This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement N°847121.
User-driven Energy-Matching & Business prospection tool for industrial Excess heat/cold Reduction, Recovery and Redistribution
The EMB3Rs project will implement a bottom-up, user-driven and open source modelling platform to simulate alternative supply-demand scenarios for the recovery and reuse of industrial excess heat and cold (HC). EMB3Rs’ final users will employ the platform to determine the costs and benefits related with excess HC utilization routes, and to define the required implementation conditions for the most promising solutions. The platform will allow industrial users and other relevant stakeholders to autonomously and intuitively explore and assess the feasibility of new technology and business scenarios. This will benefit each individual producer/ consumer in a given industrial community but also enable win-win solutions between industries and final HC users in other sectors.
The main aim is to reuse and/or trade excess thermal energy in a holistic perspective within an industrial process HC/energy system environment or framed in an HC network in regulated or liberalized markets. The resource and energy intensive industries (REII) and DHC networks will be able to use and rely on the EMB3Rs platform to investigate the revenue potential of using industrial excess HC as an energy (re)source. The REII will be able to evaluate the benefits of investing in low carbon options, such as the integration of renewable HC technologies and thermal storage, in industrial processes.
Ultimately, by translating industrial excess HC into savings, revenues and increased overall system efficiency, EMB3Rs will allow the REII community to improve its competitiveness, foster and accelerate the decarbonisation of the HC market overall and contribute to the EU climate change mitigation goals. Namely by:
- contributing to overcome the barriers for developing and deploying HC solutions, i.e. reaching a critical mass of users,
- identifying critical framework conditions and success factors and iv) promoting transfer and replication of solutions in other industrial sectors and
- stimulating the convergence between energy, energy efficiency goals, CO2 reduction and business interests.
Developing an excess Heat/Cold (re)use matching platform for industry and end users.
About the project
16 companies and institutes from across Europe have joined forces as part of the EU-funded project EMB3Rs to add value to waste heat and help make better use of renewable energy sources. A novel tool, to be developed by August 2022, will allow energy-intensive industries and other excess heat and cold sources to explore ways of reusing their excess thermal energy. This will improve their energy performance and contribute to a healthier future for everyone.
Users, like industries that produce waste heat, will provide the essential parameters, such as their location and the available excess thermal energy. The EMB3Rs platform will then autonomously and intuitively assess the feasibility of new business scenarios and identify the technical solutions. End-users such as energy communities will be able to determine the costs and benefits of industrial excess heat and cold utilisation routes and define the requirements for implementing the most promising solutions. Matching excess heat providers with end-users will enable win-win partnerships and reduce CO2 emissions.
Seven case-studies will deliver data to create and validate the platform including the re-use of excess heat from a cement producer and a metal casting company, an industrial park and local supermarkets in district heating networks. The project kicked off in September 2019 and will last for three years.
The four key messages of EMB3Rs:
- Easy matching between sources and sinks for residual heat and cold (RHC)
- Exploring of economically viable business cases for the use of excess HC
- Optimisation of techno-economic parameters of proposed solutions
- Lower energy costs, improved competitiveness and reduced environmental impacts
- INEGI - INSTITUTO DE CIENCIA E INOVACAO EM ENGENHARIA MECANICA E ENGENHARIA INDUSTRIAL
- KUNGLIGA TEKNISKA HOEGSKOLAN
- TECHNISCHE UNIVERSITAET WIEN
- DANMARKS TEKNISKE UNIVERSITET
- ADELPHI RESEARCH GEMEINNUTZIGE GMBH
- ZENTRUM FUR ENERGIEWIRTSCHAFT UND UMWELT (E-THINK)
- INESC TEC - INSTITUTO DE ENGENHARIADE SISTEMAS E COMPUTADORES, TECNOLOGIA E CIENCIA
- PDM E FC PROJECTO DESENVOLVIMENTO MANUTENCAO FORMACAO E CONSULTADORIALDA
- CIMPOR-INDUSTRIA DE CIMENTOS SA
- THE UNIVERSITY OF WARWICK
- WARMTEBEDRIJF EXPLOITATIE NV
- CLIMAESPACO - SOCIEDADE DE PRODUCAOE DISTRIBUICAO URBANA DE ENERGIA TERMICA S.A.
- EMERSON PROCESS MANAGEMENT LIMITED
- CENTRE FOR RENEWABLE ENERGY SOURCES AND SAVING FONDATION
- ADENE - AGENCIA PARA A ENERGIA
- EUROPEAN SCIENCE COMMUNICATION INSTITUTE (ESCI) GGMBH
- LUNDS UNIVERSITET
Start date: 2 September 2019 - End date: 1 September 2022