), pages 657-667.
    • Handle: RePEc:eee:enepol:v:48:y:2012:i:c:p:657-667
    DOI: 10.1016/j.enpol.2012.05.072
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    2. Rebecca Tunstall, 2023. "An empirical test of measures of housing degrowth: Learning from the limited experience of England and Wales, 1981–2011," Urban Studies, Urban Studies Journal Limited, vol. 60(7), pages 1285-1303, May.
    3. Morrissey, J. & Meyrick, B. & Sivaraman, D. & Horne, R.E. & Berry, M., 2013. "Cost-benefit assessment of energy efficiency investments: Accounting for future resources, savings and risks in the Australian residential sector," Energy Policy, Elsevier, vol. 54(C), pages 148-159.
    4. Khayatian, Fazel & Sarto, Luca & Dall'O', Giuliano, 2017. "Building energy retrofit index for policy making and decision support at regional and national scales," Applied Energy, Elsevier, vol. 206(C), pages 1062-1075.
    5. Stephan, André & Crawford, Robert H., 2016. "The relationship between house size and life cycle energy demand: Implications for energy efficiency regulations for buildings," Energy, Elsevier, vol. 116(P1), pages 1158-1171.
    6. Foran, Tira & Fleming, David & Spandonide, Bruno & Williams, Rachel & Race, Digby, 2016. "Understanding energy-related regimes: A participatory approach from central Australia," Energy Policy, Elsevier, vol. 91(C), pages 315-324.
    7. Stephan, André & Stephan, Laurent, 2020. "Achieving net zero life cycle primary energy and greenhouse gas emissions apartment buildings in a Mediterranean climate," Applied Energy, Elsevier, vol. 280(C).
    8. Linwei Pan & Minglei Zhu & Ningning Lang & Tengfei Huo, 2020. "What Is the Amount of China’s Building Floor Space from 1996 to 2014?," IJERPH, MDPI, vol. 17(16), pages 1-17, August.
    9. Alexander Leodolter & Savina Princen & Aleksander Rutkowski, 2022. "Immovable Property Taxation for Sustainable and Inclusive Growth," European Economy - Discussion Papers 156, Directorate General Economic and Financial Affairs (DG ECFIN), European Commission.
    10. Maria Cecilia P Moura & Steven J Smith & David B Belzer, 2015. "120 Years of U.S. Residential Housing Stock and Floor Space," PLOS ONE, Public Library of Science, vol. 10(8), pages 1-18, August.

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