18 March 2021| Articles
Heating is the largest end user of energy, accounting for over 50% of global final energy consumption worldwide. At present, much of this demand is met by burning fossil fuels, making the sector a significant contributor to greenhouse gas emissions and air pollution. Renewables can play a significant role in decarbonising the way we heat homes and businesses.
Traditionally, biofuels have been the main alternative to fossil fuels in district heating and cooling. However recent improvements in building insulation and digitalisation have opened district energy to widely accessible, low-temperature renewables such as low-temperature geothermal, solar thermal and waste heat sources.
These sources are widely available in many regions. Yet, they remain largely untapped because they are not immediately compatible with current district energy infrastructure and existing building stock according to IRENA’s “Integrating Low-Temperature Renewables in District Energy Systems” published in collaboration with Aalborg university, Denmark.
Speaking during a recent workshop to launch the report, Miklos Antics, the President of the European Geothermal Energy Council, said more than 25% of the EU population lives in areas directly suitable for geothermal district heating.
The workshop was held under the framework of the Energy Solutions for Cities of the Future and under the umbrella of the Global Geothermal Alliance, with a focus on China with the support of the Chinese Renewable Energy Engineering Institute (CREEI). “District heating is of utmost importance to achieve decarbonised energy systems in China by 2060,” said Professor Brian Vad Mathiesen from Aalborg University.
For his part, Haukur Hardarsson, Chairman and Founder of Arctic Green Energy, highlighted the fact that Sinopec Green Energy connected about 60 million square meters of floor area to geothermal district heating systems, saving the country and the world close to 13 million tons of CO2 over the last decade – showing the environmental value of geothermal energy for heating and cooling.
IRENA’s analysis shares good practices from mature district heating and cooling markets with emerging markets and shows that a lack of data and a disconnect with building renovation strategies at the municipality level is holding back further integration of low-temperature renewables.
To overcome the challenges associated with the integration of low-temperature renewables into district heating and cooling, the report offers the following key recommendations:
According to the report, heating and cooling challenges, such as issues with current energy supply, should be addressed in a co-ordinated and informed manner and with a long-term perspective.
“Development of district heating and cooling systems, particularly those that are compatible with low-temperature renewable energy resources, is one way to integrate more renewables in the heating and cooling sector. However, this requires a collaborative effort from all relevant stakeholders, to address the inherent challenges,” said IRENA’s Director of Country Engagement and Partnerships Gurbuz Gonul during the workshop.
“If action is taken, renewables can constitute up to 77% of the energy supplied to district heating energy systems by 2050, up from only 8% in 2017,” he added.
The high upfront capital costs associated with the construction and refurbishment of the building stock as well as of the district heating and cooling network are substantial and it can take a decade or longer before any profits are realised, according to the report. This makes these projects a good match for investors seeking long-term revenue streams rather than quick returns.
The report also highlights the role of national and local authorities in strategic planning for heating and cooling and supporting district energy operators by de-risking investments and facilitating access to direct funding from the public sector. Project developers can also benefit from technical assistance programmes that assess the viability of projects, support the development of district energy infrastructure in new markets, and evaluate renewable energy supply options.
To read the full report, click here.
To learn more about the Global Geothermal Alliance, click here.