ARCOM

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Afroz, R (2020) Developing a low-carbon architecture pedagogy in Bangladesh. Buildings and Cities, 1(01), 637–49.

Andersen, C E, Kanafani, K, Zimmermann, R K, Rasmussen, F N and Birgisdóttir, H (2020) Comparison of GHG emissions from circular and conventional building components. Buildings and Cities, 1(01), 379–92.

Anderson, J and Moncaster, A (2020) Embodied carbon of concrete in buildings, Part 1: analysis of published EPD. Buildings and Cities, 1(01), 198–217.

Axon, S and Morrissey, J (2020) Just energy transitions? Social inequities, vulnerabilities and unintended consequences. Buildings and Cities, 1(01), 393–411.

Baborska-Narozny, M, Szulgowska-Zgrzywa, M, Mokrzecka, M, Chmielewska, A, Fidorow-Kaprawy, N, Stefanowicz, E, Piechurski, K and Laska, M (2020) Climate justice: air quality and transitions from solid fuel heating. Buildings and Cities, 1(01), 120–40.

Balouktsi, M (2020) Carbon metrics for cities: production and consumption implications for policies. Buildings and Cities, 1(01), 233–59.

Bordass, B (2020) Metrics for energy performance in operation: the fallacy of single indicators. Buildings and Cities, 1(01), 260–76.

Clarke, L, Sahin-Dikmen, M and Winch, C (2020) Transforming vocational education and training for nearly zero-energy building. Buildings and Cities, 1(01), 650–61.

Crawley, J, McKenna, E, Gori, V and Oreszczyn, T (2020) Creating Domestic Building Thermal Performance Ratings Using Smart Meter Data. Buildings and Cities, 1(01), 1–13.

• Type: Journal Article
• Keywords: buildings; energy data; energy efficiency; energy performance certificate; energy rating; smart meter; thermal performance;
• ISBN/ISSN: 2632-6655
• URL: https://doi.org/10.5334/bc.7
• Abstract:
  Energy performance certificates (EPCs) are ratings of domestic building energy performance mandated across the European Union. Their aim is to provide a reliable assessment of a building’s energy performance whilst accounting for non-building effects such as weather and occupancy. Current rating methods, based on theoretical calculations, can introduce significant error from an inability to estimate real building performance. Other methods using real energy data cannot isolate building performance from other effects due to low data resolution. The installation of smart meters in large proportions of the housing stock in European Union member states presents an opportunity. Harnessing high-resolution energy data can create or inform building energy performance ratings with reduced error and at scale. This critical review explores the challenges and opportunities of using smart meter data in building energy ratings, focusing primarily on quantifying the thermal performance of the building and heating system. The research gaps in this emerging field are identified, including: demonstrating that the rating is truly independent of the behaviour of specific occupants; the additional data inputs that add most value in combination with smart meter data; and reducing uncertainty whilst limiting the complexity of the measurement and calculation. Increasing evidence shows current EPCs are unreliable. This unreliability can affect their usefulness to householders and the provision of evidence for policy decisions. The incorporation of metrics constructed from smart meter data can provide a rating of building thermal performance that better reflects the actual performance of a dwelling. The potential advantages of incorporating smart meter data would improve the reliability of building energy ratings and quantify the rating uncertainty on a per dwelling basis, which would be useful for risk assessment to inform finance and retrofit decisions. Technical challenges are identified and explained for the inclusion of smart meter data. These are summarised as follows: ensuring that ratings remain independent of occupant behaviours/practices; and identifying which additional data inputs increase reliability and enable more informed retrofit decision-making whilst keeping the rating cost low and the calculation complexity tractable.

Fawcett, T and Topouzi, M (2020) Residential retrofit in the climate emergency: the role of metrics. Buildings and Cities, 1(01), 475–90.

Francart, N, Höjer, M, Mjörnell, K, Orahim, A S, von Platten, J and Malmqvist, T (2020) Sharing indoor space: stakeholders’ perspectives and energy metrics. Buildings and Cities, 1(01), 70–85.

Frischknecht, R, Alig, M, Nathani, C, Hellmüller, P and Stolz, P (2020) Carbon footprints and reduction requirements: the Swiss real estate sector. Buildings and Cities, 1(01), 325–36.

Grant, E J (2020) Mainstreaming environmental education for architects: the need for basic literacies. Buildings and Cities, 1(01), 538–49.

Green, E, Lannon, S, Patterson, J, Variale, F and Iorwerth, H (2020) Decarbonising the Welsh housing stock: from practice to policy. Buildings and Cities, 1(01), 277–92.

Green, S D and Sergeeva, N (2020) The contested privileging of zero carbon: plausibility, persuasiveness and professionalism. Buildings and Cities, 1(01), 491–503.

Habert, G, Röck, M, Steininger, K, Lupísek, A, Birgisdottir, H, Desing, H, Chandrakumar, C, Pittau, F, Passer, A, Rovers, R, Slavkovic, K, Hollberg, A, Hoxha, E, Jusselme, T, Nault, E, Allacker, K and Lützkendorf, T (2020) Carbon budgets for buildings: harmonising temporal, spatial and sectoral dimensions. Buildings and Cities, 1(01), 429–52.

Hamstead, Z, Coseo, P, AlKhaled, S, Boamah, E F, Hondula, D M, Middel, A and Rajkovich, N (2020) Thermally resilient communities: creating a socio-technical collaborative response to extreme temperatures. Buildings and Cities, 1(01), 218–32.

Hoxha, E, Passer, A, Saade, M R M, Trigaux, D, Shuttleworth, A, Pittau, F, Allacker, K and Habert, G (2020) Biogenic carbon in buildings: a critical overview of LCA methods. Buildings and Cities, 1(01), 504–24.

Killip, G (2020) A reform agenda for UK construction education and practice. Buildings and Cities, 1(01), 525–37.

Klinsky, S and Mavrogianni, A (2020) Climate justice and the built environment. Buildings and Cities, 1(01), 412–28.

Kuittinen, M and Häkkinen, T (2020) Reduced carbon footprints of buildings: new Finnish standards and assessments. Buildings and Cities, 1(01), 182–97.

Lützkendorf, T (2020) The role of carbon metrics in supporting built-environment professionals. Buildings and Cities, 1(01), 676–86.

Lützkendorf, T and Frischknecht, R (2020) (Net-) zero-emission buildings: a typology of terms and definitions. Buildings and Cities, 1(01), 662–75.

Mayer, M (2020) Material recovery certification for construction workers. Buildings and Cities, 1(01), 550–64.

Parkin, A, Herrera, M and Coley, D A (2020) Net-zero buildings: when carbon and energy metrics diverge. Buildings and Cities, 1(01), 86–99.

Passe, U (2020) A design workflow for integrating performance into architectural education. Buildings and Cities, 1(01), 565–78.

Passe, U, Dorneich, M, Krejci, C, Koupaei, D M, Marmur, B, Shenk, L, Stonewall, J, Thompson, J and Zhou, Y (2020) An urban modelling framework for climate resilience in low-resource neighbourhoods. Buildings and Cities, 1(01), 453–74.

Patrick, M, Grewal, G, Chelagat, W and Shannon, G (2020) Planetary health justice: feminist approaches to building in rural Kenya. Buildings and Cities, 1(01), 308–24.

Roca-Puigròs, M, Billy, R G, Gerber, A, Wäger, P and Müller, D B (2020) Pathways toward a carbon-neutral Swiss residential building stock. Buildings and Cities, 1(01), 579–93.

Salter, J, Lu, Y, Kim, J C, Kellett, R, Girling, C, Inomata, F and Krahn, A (2020) Iterative ‘what-if’ neighborhood simulation: energy and emissions impacts. Buildings and Cities, 1(01), 293–307.

Schünemann, C, Olfert, A, Schiela, D, Gruhler, K and Ortlepp, R (2020) Mitigation and adaptation in multifamily housing: overheating and climate justice. Buildings and Cities, 1(01), 36–55.

Schiller, G, Gruhler, K and Xie, X (2020) Assessing the efficiency of indoor and outdoor access-related infrastructure. Buildings and Cities, 1(01), 56–69.

Schmidt, M, Crawford, R H and Warren-Myers, G (2020) Integrating life-cycle GHG emissions into a building’s economic evaluation. Buildings and Cities, 1(01), 361–78.

Schoenefeldt, H (2020) Delivery of occupant satisfaction in the House of Commons, 1950–2019. Buildings and Cities, 1(01), 141–63.

Simpson, K, Janda, K B and Owen, A (2020) Preparing ‘middle actors’ to deliver zero-carbon building transitions. Buildings and Cities, 1(01), 610–24.

Srivastava, M (2020) Cooperative learning in design studios: a pedagogy for net-positive performance. Buildings and Cities, 1(01), 594–609.

Steadman, P, Evans, S, Liddiard, R, Godoy-Shimizu, D, Ruyssevelt, P and Humphrey, D (2020) Building stock energy modelling in the UK: the 3DStock method and the London Building Stock Model. Buildings and Cities, 1(01), 100–19.

Steininger, K W, Meyer, L, Nabernegg, S and Kirchengast, G (2020) Sectoral carbon budgets as an evaluation framework for the built environment. Buildings and Cities, 1(01), 337–60.

Stevenson, F and Kwok, A (2020) Mainstreaming zero carbon: lessons for built-environment education and training. Buildings and Cities, 1(01), 687–96.

Tanguy, A, Breton, C, Blanchet, P and Amor, B (2020) Characterising the development trends driving sustainable neighborhoods. Buildings and Cities, 1(01), 164–81.

Waldman, B, Huang, M and Simonen, K (2020) Embodied carbon in construction materials: a framework for quantifying data quality in EPDs. Buildings and Cities, 1(01), 625–36.

Willand, N, Moore, T, Horne, R and Robertson, S (2020) Retrofit Poverty: Socioeconomic Spatial Disparities in Retrofit Subsidies Uptake. Buildings and Cities, 1(01), 14–35.