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Reducing household greenhouse gas emissions from space and water heating through low-carbon technology: identifying cost-effective approaches. / Rafique, Annum; Williams, Prysor.
In: Energy and Buildings, Vol. 248, 11162, 01.10.2021.

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Rafique A, Williams P. Reducing household greenhouse gas emissions from space and water heating through low-carbon technology: identifying cost-effective approaches. Energy and Buildings. 2021 Oct 1;248:11162. Epub 2021 Jun 30. doi: 10.1016/j.enbuild.2021.111162

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TY - JOUR

T1 - Reducing household greenhouse gas emissions from space and water heating through low-carbon technology: identifying cost-effective approaches

AU - Rafique, Annum

AU - Williams, Prysor

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Reducing fuel use for the heating of houses is key to meeting greenhouse gas emission reduction targets. This study constructs marginal abatement cost curves (MACC) of different technologies for space and water heating of houses in the county of Gwynedd in Wales, UK, and uses information provided by energy certificates to correctly assess the energy requirements of a house. This approach allows us to accurately predict energy consumption and identify potential ways to reduce demand. We then explore the costs and savings of a switch from systems using conventional heating fuel (e.g., gas, electricity, oil, LPG, and coal) to low-carbon technology such as PV, biomass boilers and heat pumps. Solar PV was the low-carbon heating technology found to be most cost-effective per tonne of emissions abated (£ / t CO2). A reduction in capital costs of low-carbon technologies could potentially make technologies such as heat pumps be cost-effective. Without any policy intervention, low investment and fuel cost of gas would make replacement with any low-carbon technology uneconomical. Emission savings in Gwynedd over 30-year period could be between 3.494 to 5.289 Mt CO2 if appropriate measures which cater towards reducing capital costs and/or incentivising the uptake of technology are adopted.

AB - Reducing fuel use for the heating of houses is key to meeting greenhouse gas emission reduction targets. This study constructs marginal abatement cost curves (MACC) of different technologies for space and water heating of houses in the county of Gwynedd in Wales, UK, and uses information provided by energy certificates to correctly assess the energy requirements of a house. This approach allows us to accurately predict energy consumption and identify potential ways to reduce demand. We then explore the costs and savings of a switch from systems using conventional heating fuel (e.g., gas, electricity, oil, LPG, and coal) to low-carbon technology such as PV, biomass boilers and heat pumps. Solar PV was the low-carbon heating technology found to be most cost-effective per tonne of emissions abated (£ / t CO2). A reduction in capital costs of low-carbon technologies could potentially make technologies such as heat pumps be cost-effective. Without any policy intervention, low investment and fuel cost of gas would make replacement with any low-carbon technology uneconomical. Emission savings in Gwynedd over 30-year period could be between 3.494 to 5.289 Mt CO2 if appropriate measures which cater towards reducing capital costs and/or incentivising the uptake of technology are adopted.

KW - CO2 emissions

KW - Emission abatement

KW - Energy efficiency

KW - EPC

KW - Housing

KW - Mitigation measure

UR - https://doi.org/10.1016/j.enbuild.2021.111162

U2 - 10.1016/j.enbuild.2021.111162

DO - 10.1016/j.enbuild.2021.111162

M3 - Article

VL - 248

JO - Energy and Buildings

JF - Energy and Buildings

SN - 0378-7788

M1 - 11162

ER -