Research & Innovation - Participant Portal

TOPIC : Valorisation of waste heat in industrial systems (SPIRE PPP)

Topic identifier: EE-17-2016-2017
Publication date: 14 October 2015

Types of action: IA Innovation action
DeadlineModel:
Planned opening date:
single-stage
15 October 2015
Deadline: 21 January 2016 17:00:00

Types of action: IA Innovation action
DeadlineModel:
Planned opening date:
single-stage
26 July 2016
Deadline: 19 January 2017 17:00:00

Time Zone : (Brussels time)
  Horizon 2020 H2020 website
Pillar: Societal Challenges
Work Programme Year: H2020-2016-2017
Topic Updates
  • 17 March 2016 14:06

    H2020 2016-17 Work Programme update (European Commission Decision C(2016)1349 of 9 March 2016)

    In the section "Scope", after the sentence "Actions could either propose innovative technologies for the efficient recovery of waste heat in large industrial systems or innovative solutions of energy symbiosis between industries or plants inside industrial parks for the valorisation of waste and residual heat", the following sentence has been added: "In 2017, only one or the other should be addressed by the proposed actions."

    In the section "Scope", in the first line of the last bullet point was removed the sentence "in a laboratory scale".
     

Topic Description
Specific Challenge:

Energy and fuels represent between 20% and 40% of the production costs in several Resource and Energy Intensive Industries (REII). A lot of technical progresses were already done in REII to reduce the energy consumption of the main industrial products. Nevertheless, significant parts of the input-energy are still lost in the form of waste heat by gas, liquid or solid streams.

Those losses occur because either the corresponding energy losses are difficult to recover and re-use in the process itself or in another part of the production process or the required equipment are too costly (low ROI).

The challenge is to design, build, test & demonstrate new processes/components or innovative adaptation of existing solutions for waste energy recovery in large industrial systems.

Furthermore, sources of energy losses that are considered as a waste for a given industry could be a valuable resource for another one, directly or after an intermediate transformation step. By reusing waste and residual heat in a more efficient way primary energy can be saved. This topic responds to the needs of the process industry identified in the roadmap of the SPIRE cPPP (Sustainable Process Industry through Resource and Energy Efficiency contractual Public-Private Partnership).

Scope:

Actions should improve the energy efficiency of large industrial systems by designing economic industrial solutions based on innovative technologies for recovery of waste heat or the innovative adaptation of already existing solutions for waste heat recovery. Actions should address the recovery of waste heat from streams from industrial processes (e.g. waste streams, by-products, intermediates) or from surplus heat in plant parameters to transform it in useful energy forms, including the production of technical gases (e.g. oxygen, hydrogen) to be used in the industrial process itself or exported as by-products. Solutions should be adaptable to various types of industrial processes and should be validated by full scale demonstration in real production conditions in industrial facilities.

Actions could either propose innovative technologies for the efficient recovery of waste heat in large industrial systems or innovative solutions of energy symbiosis between industries or plants inside industrial parks for the valorisation of waste and residual heat. In 2017, only one or the other should be addressed by the proposed actions.

For actions proposing innovative technologies for waste heat recovery in large industrial systems one or more of the following technological issues should be addressed:

  • The intermittent character of the recoverable energy flows and its variations during normal operating conditions e.g. adapted storage to smooth these variations (such as low materials cost with high thermal inertia, Phase Change Materials, commodities storage, etc.);
  • Achieving safe, controlled and efficient recovery of heat from media, which are very difficult to handle and control (high temperature, high volumes, highly aggressive- fouling/deposits/corrosion);
  • The transfer of energy flows from a process line to the other one, and investigating the potential use of recovered energy in other processes with various heat transfer media (water/steam, oil, salts, gases….);
  • The influences of the new heat recovery process on the product quality (e.g. dry cooling instead of wet cooling);

Actions proposing innovative solutions of energy symbiosis between industries or plants inside large industrial parks for the valorisation of waste and residual heat should cover, if possible, all the following points:

  • To analyse, characterise and assess the sources of energy losses in the spirit of reusing them in other plants or industries (e.g. amount, composition, temperature, impurity and fluctuation have to be taken into account, improving the global environmental impact, and new measurements and models could be needed to identity them) and to identify the relevant heat and energy demands;
  • To determine and demonstrate flexible solutions to coordinate the sources and demands and to optimise the energy fluxes between the different plants and industries. Interactions between the industrial site and the surroundings should be taken into account as an additional opportunity for valorisation of waste/residual heat. New management systems for the energy loss fluxes have to be developed;
  • To determine and demonstrate innovative storage technologies and strategies to harmonize energy use for fluctuating inputs (e.g. wind, converter gas) and variable (batch) process demands and to exploit the variations of the hourly electricity price;
  • To determine and demonstrate innovative conversion technologies and strategies to improve the accordance of demands and sources of energy;
  • To define the most suitable energy carriers to be implemented at the proper scale in the environment representative of industrial application laboratory scale.

New management systems for the energy loss fluxes have to be developed basing on the parameters and models described above.

The activities are expected to be implemented at TRL 5-7 (please see part G of the General Annexes).

The Commission considers that proposals requesting a contribution from the EU of between EUR 4 and 5 million would allow this specific challenge to be addressed appropriately. Nonetheless, this does not preclude submission and selection of proposals requesting other amounts.

Expected Impact:

Proposed actions are expected to demonstrate the impacts listed below, using quantified indicators and targets, wherever possible.

For actions proposing innovative technologies for waste heat recovery in large industrial systems:

  • Recovery of at least 40% of the sensible heat contained in each waste heat carrier addressed by the project.
  • Measureable substantial primary energy savings clearly quantified and substantiated, and subsequent reduction of CO2 emissions
  • The improvement of the energy efficiency and the reduction of energy cost will lead to a demonstrated advancement in competitiveness by the end of the project. This will expand the available portfolio of energy resources and technologies, which can be integrated within sites, across sectors and along value chains.

For actions proposing innovative solutions of energy symbiosis between industries or plants inside large industrial parks for the valorisation of waste and residual heat:

  • Recovery of at least 40% of waste/residual heat.
  • Measureable substantial primary energy savings, clearly quantified and substantiated, and subsequent reduction of CO2 emissions.
  • Cost-saving optimizations of energy and resources supply and demand by taking into consideration both economical and sustainability constraints.
Topic conditions and documents

Please read carefully all provisions below before the preparation of your application.
 

  1. List of countries and applicable rules for funding: described in part A of the General Annexes of the General Work Programme.
    Note also that a number of non-EU/non-Associated Countries that are not automatically eligible for funding have made specific provisions for making funding available for their participants in Horizon 2020 projects (follow the links to Australia, Brazil, Canada, China, Hong Kong & Macau, India, Japan, Republic of Korea, Mexico, Russia, Taiwan).

     
  2. Eligibility and admissibility conditions: described in part B and C of the General Annexes of the General Work Programme.

    Proposal page limits and layout: Please refer to Part B of the standard proposal template.
     
  3. Evaluation

    3.1  Evaluation criteria and procedure, scoring and threshold: described in part H of the General Annexes of the General Work Programme

    3.2 Submission and evaluation process: Guide to the submission and evaluation process

     
  4. Indicative timetable for evaluation and grant agreement:

    Information on the outcome of single-stage evaluation: maximum 5 months from the deadline for submission.
    Signature of grant agreements: maximum 8 months from the deadline for submission.
     
  5. Provisions, proposal templates and evaluation forms for the type(s) of action(s) under this topic:


    Coordination and Support Action:

    Specific provisions and funding rates
    Standard proposal template
    Standard evaluation form
    H2020 General MGA -Multi-Beneficiary
    Annotated Grant Agreement
     
  6. Additional provisions:

    Horizon 2020 budget flexibility

    Classified information

    Technology readiness levels (TRL) – where a topic description refers to TRL, these definitions apply.

    Financial support to Third Parties – where a topic description foresees financial support to Third Parties, these provisions apply.

     
  7. Open access must be granted to all scientific publications resulting from Horizon 2020 actions, and proposals must refer to measures envisaged. Where relevant, proposals should also provide information on how the participants will manage the research data generated and/or collected during the project, such as details on what types of data the project will generate, whether and how this data will be exploited or made accessible for verification and re-use, and how it will be curated and preserved.
     
  8. Additional documents:

    H2020 Work Programme 2016-17: Introduction
    H2020 Work Programme 2016-17: Secure, clean and efficient energy
    H2020 Work Programme 2016-17: Dissemination, Exploitation and Evaluation
    H2020 Work Programme 2016-17: General Annexes
    Legal basis: Horizon 2020 - Regulation of Establishment
    Legal basis: Horizon 2020 Rules for Participation
    Legal basis: Horizon 2020 Specific Programme 


    Please note that the topic EE-22 will open again on the 19/01/2017 with deadline 07/06/2017, subject to the final decision on 2017 budget appropriations. 
     
Additional documents

Download all documents
(EN only, incl. the additional docs.)

  • Call Flash info - call results en

Submission Service

The submission system is planned to be opened on the date stated on the topic header.

 

Get support

H2020 Online Manual your online guide on the procedures from proposal submission to managing your grant.

Participant Portal FAQ – Submission of proposals.

National Contact Points (NCP) - 
contact your NCP for further assistance.

Research Enquiry Service
– ask questions about any aspect of European research in general and the EU Research Framework Programmes in particular.

IT Helpdesk
- contact the Participant Portal IT helpdesk for questions such as forgotten passwords, access rights and roles, technical aspects of submission of proposals, etc.

EASME Energy Unit: EASME-ENERGY@ec.europa.eu

Ethics
– for compliance with ethical issues, see the Participant Portal and Science and Society Portal

European IPR Helpdesk
assists you on intellectual property issues

CEN
and CENELEC, the European Standards Organisations, advise you how to tackle standardisation in your project proposal. Contact CEN-CENELEC Research Helpdesk at research@cencenelec.eu.

The European Charter for Researchers and the Code of Conduct for their recruitment


Partner Search Services
help you find a partner organisation for your proposal