"The COOL DH project will innovate, demonstrate, evaluate and disseminate technological solutions needed to exploit and utilise sources of very low-grade ""waste"" heat for heating of energy efficient buildings via Low Temperature District Heating (LTDH) and show how the District Heating (DH) systems can be more resource efficient and
more energy efficient. The demonstration covers both new developments and stepwise transition of existing areas with district heating and energy retrofitting of buildings. The COOL DH consortium consists of the utilities and municipalities of the two cities Lund (SE) and Høje-Taastrup (DK) and leading DH energy specialists as well as leading industrial manufacturers.
COOL DH will:
- Innovate, design and build cooling and heat recovery process systems, enabling heat recovery to a local low- temperature district heating grid. They will mainly be driven by renewables. Design work will start in 2017 and heat recovery will start in 2019.
- Design and build a low-temperature district heating grid with non-conventional pipe materials and testing of new innovative pipe components that will become new products introduced as a result of COOL DH.
- Innovate and design suitable innovative heating systems and controls inside buildings that combine LTDH with distributed integration of local produced renewable energy on the buildings. Erection of new buildings in Lund will start in 2018 and will continue throughout the time of this project, while LTDH in Høje-Taastrup mainly will be for existing buildings being refurbished including modification of the heating system.
- Develop viable business models and new pricing systems, that ensures a good (low) return temperature and provide the building companies with maximum flexibility regarding the choice of heating systems.
- Demonstrate a full system with all needed components suitable for ultra-low DH temperatures (40 oC) incl. demonstration of systems for heating of DHW without risk of legionella."
Fields of science
- engineering and technologymechanical engineeringthermodynamic engineeringheat engineering
- social scienceseconomics and businessbusiness and managementbusiness model
- engineering and technologycivil engineeringarchitecture engineeringsustainable architecture
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
Call for proposal
See other projects for this call
Funding SchemeIA - Innovation action
221 00 Lund
221 00 Lund
402 41 Goteborg
221 01 Lund
372 38 Ronneby