pujng together a project proposal -‐ experiences from a project
TRANSCRIPT
Pu#ng together a project proposal -‐ Experiences from a project coordinator
Johan Desmedt, EnergyVille/Vito, EASME H2020 info day, 19/09/2016,
Brussels
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Contents
1. Short introducKon of EnergyVille 2. Short introducKon to our H2020 projects 3. The idea generaKon 4. Ge#ng the partners together 5. Proposal wriKng + submission 6. Project impact 7. Lessons learnt
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Flemish energy research by
KU Leuven Electa Building Physics Mechanics
imec Photovoltaic Research
VITO Energy Technology Sustainable CiKes
Research – Development – Training – Industrial InnovaKon
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EnergyVille: some figures
Employees >700 >6000 >1500
Revenues (Meuro) 133 815 363
PhD’s 70 >5000 250
“Employees” 200
Revenues (Meuro) 34
PhD’s 95
Research and innovation action - The H2020 STORM Project
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Project Acronym STORM
Project Full Title Self-Organising Thermal Operational Resource Management Objective
Development, demonstration and implementation of generic DHC network controller based on self-learning optimisation techniques.
Partners 6 partners, project coordination and algorithm development (VITO), 2 demos sites (Mijnwater/Veab), DHC ICT (NODA), education (Zuyd Hogeschool), replication and dissemination (Euro heat and power)
Start Date 01/03/2015 – 31/08/2018
Impact Reduce the energy consumption of space and water heating by 30 to 50% compared to today's level. Contribute to wider use of intelligent district heating and cooling systems and integration of renewables.
Project cost €1.97M Funding Programme H2020-EE-2014-2-RIA Technology for district heating and cooling networks
Keywords District heating and cooling, smart control, energy efficiency, energy services, Renewable heating & cooling, Energy efficient buildings
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Step 1 – The idea generaKon How to transform an idea into a proposal? Is there a need for a EU project based on a state of art analysis? IdenKfy the real GAP Find a call that embraces your idea Clearly idenKfy what should be the objecKves and the results JusKfy the proposal idea This idea needs to fit well in the Call and in line with the Topic descripKon
H2020 STORM project First contacts and meeKng with NODA (SE) on a conference. Topic advanced controlling of DHC networks was “new”, beyond state of the art and call text menKoned it.
First draj project proposal (2 pages) was wriken.
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Fitness to the call descripKon – EE13 -‐RIA Specific challenge: District heaKng and cooling systems need to be more efficient, intelligent and cheaper. It is necessary to develop and deploy intelligent systems using smart metering and control solu=ons for opKmisaKon and consumer empowerment (…)
Scope: Develop, demonstrate and deploy a new genera=on of highly efficient, intelligent district hea=ng and cooling systems which are capable of integraKng mulKple efficient generaKon sources, including different kinds of renewable energy, cogeneraKon, (…)
Develop op=misa=on, control, metering, planning and modelling tools such as intelligent thermal agile controllers embedding self-‐learning algorithms (…)
The acKviKes are expected to be implemented at TRL 4-‐6 (…).
Budget: The Commission considers that proposals requesKng a contribuKon from the EU of between EUR 1.5 and 2 million (…)
Expected Impact: Reduce the energy consumpKon by 30 to 50% compared to today's level. Contribute to the wider use of intelligent district heaKng and cooling systems and integraKon of renewables, waste and storage.
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The work packages in H2020 STORM project
è importance of putting together a coherent and well explained work programme structure – at an initial stage
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Step 2-‐ Ge#ng the partners together Ajer drajing the project idea we looked for partners. Networking and brokerage events, know the acKvity/playing field of your research/innovaKon. Who do we need for a certain task or area. Which (complementary) experKse do we miss to achieve the objecKves, the targeted results and call’s needs? First we define the scope ajerwards the partners -‐ not the other way around. Keep consorKum well balanced (also the number of partners). Complex and large projects need to have robust project management structures. But it is always a balance between different aspects:
• Different regions/countries of Europe. • UniversiKes and SMEs/ (large)industry. • AddiKonal requirements of the call eg. ciKes/regions. • What is their track record in the EC field (expert/new/unknown). • Look for innovaKve partners.
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The partners in the H2020 STORM project
Developing
DemonstraKon
CommunicaKon/replicaKon
EducaKon
CoordinaKon
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2 demonstraKon sites Mijnwater (NL) and Rokne (SE)
• Demo site 1 Vaxjo in Rokne (SE) -‐ 175 consumers -‐ 2 wood chips boiler + bio fuel boiler -‐ Design network operaKng temperatures 90 – 60°C -‐ ObjecKve: eliminate operaKon of peak fuel boiler
• Demo site 2 Mijnwater in Heerlen (NL) -‐ Low network temperatures -‐ HeaKng + cooling demand -‐ Coupled to underground mine water storage -‐ Heat pumps in buildings -‐ Exchange of energy between buildings -‐ ObjecKve: balancing of heat/cold producers and
consumers
• These two sites cover a wide range of all European DH networks
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Step 3 -‐ Proposal wriKng
Consistent and detailed enough task descripKons, milestones, deliverables, feedback loops, allocaKons of tasks to concrete partner, etc External consultancy can help but idea has to come from core partners. It takes Kme to write, re-‐write and fine-‐tune the proposal, budget, partners, etc. Obtain the necessary informaKon from all partners is Kme consuming. SomeKmes external review of the proposal and proofread the English. Write simple texts and words but make the difference. Keep in mind also the days spend on nego=a=on of the Grant Agreement and Consor=um Agreement .
è Proposal submiSng (well before the deadline)
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Projects impact in response to the call Have a good understanding of the EC strategy, EC direcKves, documents, roadmaps, state of the art, industrial relevance, etc. JusKfy the impacts in the proposals with credible and realisKc assumpKons. Eg. energy savings, improvements on performance and any other relevant impacts should be supported by simulaKons/previous tests/previous research. Define proposals which will have an impact on the topic and on EU level. Enhance the innovaKon capacity and integraKon of new knowledge. Strengthening the compeKKveness and growth of companies. Deliver the innovaKons to the market. EffecKveness of the measures to exploit and disseminate the project results (IPR).
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The IEE STRATEGO
Multi-level actions for enhanced Heating & Cooling plans Example of a market uptake – coordination support action (CSA).
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Lessons learnt Be familiar with the call and the EC parKcipant portal. Plan well in advance and start early enough. Akend networking and brokerage events. Not everything would is allowed and is also advisable. RealisKc and well balanced budgets. Proposal -‐ detailed, clear and to the point – use graphics. Give details about potenKal impact and IPR. With STORM and Stratego projects we have buildup good partnerships for future proposals. SKll no real recipe for a successfull proposal L
Heating and cooling Topics EE-01, EE-02, EE-04
This communication does not constitute any formal commitment on behalf of the EASME or the European Commission. The work programme presented may be subject to changes.
Horizon 2020 Energy Efficiency Information Day 19 September 2016, Brussels
Agenda
16:00 Welcome
Agata Kotkowska, Head of Sector, EASME 16:05 EU Policy Overview on heating and cooling
Eva Hoos, Policy Officer, DG ENER 16:20 Support to Innovation Actions. Topics EE-1 and EE-4
Piotr Wais, Antonio Aguilo, Project Advisers, EASME 16:45 Support to market uptake (actions. Topic EE-2
Antonio Aguiló, Project Adviser, EASME 16:55 Putting together a project proposal
Johan Desmedt, Project manager, VITO 17:10 Questions and answers 17:30 End
Secure, clean and efficient energy F
Buildings
Heating &
Cooling Industry, services & Products
Funding areas
Consumers
Call Energy Efficiency 2016 93 M€
Call Energy Efficiency 2017 101 M€
Innovative financing for
Energy Efficiency
investments
Support to H/C under Horizon 2020 WP 2016-17 –Energy Eff
Research & Innovation
Innovation action
CSA/Market uptake
Technical assistance
Valorisation of waste heat in industrial systems (EE17)
Cal
l 201
6
Models and tools for H/C mapping and planning (EE5)
Cal
l 201
7
Standardised installation packages integrating EE and RES H/C (EE3)
Engaging and activating public authorities (EE9)
Improving efficiency of DH schemes (EE2)
PDA retrofitting of existing DHC (EE22) *Other actions, e/g ELENA (European Local Energy Assistance
Information on this slide is indicative – Only the Horizon 2020 call for proposals has a legal value
Waste heat recovery in urban areas (EE1) Low temperature DH for high energy performance buildings (EE4)
New heating and cooling solutions using low grade sources of thermal energy (EE4)
Type of Action EU funding Research and Innovation / Innovation (H2020 2014,2015,2016, Energy Efficiency, EeB) EUR 83.1 million Research and Innovation / Innovation (H2020 2014,2015 Low Carbon Energy/Renewables1) EUR 44.9 million
Smart Cities (FP7 Call 2012,2013) EUR 41.6 million
Market uptake (IEE Calls 2012,2013, H2020 2014, 2015 Energy Efficiency1) EUR 15.6 million
Market uptake (H2020 2014-2015 Low Carbon Energy/Renewables1) EUR 5.3 million Technical assistance and innovative financing (IEE Calls 2011-2013, H2020 2014,20151) EUR 5.6 million
SME Instrument (Phase 1 and 2 2014,2015,2016) EUR 10.3 million
Total* EUR 206.4 million Smart Cities and Communities (H2020 2014,20151) EUR 215,7 million
1 excludes data from the Call 2016 * In the Horizon 2020 Smart Cities and Communities Calls 2014, 2015 some activities are related to heating and cooling * include only projects for which contracts have already been signed
Summary of EC funding in the area of H/C including the following: Horizon 2020 Calls 2014/2015, 2016* Smart Cities FP7 Calls 2012/2013, IEE Calls 2001/2012/2013
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Ongoing projects on heating and cooling
§ Research and Innovation § Models and tools for heating and cooling planning: HotMaps, THERMOS,
Planheat § Low exergy systems: MPC-. GT , LOWUP, InnovaMicrosolar § Intelligent controllers for DHC network: STORM, Opti, INDIGO, E2District, InDeal § New generation H/C networks FLEXYNETS, H-Disnet § Waste heat recovery in energy intensive industrial process: TASIO , ITherm,
SUSPIRE , Indus3E § Thermal energy storage for buildings applications: CREATE, Tesse 2B. § Low carbon and RES technologies
§ Micro-CHP: FlexiFuel-SOFC , Bio-HyPP, biomass: Residue2Heat. § Reducing costs for geothermal wells: SURE
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Ongoing projects on heating and cooling
§ Innovation (demonstration) § improvement of actual drilling/installation technologies for shallow geothermal
energy systems: Cheap GSHPs , GEOTeCH
§ integration of thermal storage and an existing small-scale concentrated solar power plant, coupled with an organic Rankine cycle system ORC-PLUS
§ Heating and cooling equipment for supermarkets, MULTIPACK
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Ongoing projects on heating and cooling
Market uptake for heating and cooling Support under IEE and Horizon 2020 EE and LCE sections of the energy challenge § support to market actors for the uptake of specific
heating and cooling solutions REGEOCITIES, GEODH, SDHPLUS , RESCUE , BiogasHeat , CODE2.
§ support to energy labelling for heating and cooling products and end consumer decision making LabelPackAplus, FRONT, SuperSmart.
§ heating and cooling planning Progressheat, SmartReFlex, RES H/C SPREAD, STRATEGO, HRE (4), CoolHeating, SDHp2m.
§ Support to project development assistance -> e.g MLEI PDA and Horizon 2020 PDA SOLROD , BOWEN , Energy4Flexibility , GeoKec , EFIDISTRICT , BEenergi , TrustEE.
§ For projects with larger investments refer to the ELENA facility managed by the EIB.
https://ec.europa.eu/easme/en/heating-and-cooling
Topic EE-01-2017 Waste heat recovery from urban facilities
and re-use to increase energy efficiency of district or individual heating and cooling systems
Horizon 2020 Energy Efficiency Information Day 19 September 2016, Brussels
Piotr Wais Project Advisor, EASME Unit B.1 Energy
Innovation actions (IA) (HORIZON 2020 WORK PROGRAMME 2016– 2017, General Annexes, Part D)
§ Project may include limited research and development activities
§ Technology Readiness Level (TRL) 6 – 8
§ Funding rate: 70% (except for non-profit legal entities, where a rate of 100% applies)
§ For Topic EE-01-2017 – The Commission consider that proposals should request a contribution from
the EU of between 3-4 million EUR – This does not preclude submission and selection of proposals requesting other
amounts
Specific challenges (what are the problems? where do we want to get?)
§ Increase in the recovery of heat energy from
– Urban area – Urban waste – Waste water systems
§ Apply central heating and cooling system for energy distribution – Individual system – District network
§ Apply different technologies to support the recovery, if needed (heat pumps …)
Scope (where should proposals focus?, areas of action?)
§ Demonstration of waste heat and waste water heat recovery in:
– Urban areas – Service sectors – Transport system facilities
§ Demonstration of integration into – existing heating and cooling systems in building/facilities – district heating and cooling systems
§ To facilitate application and rapid development, focus should be put on
– Replicability – Scalability – Modularity
Expected Impacts (what is the impact in terms of energy saved, RES triggered, investment, jobs created, stakeholders engaged, technology innovation, etc)
Proposals are expected to demonstrate the impacts listed below using quantified indicators and targets wherever possible: § Primary energy savings and Greenhouse gas emission savings
compared to best available solution existing today
§ Increase in share of waste heat captured and utilised in urban areas
§ Scale of replicability potential of the proposed solutions
Technology Readiness Level (TRL) § The activities are expected to be implemented at TRL 6-8
§ Definition (HORIZON 2020 WORK PROGRAMME 2016– 2017, General Annexes, Part G)
– TRL 1 – basic principles observed – TRL 2 – technology concept formulated – TRL 3 – experimental proof of concept – TRL 4 – technology validated in lab – TRL 5 – technology validated in relevant environment (industrially relevant
environment in the case of key enabling technologies) – TRL 6 – technology demonstrated in relevant environment (industrially
relevant environment in the case of key enabling technologies) – TRL 7 – system prototype demonstration in operational environment – TRL 8 – system complete and qualified – TRL 9 – actual system proven in operational environment (competitive
manufacturing in the case of key enabling technologies; or in space)
TRL 6 – 8 Innovation Action
TRL 6 - 8
Projects may include limited research and development activities.
A ‘demonstration or pilot’ aims to validate the technical and economic viability in an operational (or near to operational) environment.
TRL 1 TRL 2 TRL 3 TRL 4 TRL 5 TRL 6 TRL 7 TRL 8 TRL 9
basic principles observed
technology concept formulated
experimental proof of concept
technology validated in lab
technology validated in relevant environment
technology demonstrated in relevant environment
system prototype demonstration in operational environment
system complete and qualified
actual system proven in operational environment
First market replication project. ‘First’ means new at least to Europe or new at least to the application sector in question.
The proposal will need to provide the evidence that the technology is at a specific TRL level.
IA: action to facilitate pilot production and demonstration for which both cost and risk are very high as a next step to market introduction
Remarks § Impact has to be precise justified (well defined), proposal
should support savings with credible data and calculation methods.
Experts look for information: Measurement technique, comparison condition (to the state-of-the-art solutions?), demonstration with quantified indicators and targets
Example from the proposal: System reduces electricity consumption by 50% and increase efficiency by 60%.
Frequent questions § Question 1 In the Scope section, there is a sentence "Project should build on previous projects supported under FP7 and Horizon 2020". If we want to write the proposal based on our previous work, not financed by FP7 and Horizon 2020, can the proposal be rejected?
The proposal that is based on other work is not rejected automatically, and is evaluated like other proposals.
Consortium is advised to verify previous calls/projects supported by FP7 or Horizon 2020 and, if applicable, their results can be used as a start point for a new proposal.
Frequent questions § Question 2 What are urban facilities? Urban facility is defined as a public infrastructure, public buildings or urban
support facilities. As an example:
▪ Urban transport facilities and infrastructure facilities ▪ Water supply system ▪ Sewer collecting waste network ▪ Urban buildings ▪ Roads, metro, tram network facilities ▪ Streetlight system facilities ▪ …
Frequent questions § Question 3 Should the proposal deal with heat recovery area/method without connection to heating and cooling networks?
Connection and integration into existing system solutions are essential for practical applications (TRL 6 – 8).
Focus should be given to replicability, scalability and modularity that facilitate application and rapid development.
Frequent questions § Question 4 How much work can be dedicated for the research area below TRL 6?
Different elements of proposals may have different starting points on the TRLs and some small parts of proposals might have lower or higher TRL level than those stated in the topic description.
Consortium should explain and justify why that activity is added and estimate the risk for the whole project. Then, experts evaluate the proposal taking into consideration the scope, concept, estimated risk and impacts.
Frequent questions § Question 5 If I understood correctly the scope areas for this topic are the demonstration of waste heat and waste heat recovery in urban areas, in services and transport systems facilities…. Does the proposal have to address all these areas? Is it enough if the proposal addresses waste heat recovery in one sector only?
As included in the Work Programme, the scope of the topic is to "demonstrate waste heat and waste water heat recovery in urban areas, in services sectors and transport systems facilities". Proposals can address one or few of these areas as relevant to your proposal idea.
Note that in all cases, as mentioned in the scope of the topic, proposals need to give consideration and demonstrate "their (waste heat and waste heat recovery systems) connection and integration into the existing heating and cooling supply systems in building/facilities or district heating and cooling systems".
Useful links
§ Work programme and topic description http://ec.europa.eu/research/participants/data/ref/h2020/wp/2016_2017/main/h2020-wp1617-energy_en.pdf
§ Proposal template: please read this to understand what applicants are asked to fill in
http://ec.europa.eu/research/participants/data/ref/h2020/call_ptef/pt/2016-2017/h2020-call-pt-ria-ia-2016-17_en.pdf
§ Self-evaluation forms: the forms used by the experts for their evaluation reports are similar
http://ec.europa.eu/research/participants/data/ref/h2020/call_ptef/ef/2016-2017/h2020-call-ef-ria-ia-csa-2016-17_en.pdf
Call for heating and cooling Experts
Project proposals applying for Horizon 2020 funding are evaluated by a group of independent experts in the field. Heating and cooling specialists are invited to join the European Commission's database to help us select the best projects. To register: http://ec.europa.eu/research/participants/portal/desktop/en/experts/index.html
HEATING & COOLING
Topic EE-04-2017 Applicability of low temperature district heating to
buildings with high energy performance
Horizon 2020 Energy Efficiency Information Day 19 September 2016, Brussels
Antonio AGUILO Project Advisor, EASME Unit B.1 Energy
• Following the EU Strategy on heating and cooling….
http://europa.eu/!jx43vr the focus of this topic has changed
• Refer to the July 2016 update of the 'Secure, Clean and Efficient Energy' work programme http://europa.eu/!UJ73wd
Call 2016 Call 2017
RIA IA
New heating and cooling solutions using low grade sources of thermal energy
Applicability of low temperature district heating to buildings with high energy performance
TRL 4-6
TRL 5-6 to TRL 7-8
EE-4
Background
Innovation action (IA) • they may include prototyping, testing, demonstrating, piloting,
large-scale product validation and market replication • ‘demonstration or pilot’: to validate the technical and economic
viability …in an operational (or near to operational) environment • ‘market replication’: support first application/deployment in the
market of an innovation already been demonstrated but not yet applied/deployed
• Project may include limited research and development activities
• Funding rate: 70% (for non-profit legal entities, 100%)
EE-4
TRL 1 TRL 2 TRL 3 TRL 4 TRL 5 TRL 6 TRL 7 TRL 8 TRL 9
basic principles observed
technology concept formulated
experimental proof of concept
technology validated in lab
technology validated in relevant environment
technology demonstrated in relevant environment
system prototype demonstration in operational environment
system complete and qualified
actual system proven in operational environment
Starting point After action is implemented
EE-04 IA
The proposal will need to convince that the activities are implemented at the specific TRLs levels
More info: HORIZON 2020 WORK PROGRAMME 2016– 2017, General Annexes http://europa.eu/!kc96Vu
EE-4
• heat demand of energy
efficient buildings is decreasing
• technical and economic viability of conventional DH systems is affected
• less heat demand per unit of heat delivered -> high costs of heat delivered?
Indicative evolution of heat demand in a residential building
what are the problems? where do we want to get?
EE-4
1. Specific challenge
Hot
w
ater
Spa
ce
heat
ing
1. Specific challenge The following is needed: • transition to technology maturity • use newly dedicated or transform existing DH distribution
networks and building heating systems • change consumers perception
OPPORTUNITY Use of DH using low grade residual/waste/excess and renewable sources of heat to supply buildings with high
thermal performance
EE-4
2. Scope Demonstrate applicability of low temperature district networks using large shares of residual and renewable energy sources of low-grade heat to supply space heating and hot water to areas of buildings with high thermal performance standards Actions could: • consider new developed district heating networks • consider how existing networks could respond to the challenge
through conversion to low temperature district heating networks
EE-4
Where should proposals focus? / areas of action? Specific information
2. Scope Proposals should • give consideration to providing solutions to eliminate the risk of
legionella • present solutions that are able to offer competitive cost of heat • pay attention to means of reducing
• heat distribution losses and • installation costs of networks whilst retaining reliability and durability of
the distribution network • propose technical solutions and business models for successful
commercial operation • engage and involve as necessary district heating companies and
technology providers
EE-4
2. Scope Proposals should consider • optimisation of the system operation via advanced controls and
storage • use of metering and interfaces that allow the end user to play an
active role in the system both as and end user and a supplier
EE-4
2. Scope Proposals could/may • integrate space cooling but focus to remain in provision of
space heating and hot water. • consider combination of district heating with solutions at the
individual building level
EE-4
2. Scope • Proposals should aim at moving technologies from TRL 5-6
to TRL 7-8 • In all cases TRL-7 or TRL-8 should be achieved at the
end of project activities • Remember this is an Innovation Action – not a Research
and Innovation Action
EE-4
TRL 1 TRL 2 TRL 3 TRL 4 TRL 5 TRL 6 TRL 7 TRL 8 TRL 9
basic principles observed
technology concept formulated
experimental proof of concept
technology validated in lab
technology validated in relevant environment
technology demonstrated in relevant environment
system prototype demonstration in operational environment
system complete and qualified
actual system proven in operational environment
3. Expected impact Proposals expected to demonstrate the impacts below: • Primary energy savings and GHG emission savings triggered • Competitiveness of the heat delivered by the proposed solutions • Increased share of residual and renewable sources • Reduction of heat distribution losses of the proposed solutions • Viable business model showing the economic and commercial viability • Scale of the replicability potential of the proposed solutions
EE-4
• Expected impacts should be realistic and supported with credible assumptions and calculations
• Expected impact must be specific, and relate to proposal and its objectives
• Wherever possible, quantified indicators and targets are expected
Some (non-exhaustive) remarks • Pay attention to the starting point -> what do we already know /
what are the foundations of the proposed action • Key Performance Indicators • EE-4 is an innovation action -> end at TRL 7-8 in all cases • Pay attention to exploitation of project results • Coherency between project objectives, tasks, deliverables,
resources, consortium composition and stakeholder involvement • Risk assessment • Read template for proposers • Read topic description http://europa.eu/!dK46dN • Only excellent proposals will be selected
EE-4 EE-4
Call 2017 deadline: 19 Jan2017
~ EUR 3 and 4 million / proposal
Topic EE-02-2017
Improving the performance of inefficient district heating networks
Horizon 2020 Energy Efficiency Information Day 19 September 2016, Brussels
Antonio AGUILO Project Advisor, EASME Unit B.1 Energy
Coordination and support action (CSA) • Actions consisting primarily of
accompanying measures • … awareness-raising and
communication, coordination or support services, policy dialogues, capacity building, and mutual learning exercises and studies, activities of strategic planning, etc."
• Funding rate: 100%
Market uptake action ⇒ accelerating the market uptake of technologies available in the market ⇒ converting policy into action, real changes on the ground
EE-2
1. Specific challenge
Percentage of the population served by district heating (2013).Source: Commission services using data supplied by Euroheat and Power
EE-2
• significant number of DH
systems are old and inefficient and run using fossil fuels
• poor maintenance, high customer heat costs and limited ability for user control
• significant number of customers disconnect from networks and install individual systems
1. Specific challenge • the retrofitting of these DH
systems can offer a cost effective approach to supplying efficient heat.
• schemes can include city-wide networks or networks at the district/neighbourhood level
EE-2
2. Scope Actions to accelerate the cost effective and energy efficient retrofitting existing, inefficient DH networks Activities should: • replicate or develop successful technical, managerial,
organisational and financial approaches • lead to the initiation of concrete (renovation) schemes • lead to the development of concrete regional or national
action plans for the retrofitting of inefficient DH networks • engage and involve as necessary all required stakeholders to
achieve the above
EE-2
3. Expected impact Proposals expected to demonstrate the impacts listed below: • Primary energy and GHG emission savings triggered by the
proposed actions • Increased share of waste/residual and renewable sources of
heat • Scale of the replicability potential of the proposed solutions • Number of retrofitting approaches initiated by the project
within its duration
EE-2
Some (non-exhaustive) remarks • Expected impacts should be specific, realistic, credible and
related to the proposal activities and objectives • Pay attention to the starting point • Wherever possible, quantified indicators and targets are expected • For non-quantitive impacts a credible methodology/stakeholder
involvement strategy to support achievement is necessary • Identify and demonstrate plans for engaging and involving
necessary stakeholders (market actors and decision makers) • Only the very excellent proposal will be funded
EE-2
Call 2017 deadline: 7 June 2017
~ EUR 1 and 2 million / proposal
HORIZON 2020
45
Useful links § Work programme and topic description http://ec.europa.eu/research/participants/data/ref/h2020/wp/2016_2017/main/h2020-wp1617-energy_en.pdf
§ Proposal template: please read this to understand what applicants are asked to fill in
http://ec.europa.eu/research/participants/data/ref/h2020/call_ptef/pt/2016-2017/h2020-call-pt-ria-ia-2016-17_en.pdf
§ Self-evaluation forms: they mirror what you find in SEP http://ec.europa.eu/research/participants/data/ref/h2020/call_ptef/ef/2016-2017/h2020-call-ef-ria-ia-csa-2016-17_en.pdf
Call for heating and cooling Experts
Project proposals applying for Horizon 2020 funding are evaluated by a group of independent experts in the field Heating and cooling specialists are invited to join the European Commission's database to help us select the best projects To register: http://ec.europa.eu/research/participants/portal/desktop/en/experts/index.html
HEATING & COOLING
THANK YOU FOR YOUR ATTENTION
Piotr [email protected] Antonio Aguilo [email protected]
Project Advisors, EASME Unit B.1 Energy
EASME on Twitter @H2020EE • @H2020SME • @EEN_EU • @EU_ECOINNO
1 Source: Directorate-General for Energy
EU Policy on
Heating & Cooling
Eva Hoos, Unit C3: Energy Efficiency, Directorate-General for Energy (DG ENER), European Commission
2
EU Energy Efficiency Framework for Industry
1. Cornerstones of EU policy:
• European Energy Union
• 2020 and 2030 frameworks
• 2015 Paris Agreement (UNFCCC)
2. EU Heating & Cooling Strategy
3. Energy Efficiency framework
4. Energy Efficiency Directive (EED)
5. Next steps
4
The way towards:
The Energy Union
Where we want to go: A secure, sustainable, competitive, affordable energy for every European
What this means:
Energy security, solidarity and trust A fully integrated internal energy market
Energy efficiency first Transition to a long-lasting low-carbon society
An Energy Union for Research, Innovation and Competiveness
How we want to reach it:
5 Source: Directorate-General for Energy
1 Secure supplies
2 Internal energy market
3 Energy efficiency
4 Emissions reduction
5 Research & Innovation
5
6
1 Secure supplies
We have to become less dependent
on energy from outside the EU This means increasing transparency on gas supply; diversifying sources, supplies and routes; working together on security of supply and developing a stronger European role in global energy markets.
7
Energy should flow freely across
the EU – without any technical
or regulatory barriers
2 Internal energy market
This means connecting markets through interconnections and implementing and upgrading the internal market's software while enhancing regional cooperation and empowering consumers.
8
Rethink energy efficiency as an energy source in its own right
3 Energy efficiency
This means increasing energy efficiency, in particular in the building sector, and promoting an energy-efficient and decarbonized transport sector as well as efficient products.
9
An ambitious climate policy is an integral part of our Energy Union The next challenge will be to enforce the 2030 energy and climate framework, while becoming the number one in renewables.
4 Emissions reduction
10
Developing EU technological leadership in low carbon technologies This will reduce energy consumption, empower consumers, create huge industrial opportunities and boost growth and jobs.
5
Research &
innovation
11
Delivering the Energy Union:
A dynamic governance
The Commission will launch a dynamic governance process for the European Energy Union
Successful implementation depends on the political commitment of all actors concerned, including EU institutions and Member States!
Integrated energy and
climate governance
Streamlined planning and
reporting
Deepen MS cooperation,
improved data analysis
and intelligence
Annual reporting to the EP and
Council
12
Agreed headline targets 2030 Framework for Climate and Energy
2020
2030
New governance system + indicators
-20 % Greenhouse
Gas Emissions
20% Renewable
Energy
20 % Energy Efficiency
≤ - 40 % Greenhouse Gas
Emissions
≥27 % Renewable
Energy
≥ 27%* Energy Efficiency
10 % Interconnection
15 % Interconnection
* To be reviewed by 2020, having in mind an EU level of 30%
Energy efficiency is a key climate change action and an essential dimension of the Energy Union Strategy
2030 Framework for Climate and Energy
14 14
2016 -‐ the year of delivery for energy policy to implement the Energy Union Strategy and
fulfil the commitments under the COP21 July
LULUCF, Transport Effort Sharing Decision
October Energy Efficiency Package
(EED, EPBD) + Smart Finance for Smart
Buildings
December Renewables
+biomass sustainability Market Design
Energy Union Governance
February HeaLng and cooling strategy
Security of gas supply
15
§ Buildings: Decarbonising buildings → renovaLon and deployment of efficient, sustainable supply (renewables, waste heat/cold)
§ Industry: energy efficiency and renewable energy, recovery of waste heat & cold
§ 3 key synergies (comprehensive integrated approach)
- Linking energy savings with the deployment of sustainable (renewable-‐based, low carbon) supply
- Linking heaLng & cooling with the electricity systems
- Linking heaLng & cooling of buildings with industry for the use of waste heat and waste cold
HeaOng and cooling: 50% of the EU final energy consumpOon (546 Mtoe in
2012); it will remain the largest end-‐use sector on the long term (by 2050)
Primary energy consumption for heating and cooling, 2012
A EU strategy for heaOng and cooling
Key issues § How to make heating and cooling contribute to
demand reduction, decarbonisation and renewable energy?
§ How this helps security of supply, cost
savings of citizens and industry, tackling energy poverty, EU technology leadership
§ How to speed up the deployment of new technologies (energy efficiency, renewables, low-carbon, smart)?
Key focus § Buildings (residential, tertiary) → renovation and
deployment of efficient, sustainable supply (renewables, waste heat/cold).
§ Industry (energy intensive sectors, all enterprises, SMEs) →
energy efficiency and renewable energy, recovery of waste heat & cold.
§ 3 key synergies (comprehensive integrated approach): - Linking energy savings with the deployment of
sustainable (renewable-based, low carbon) supply; - Linking heating & cooling with the electricity
systems; - Linking heating & cooling of buildings with industry for
the use of waste heat and waste cold.
Key areas
§ District heating and district cooling –for deploying
renewables and waste heat in buildings and industry
§ CHP – for generation efficiency, linking heating and cooling
with electricity (flexibility), deploy renewables and
alternative fuels, self-generation.
§ Thermal storage (buildings, heat networks).
§ Smart systems: demand response, storage, self-
consumption, distributed generation.
§ Cooling: new & growing demand area
§ Waste heat and waste cold.
§ Integrated heat planning & mapping.
•
19
Follow-‐up acOons will be taken forward by: § the legislaOve reviews of the EU Energy Efficiency framework
(Energy Efficiency DirecOve, Energy Performance of Buildings DirecOve, Eco-‐design and energy labelling framework) the Renewable Energy DirecOve and new electricity market design in 2016
§ intensified implementaOon of the current legislaOon (e.g. ArOcle 19 of the EED on split incenOves)
§ new non-‐legislaOve acOons (e.g. industrial round tables for energy industries)
§ intensificaOon of current non-‐legislaOve acOons (e.g. BUILD UP Skills, SET plan, Covenant of Mayors, etc.)
21
• ArOcles 1 and 3: -‐ OpOmal energy efficiency target for 2030
• ArOcle 7 on energy savings obligaOons and alternaOve measures: -‐ Extension of the obligaOon period post 2020; -‐ AmbiOon level; -‐ ClarificaOon and streamlining of the exisOng requirements
• ArOcles 9-‐11 on metering and billing • ArOcles 15 and 24:
-‐ adapOng to the new Governance and Market Design IniOaOves
Review of the Energy Efficiency DirecOve
22
• Ensure that it remains fit for purpose with a 2030 perspecOve
• Intensified implementaOon efforts combined with targeted amendments, focused on: 1. Modernising the DirecOve in the light of:
– Technological progress in smart technologies and electro-‐mobility
– Need to increase building renovaOon and support decarbonised building stocks by 2050
2. Fine tuning exisOng provisions, linking them becer to financial support
Review of the Energy Performance of Buildings DirecOve
23
• Ensure that it remains fit for purpose by: – Improving the effecOveness of the label (e.g. back to the A to G scale,
including rescaling; consumer tesOng)
– Strengthening compliance (e.g. through becer market surveillance and product registraOon)
– SimplificaOon by moving from a DirecOve to a RegulaOon (e.g. no naOonal transposiOon)
• Ecodesign sOll broadly fit for purpose – New working plan to be published in the autumn
Review of the Energy Labelling DirecOve
24
Forthcoming EE Package: Smart Finance For Smart Buildings IniOaOve
e.g. Project development assistance Aggregation
De-risking e.g. Performance data, risks/benefits implications, market evolution & benchmarking
Market-based culture e.g. financial instruments, better use of public finance
25
Delivering the 2020 goals
Energy Efficiency Directive 2012/27/
EU
Ecodesign Directive
2009/125/EC
Energy Performanc
e of Buildings Directive
2010/31/EU
Energy Labelling Directive 2010/30/
EU
Legislative Framework for Energy Efficiency
26
Transposition deadline was 5 June 2014
http://ec.europa.eu/energy/en/topics/energy-efficiency
Energy Efficiency Directive 2012/27/EU
27 Source: Directorate-General for Energy
THE ENERGY EFFICIENCY DIRECTIVE
Services Energy supply
House- holds
Industry
General measures promoting
energy efficiency
EED
Sectoral measures
Monitoring & Reporting
Indicative national EE
targets
Public sector
28
Article 3: National energy efficiency targets
Article 4: Long term building renovation strategies
Article 5: Renovation of central government buildings
Article 6: Public procurement
Article 7: Energy efficiency obligations (or alternatives)
Article 8: Energy audits and energy management systems
Articles 9-11: Smart metering and billing
Article 14: Efficient heating & cooling (CHP, district heating and
cooling)
Article 15: Energy efficiency in grids and demand response
Article 16-17: Qualification, training and information
Article 18: Energy service markets
Energy Efficiency Directive 2012/27/EU
29
Ø Comprehensive Assessment of the national potentials for
efficient heating & cooling – by 31 December 2015, 5 yearly
update q Focus on efficient district heating & cooling (DHC)
q High-efficiency cogeneration
q Other efficient H+C solutions - optional
q Country-wide cost-benefit analysis
Ø Integration of cogeneration and waste heat recovery in
industrial and power generation installations above 20 MW,
connection with DHC q Installation level cost-benefit analysis
q Authorisations and permitting procedures
q Implementation phase: Synthesis report + infringements
Article 14 of the EED: Promoting Efficiency in Heating & Cooling
30
Next steps under the Energy Union & to achieve the 2030 targets
1. Review of the products framework 2. Review of certain elements of the EED 3. Review of certain elements of the EPBD 4. New Renewable Energy Directive + bio-
sustainability 5. New energy marker design 6. New Governance framework 7. Junker's €300bn investment package: work
on-going 8. Industrial Round Tables