ARCOM

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Aggeli, A, Christensen, T H and Larsen, S P A K (2022) The gendering of energy household labour. Buildings and Cities, 3(01), 709–24.

• Type: Journal Article
• Keywords: digital housekeeping; energy; energy transition; everyday life; gender; homes; household labour; mental load; smart homes;
• ISBN/ISSN: 2632-6655
• URL: https://doi.org/10.5334/bc.224
• Abstract:
  Gender considerations, such as the division of household labour and the coordination of everyday household practices, are important for the energy transition of households. Household labour involves everyday practices (e.g. cooking, laundry and caring for others) and practices of energy household labour (e.g. managing digital technologies and energy systems). Emerging smart energy technologies require energy flexibility and efficiency, thereby introducing new forms of household labour can have implications for the household which are not well understood. Through a literature review and some empirical insights from a European Horizon 2020 project, mental aspects of energy household labour are identified: practices of coordination and multitasking, remembering and anticipating, and powerful emotional labour which shapes the practices. Smart technologies and energy systems add more physical and mental labour to households due to the need for additional coordination and change of practices. This additional demand for coordination can exacerbate existing gender inequalities in the division of household labour: technological strategies and designs need to engage with this and reduce new burdens. Considerations for future research are proposed and a gender-sensitive framework for understanding the transition of energy household labour is outlined. Despite the balancing of more stereotypical gender roles in everyday life at home, the mental load of household labour still overburdens women. Technology design and strategies for its domestication need to recognise this load and adopt more gender-sensitive ways of supporting the mental aspects of household labour performed for the organisation of home and provide appropriate digital literacy opportunities for those who use them, without undermining their contribution in the process. Technology-assisted support for the mental aspects of household labour should allow for better negotiations and distribution of household labour required for a successful energy transition, without at the same time adding extra work for both men and women. The initial empirical insights call for a gender-sensitive framework for investigating the emerging practices that this involves, for the energy transition of households.

Amakali, T R, Cook, G and Larsen, G D (2012) Striving for inclusive design in the built environment: Learning strategy adopted by policy implementers at Local Authorities in England . In: Smith, S.D (Ed.), Proceedings 28th Annual ARCOM Conference, 3-5 September 2012, Edinburgh, UK. Association of Researchers in Construction Management, 285–94.

Ballesteros-Pérez, P, Sanz-Ablanedo, E, Soetanto, R, González-Cruz, M C, Larsen, G D and Cerezo-Narváez, A (2020) Duration and Cost Variability of Construction Activities: An Empirical Study. Journal of Construction Engineering and Management, 146(01).

Boyd, P, Larsen, G D and Schweber, L (2014) Perspectives on the specification of Building Integrated Photovoltaic (BIPV) technology in construction projects. In: Raiden, A and Aboagye-Nimo, E (Eds.), Proceedings 30th Annual ARCOM Conference, 1-3 September 2014, Portsmouth, UK, Association of Researchers in Construction Management, 153–62.

Boyd, P, Larsen, G D and Schweber, L (2015) The co-development of technology and new buildings: incorporating building integrated photovoltaics. Construction Management and Economics, 33(05), 349-60.

Dania, A A, Larsen, G D and Ewart, I J (2014) Sustainable construction: Exploring the capabilities of Nigerian construction firms. In: Raiden, A and Aboagye-Nimo, E (Eds.), Proceedings 30th Annual ARCOM Conference, 1-3 September 2014, Portsmouth, UK, Association of Researchers in Construction Management, 3–12.

De Place Hansen, E J and Larsen, J N (2011) Employment and winter construction: a comparative analysis of Denmark and western European countries with a similar climate. Construction Management and Economics, 29(09), 875–90.

Duman, D U, Green, S D and Larsen, G D (2017) Competitive Strategy And The Role Of Narrative Infrastructure: The Case Of Turkish Contractors . In: Chan, P W and Neilson, C J (Eds.), Proceedings 33rd Annual ARCOM Conference, 4-6 September 2017, Fitzwilliam College, Cambridge, UK. Association of Researchers in Construction Management, 622–631.

Duman, D U, Green, S D and Larsen, G D (2019) Historical narratives as strategic resources: analysis of the Turkish international contracting sector. Construction Management and Economics, 37(07), 367–83.

Gade, A N, Larsen, T S and Selman, A D (2021) Leaving No One Behind: A Glimpse into the State of Adoption of the Sustainable Development Goals in the Danish Construction Industry. In: Scott, L and Neilson, C J (Eds.), Proceedings 37th Annual ARCOM Conference, 6-7 September 2021, UK, Association of Researchers in Construction Management, 654-663.

Green, S D, Harty, C, Elmualim, A A, Larsen, G D and Kao, C C (2008) On the discourse of construction competitiveness. Building Research & Information, 36(05), 426–35.

Green, S D, Kao, C and Larsen, G D (2010) Contextualist Research: Iterating between Methods While Following an Empirically Grounded Approach. Journal of Construction Engineering and Management, 136(01), 117–26.

Green, S D, Larsen, G D and Kao, C-C (2008) Competitive strategy revisited: contested concepts and dynamic capabilities. Construction Management and Economics, 26(01), 63–78.

Haugbølle, K, Larsen, J N and Nielsen, J (2019) Construction productivity revisited: towards measuring performance of construction output. Engineering, Construction and Architectural Management, 26(05), 794–813.

Kao, C-C, Green, S D and Larsen, G D (2009) Emergent discourses of construction competitiveness: localized learning and embeddedness. Construction Management and Economics, 27(10), 1005–17.

Koch, C and Larsen, A (2018) Performance of Retrofit with ICT of Social Housing – Proving Technology Optimists Wrong?. In: Gorse, C and Neilson, C J (Eds.), Proceedings 34th Annual ARCOM Conference, 3-5 September 2018, Queen’s University, Belfast, UK. Association of Researchers in Construction Management, 667–676.

Koch, C and Larsen, C S (2006) Quality in construction: a supply chain perspective. In: Boyd, D (Ed.), Proceedings 22nd Annual ARCOM Conference, 4-6 September 2006 Birmingham, UK. Association of Researchers in Construction Management, Vol. 1, 459–69.

Koch, C and Larsen, C S (2007) User driven innovation in mobile technologies?. In: Boyd, D (Ed.), Proceedings 23rd Annual ARCOM Conference, 3-5 September 2007, Belfast, UK. Association of Researchers in Construction Management, Vol. 2, 481–91.

Larsen, G D (2005) A polymorphic framework for understanding the diffusion of innovations within the UK construction industry, Unpublished PhD Thesis, School of Construction Management and Engineering, University of Reading.

Larsen, G D (2005) Horses for courses: relating innovation diffusion concepts to the stages of the diffusion process. Construction Management and Economics, 23(08), 787-92.

Larsen, G D (2011) Understanding the early stages of the innovation diffusion process: awareness, influence and communication networks. Construction Management and Economics, 29(10), 987–1002.

Larsen, G D and Ballal, T M A (2005) The diffusion of innovations within a UKCI context: an explanatory framework. Construction Management and Economics, 23(01), 81-91.

Larsen, G D and Whyte, J (2013) Safe construction through design: perspectives from the site team. Construction Management and Economics, 31(06), 675-90.

Larsen, J, K, Lindhard, S, M, Brunoe, T. D and Jensen, KN (2018) The Relation between Pre-planning, Commissioning and Enhanced Project Performance. Construction Economics and Building, 18(02), 1-14.

Lindhard, S and Larsen, J K (2016) Identifying the key process factors affecting project performance. Engineering, Construction and Architectural Management, 23(05), 657-73.

Maradza, E, Whyte, J and Larsen, G D (2014) Interactive learning in UK construction practice: examining the role of BIM process standards. In: Raiden, A and Aboagye-Nimo, E (Eds.), Proceedings 30th Annual ARCOM Conference, 1-3 September 2014, Portsmouth, UK, Association of Researchers in Construction Management, 613–22.

Marsh, R, Larsen, V G and Kragh, M (2010) Housing and energy in Denmark: past, present, and future challenges. Building Research & Information, 38(01), 92–106.

Mejlænder-Larsen, & (2017) Using a change control system and building information modelling to manage change in design. Architectural Engineering and Design Management, 13(01), 39–51.

Mejlænder-Larsen, & (2019) A three-step process for reporting progress in detail engineering using BIM, based on experiences from oil and gas projects. Engineering, Construction and Architectural Management, 26(04), 648–67.

Piroozfar, P, Altan, H and Popovic-Larsen, O (2012) Design for sustainability: A comparative study of a customized modern method of construction versus conventional methods of construction. Architectural Engineering and Design Management, 8(01), 55-75.

Rohde, L, Jensen, R L, Larsen, O K, Jønsson, K T and Larsen, T S (2021) Holistic indoor environmental quality assessment as a driver in early building design. Building Research & Information, 49(04), 460–81.

Rohde, L, Steen Larsen, T, Jensen, R L, Larsen, O K, Jønsson, K T and Loukou, E (2020) Determining indoor environmental criteria weights through expert panels and surveys. Building Research & Information, 48(04), 415–28.