Five energy retrofit houses in South Wales: Fid-Bau Portal

Five energy retrofit houses in South Wales

Jones, Phil / Li, XiaoJun / Perisoglou, Emmanouil / Patterson, Jo

Highlights•Combines computer energy simulations and field measurements to analyse the seasonal energy performance of five whole-house energy retrofits.•Presents the annual energy, CO2 and cost savings associated with combining energy efficiency measures, building integrated solar PV, and battery storage.•Presents the costs of retrofitting with an emphasis on affordability.•Estimates the in-house energy use of battery storage and associated costs and cost savings.

AbstractWith around 1–2% annual replacement of the UK’s housing stock, housing retrofit must play a major role in reducing future energy use and CO2 emissions. This paper presents a whole-house approach for energy retrofit for five houses located in South Wales. This ‘systems based’ approach combines reduced energy demand, renewable energy supply and battery storage. The paper describes a combination of energy modelling, using the building energy model HTB2, and field measurements to analyse the performance of the houses before and after retrofit. The results indicate that significant reductions in energy use, CO2 emissions and energy costs can be achieved using a whole house approach, combining energy efficiency with building integrated renewable energy generation and energy storage. CO2 emission reductions are estimated to be in the range of 50–75%, with cost savings of £402 to £621 per year. The cost of carrying out the retrofitting ranges from £23,852 to £30,510. Although retrofits are still relatively expensive in relation to their annual cost savings, there are multiple benefits relating to reducing fuel poverty, reducing electricity grid stress and contributing to national CO2 emission reduction targets. Also, as costs of measures are further reduced and energy prices likely to rise in future, the cost balance will change more in favour of whole house retrofit. The paper demonstrates the advantages in using a combination of energy simulation and field monitoring to investigate the performance of buildings in use, which in this case concerns the impact of carrying out energy retrofits in housing.