Author
Listed:
- Jørgen Rose
(Department of the Built Environment, Aalborg University, A C Meyers Vænge 15, DK-2450 Copenhagen, Denmark)
- Kirsten Engelund Thomsen
(Department of the Built Environment, Aalborg University, A C Meyers Vænge 15, DK-2450 Copenhagen, Denmark)
- Ole Balslev-Olesen
(Kuben Management A/S, 2. Sal, Ellebjergvej 52, DK-2450 Copenhagen, Denmark)
Abstract
Emissions can be reduced by increasing the energy efficiency of buildings and supply systems or increasing the share of renewable energy in the energy system. Denmark has a long tradition for district heating and today it supplies more than 65% of dwellings, which indicates that a major part of the transition from fossil fuels to renewables can be achieved at the supply system level rather than on the individual building level. This paper presents calculations performed on a generic Danish district undergoing major renovation. The generic district is based on an existing district in Aalborg and consists of 1019 dwellings spread over three different building typologies. The purpose of the investigation was to determine which combination of energy saving measures would achieve the optimal level of energy efficiency. Calculations were made with average data for district heating in Denmark, district heating based on natural gas, and district heating from renewable energy sources, such as solar heating, biofuels, and heat pumps, respectively. The calculations include costs for investment, maintenance, and operating as a function of the primary energy needs. Global warming potential (GWP) was calculated and included CO 2 emissions from space heating, domestic hot water, and electricity for operation and household. The calculations show that for the generic Danish district, which is already connected to a district heating network, the optimal solution is to add 200 mm insulation to roofs (in total 300 mm) and 150 mm insulation to walls (in total 200 mm) and replacing the existing windows with new three-layer low energy windows. Furthermore, the calculations show that in a future scenario with a significantly higher level of renewable energy in the energy system, a shift to individual heat pumps can reduce total emissions by up to 1.5 kg CO 2 eq/m 2 per year (20% reduction) at an additional cost of EUR 8.0/m 2 per year (40% increase). The calculations described in this paper are part of a larger investigation carried out in IEA EBC Annex 75.
Suggested Citation
Jørgen Rose & Kirsten Engelund Thomsen & Ole Balslev-Olesen, 2022.
"The Balance between Energy Efficiency and Renewable Energy for District Renovations in Denmark,"
Sustainability, MDPI, vol. 14(20), pages 1-16, October.
Handle:
RePEc:gam:jsusta:v:14:y:2022:i:20:p:13605-:d:948701
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Citations
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Cited by:
- Tamás Buday & Erika Buday-Bódi, 2023.
"Reduction in CO 2 Emissions with Bivalent Heat Pump Systems,"
Energies, MDPI, vol. 16(7), pages 1-18, April.
- Bjelland, David & Brozovsky, Johannes & Hrynyszyn, Bozena Dorota, 2024.
"Systematic review: Upscaling energy retrofitting to the multi-building level,"
Renewable and Sustainable Energy Reviews, Elsevier, vol. 198(C).
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