Earth Notes: General Bibliography (lingard2021residential)

General public bibliography for EOU and related research. #bibliography #dataset

[lingard2021residential] Lingard, Joseph Residential retrofit in the UK: The optimum retrofit measures necessary for effective heat pump use (accessed 2023-04-21), SAGE Publications Sage UK: London, England, 2021, Building Services Engineering Research and Technology, volume 42, report/number 3, doi:10.1177/0143624420975707, article/pages 279–292 (article) (BibTeX).

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[DSM (dynamic simulation modelling); Integrated Environmental Solutions - Virtual Environment (IES-VE). Quote: "It is estimated that 80% of today's buildings will be in operation by 2050." Quote: "When installed in poorly insulated buildings, heat pump size and electrical demand increases. This can lead to barriers in the uptake of heat pumps or require upgrades to electrical infrastructure, sometimes from single to three-phase supplies." Quote: "Imperial College London found the installation of an 8.5kWth heat pump (suitable for a typical household), increased electrical demand by 3kW. Electrical network design for a typical 3-bedroom household with gas central heating uses an After Diversity Maximum Demand (ADMD) of 1.5 kW." Quote: "... the daily peak in heat pump use does not coincide with the daily peak of the rest of the dwelling." Quote: "In the UK, 22 million households (~nbsp;85%) are connected to the gas grid and will likely require retrofitting with a heat pump." Quote: "Considering the above figures, approximately 9.7 million dwellings will require some form of intervention regarding thermal insulation. Solid and cavity wall insulation are fundamental energy efficiency measures in the UK's net zero target, with both representing around a third of projected energy savings from residential building envelopes to 2035." Quote: "... upgrading the solid walled semi-detached dwelling group in line with the costs used in this study would require around \pound15bn when multiplied at a national level." Quote: "The cost-optimal solution is a mix of improved SWI and high specification glazing, which achieves similar reductions to a whole-house retrofit using Part L1B standards, with approximately 20% less expenditure."]