TEMPO project will add to STORM controller functionalities
The functionalities of the STORM network controller will be extended in the TEMPO – Temperature Optimisation for Low Temperature District Heating across Europe – project. TEMPO will build upon the advances made within the STORM project and establish a new standard regarding smart control of low temperature district heating networks that includes the effects of low return temperatures.
The TEMPO project, launched in October 2017, develops technical innovations that enables district heating networks to operate at lower temperatures. By decreasing the temperature in the systems, it reduces heat losses and allows a higher share of renewable and excess heat to be used as heat sources. The use of these heat sources will be crucial to adapt current district heating systems and create new ones suitable for a sustainable energy system.
Six technological innovations that contribute to minimising the temperature in networks and enables a cost-efficient implementation of low temperature networks will undergo final development in TEMPO. Each of the innovations can bring value to most district heating networks individually. However, the main strength of this project lies in the combination of the individual technologies into solution packages for dedicated application areas. Three solution packages customised to three different application areas, that together covers 90% of the district heating market in Europe, will be tested in selected representative demos:
- New urban low temperature district heating networks
- New rural low temperature district heating networks
- Existing high temperature district heating networks
Additionally, TEMPO will develop innovative approaches to consumer empowerment enabled by digital solutions. The project will also develop new business models and demonstrate their replication potential for the roll-out of sustainable and economically viable district heating networks across the EU.
TEMPO kicked off in October 2017 and will run for four years. It is funded by the European Union’s Horizon 2020 Programme for Research and Innovation.
Project website: www.tempo-dhc.eu