HORIZON 2020
ENERGY

Delavnicazapredstavitevprojektnihidej je potekala 25.11.2014 v Bruslju.

Odprtirazpisi 2015

ENERGY EFFICIENCY - MARKET UPTAKE PDA

H2020-EE-2015-4-PDA

Deadline: 4.6.2015

Budget: 18.500.000 EUR

Topics:

  • EE-20-2015: Project development assistance for innovative bankable and aggregated sustainable energy investment schemes and projects

ENERGY EFFICIENCY - MARKET UPTAKE

H2020-EE-2015-3-MarketUptake

Deadline:4.6.2015

Budget: 40.800.000 EUR

Topics:

  • EE-05-2015: Increasing energy performance of existing buildings through process and organisation innovations and creating a market for deep renovation
  • EE-07-2015: Enhancing the capacity of public authorities to plan and implement sustainable energy policies and measures
  • EE-09-2015: Empowering stakeholders to assist public authorities in the definition and implementation of sustainable energy policies and measures
  • EE-10-2015: Consumer engagement for sustainable energy
  • EE-14-2015: Removing market barriers to the uptake of efficient heating and cooling solutions
  • EE-15-2015: Ensuring effective implementation of EU product efficiency legislation
  • EE-16-2015: Organisational innovation to increase energy efficiency in industry
  • EE-17-2015: Driving energy innovation through large buyer groups
  • EE-19-2015: Improving the financeability and attractiveness of sustainable energy investments
  • EE-21-2015: Development and market roll-out of innovative energy services and financial schemes for sustainable energy

ENERGY EFFICIENCY RESEARCH & INNOVATION

H2020-EE-2015-2-RIA

Deadline: 4.6.2015

Budget: 21.850.000 EUR

Topics:

  • EE-06-2015: Demand response in blocks of buildings
  • EE-11-2015: New ICT-based solutions for energy efficiency
  • EE-13-2015: Technology for district heating and cooling

CALL – SMART CITIES AND COMMUNITIES

H2020-SCC-2015

Deadline: 5.5.2015

Budget: 107.180.000 EUR

Topics:

  • SCC-01-2015: Smart Cities and Communities solutions integrating energy, transport, ICT sectors through lighthouse (large scale demonstration - first of the kind) projects
  • SCC-03-2015: Development of system standards for smart cities and communities solutions

CALL FOR COMPETITIVE LOW-CARBON ENERGY

H2020-LCE-2015-4

Deadline: 5.5.2015

Budget: 10.000.000 EUR

Topics:

  • LCE-13-2015: Partnering with Brazil on advanced biofuels

CALL FOR COMPETITIVE LOW-CARBON ENERGY

H2020-LCE-2015-3

Deadline: 5.5.2015

Budget: 189.470.000 EUR

Topics:

  • LCE-04-2015: Market uptake of existing and emerging renewable electricity, heating and cooling technologies
  • LCE-05-2015: Innovation and technologies for the deployment of meshed off-shore grids
  • LCE-06-2015: Transmission grid and wholesale market
  • LCE-09-2015: Large scale energy storage
  • LCE-14-2015: Market uptake of existing and emerging sustainable bioenergy
  • LCE-18-2015: Supporting Joint Actions on demonstration and validation of innovative energy solutions
  • LCE-23-2015: Supporting the community in deploying a common framework for measuring the energy and environmental efficiency of the ICT-sector

CALL FOR COMPETITIVE LOW-CARBON ENERGY

H2020-LCE-2015-2

Deadline: 5.5.2015

Budget: 93.000.000 EUR

Topics:

  • LCE-03-2015: Demonstration of renewable electricity and heating/cooling technologies
  • LCE-12-2015: Demonstrating advanced biofuel technologies
  • LCE-19-2015: Supporting coordination of national R&D activities
  • LCE-21-2015: Modelling and analysing the energy system, its transformation and impacts

Projektni predlogi za razpise s področja energije za leto 2015:

NASLOV PROJEKTA
/ TEMA RAZPISA / KRATEK OPIS / KOGA IŠČEJO / ORGANIZACIJA
1 / SERENE, Smart Green REgion Development with Renewable ENErgies / LCE-1 8-2015 / This project is based on the smart region concept development. A smart city from the energy sector can be defined merely as the city that is able to manage properly and efficiently its generation and consumption. However there are many regions with locations around Europe that could not be consider as a city and thus they could not be include in the smart city development and strategy. But due to the towns´ smaller size and their smaller urban and electrical infrastructure complexity, these actions start showing results more quickly and serve as pilot projects whose findings can be extrapolated and beneficial for these localities and regions. Consequently, the term "smart region" is built that joins each of the aforementioned concepts under a single name. Besides, if we want to emphasize and accentuate the existence and integration of renewable energy sources, the previous term can turn into "smart green region". So the main objective of this project is to demonstrate this concept in some smart towns in different regions to develop a specific methodology for these locations to achieve smart green regions around Europe and to accelerate the development of the whole technologies / - Towns and villages with strong interest in being green due to its main activities. Their role is being pilots to demonstrate the availability of this concept;
- Renewable manufactures. To provide their technology and to adapt it if necessary to optimize from the point of view of technical and economical
- Sustainability mobility companies. To incorporate its expertise in mobility / National Renewable Energy Centre (CENER), Navarra, Spain
2 / Action Plan for Sustainable Rehabilitation of Castilla and Leon / EeB-07-2015 / The idea is to develop a sofware based on BIM methodology, which implements a way to reduce the gap between the simulated energy comsumption in a building and the real one. The tool would take into account some factors such weather forecast, maintenance, etc... The sofware would be flexible to implement a continuos improvement in the simulations in this way we will have an increasing improvement on the results. To do that we will modeling an existing building/district and and we will estimate its energy performance, monitoring the real comsumption and other energy parameters with this data we could know the real energy performance. Analysing the differences we can determinate the causes and to implement them in the sofware / Research institutes,
University with experience in data mining
ESCOs,
Software company specialized in energy simulation software
Cities, Region which can provide a pilot
Economy / Business plan specialist
. / 1A Ingenieros, an engineering SME from Spain
3 / Rational use of energy from Experts to families through children / EE-10-2015 / The main goal of the project is changing the family energy behaviour, making the most of the children influence. This change will be supported by “action” as changing engine and it is expected to have an impact of 10% of energy saved in families’ daily life routine. / Energy Agencies (local, regional or national) with capacity to organise training activities for 1.5000 children per year. Reference children age is 10-12 years.
socio-economical institute with experience in training programmes for students
technological centre or university with experience in developing applications of smart metering, app’s... / APEA (Energy Agency of Avila), Castilla y León, Spain
4 / GREEN4VALUE - Towards the green economy: research driven clusters joint for wastes reduction and valorization to improve efficient use of resources and competitiveness in traditional sectors” / EE-09-2015 / Develop a joint action plan to make interregional cooperation in the field of R&D efforts and activities on green technologies and solutions a reality, so as to optimise the recovery of waste (and optimization of waste streams) from traditional regional industries, with the aim of ensuring maximum efficiency of the use of resources, taking into account the economic and energetic potential of this recovery.
The stable network of Research Driven Clusters, integrated by public administration, business and technology centers, will establish a solid basis for cooperation beyond the project lifetime by defining (and committing to) a roadmap for the implementation of the defined action plan. / Public and private authorities from Mediterranean countrie s, RTD centres, Association / INTROMAC – Instituto
Tecnológico de Rocas
Ornamentales y Materiales de
Construcción, Extremadura, Spain
5 / No title yet / LCE-03-2015
SC5-07-2015 / The aim of the project is to develop the currently used water reinjection technology solution and to make it more efficient and cheaper. What justifies the development of the technology and needs to be primarily solved is that there are layers into which it is difficult to reinject the water. One of the unresolved problems in connection with water reinjection is the filtering technology of the water to be reinjected. A 20 micron polypropylene filter is applied now, the water to be reinjected contains particles of less than 20 microns of which there is no information about the composition. These small-sized particles or crystals also make possible blockings, due to which greater pressure and higher energy level is needed for the reinjection, because the small particles easily block the heat exchangers and the filters. Blocking may either be caused by physical, chemical and biological factors. / Companies, institutes for whom reinjection is important for technological reasons, especially institution or company who has a developed filtering and cleaning technology for small particles (under 20 micrometers) of thermal water. The technology can be mechanical, chemical and biological filtering. We can provide our expertise and our sites to demonstrate the technology solution. / SolarTech South Plain Nonprofit Company for Development and Production, Hungary
6 / Energy Self-sufficient Intelligent Regions: Supporting market uptake ob bioenergy within regional and local context / LCE 14 -2015 / The idea of the project is to endorse and foster the market uptake of integrated sustainable bioenergy solutions that facilitate and ensure the use of local renewable energy sources. This enables us to increase and share the decentralised and selfsufficient energy production and consumption in european regions. The project aims to support the establishment the platforms and networks for bioenergy production and consumption and implement efficient coordination systems and diseminate needed knowledge. / Regional clusters involving companies, R&D institutions and public authorities. / University of Vaasa
7 / Smart Hospitals: technology, sustainability and well-being of patients / operators / EE 5 – 2014/2015 / Hospitals are one of the main health structures that use a high quantity of energy for each of their function. The challenge is therefore to build “smart” hospitals that are sustainable both in term of economy and energy. A "smart hospital" does not yet exist. According to the definition of the EU, “smart” is everything whose technology is integrated in a strategic approach oriented to sustainability, social well-being and economic development. The project SMHOS aims at making more efficient the existing technologies by also adopting ICT (telecontrol systems, at-distance managing systems and building automation) as best practice to be deployed in the hospitals. New technologies make possible a different management of health facilities and a more conscious and direct participation of the operators/users. This project intends to promote the growth of new skills and new ideas to create a safer and healthier environment. / Cities – Region – Hospitals/clinics public or private as case study – ICT Company: to develop a comfort-based smart metering system – University interested in that topic / Veneto Region, Italy
8 / Regional an local energy strategies, innovative policies governance, smart solutions, business models, for efficiency of productive/ industrial buildings, logistical infrastructure in homogeneous cluster areas. Creating a market for deep renovation and refurbishment with integrated approach / EE 5 - 014/2015
EE 16 -2014/2015
EE 18 - 2014/2015
EE 19 - 2014/2015
LCE 4 - 2014/2015
SIE 1 - 2014/2015 / Regions, Cluster of municipalities, Consortium of enterprises, Area Cluster, Consultants, better if located in EU borders regions to develop better cooperation and interface in all different dimensions to solve technology and finance problems, to work together and identify solutions through different multilevel roles or for close the gaps between different jurisdictions and regulations. / Acta Network Design Friuli Venezia Giulia -Italy
9 / Sustainable Interdisciplinary Action towards Integrated Smart Energy Cities / EE-06-2015 / The project is targeting to develop and implement a new holistic sustainable energy concept in the city centre of Ålgård, closely integrating the elements of generation, conversion, storage and use of energy. The focus is on making use of locally available sustainable energy sources. It will be an interdisciplinary approach of technology, social science and politics involving all stakeholders throughout the entire project. Furthermore necessary methods and tool sets will be developed and continuously improved throughout the project by making use of lessons learned. Involving all stakeholders throughout the entire project will ensure not only installing technology but also making use of it, especially by the already established businesses and residents. Flexibility to cope with upcoming future changes and requirements is another key element of the project. / Other public bodies / areas etc. interested in a similar transition
Industrial partners interested in applying their technology to closely integrated energy systems
Research institutes or consultants with experience in end user participation. / GjesdalKommune Rogaland / Norway
10 / Spreading pelletized torrefied fuel for household heating appliances / LCE-14-2015 / The main goal of this project is to develop the investigation and the setup of innovative technological solutions for residential heating appliances (biomass boilers) in order to spread on the market emerging sustainable bioenergy. Various feedstock (agricultural wastes) from innovative biomass pre-treatment (torrefaction) will be considered. Tests will be carried out about combustion and emissions in order to evaluate the best efficiency and environmental aspects from a life¬cicle perspective. / Public bodies, Associations (agricultural or forestry) interested in making a reference to the collection of agricultural waste
Industrial partners interested in applying their technology in new combustion processes
. / Innovhub-SSI DivisioneCombustibili
Lombardy, Italy
11 / Wise Countryside Capacities / EE-07-2015 / The main objectives are: finding and sharing the best practices for monitoring and reducing carbon emissions and forming good climate governance partnerships by efficient stakeholder engagement, PR and education. The objectives will be achieved within the following work packages. WP1 Sharing and finding the best practices between partners and Europe. WP2 Forming of multi-actor energy teams. WP3 Creating tools for monitoring infrastructure and public building management activities. WP4 Strengthening the implementation of local/regional SEAPs. WP5 Public relations and educational events. Management and dissemination will have their own work packages. The contents and subdivision of tasks within work packages will be decided in co-operation with the partners. / Wide spectrum of advanced and less advanced communities is needed. Universities and Entrepreneur organisations, consultants etc. are desired. / Thermopolis Ltd.
South Ostrobothnia, Finland
12 / No title yet / EE-05-2015
EE-06-2015
EE-1 1-2015
EE- 21 -2015
EE-13-2014 / The idea of this project is to create a system as energetically autonomous as possible, which consists of 3 corporate buildings and a fleet of 200 electric vehicles which they will be connected. These three corporate buildings (for offices and storage) are owned by AUTORECAMBIOS Peñalver. / Industrial partners interested in applying their technology to closely integrated energy system
Large electricity companies
Public Bodies
SME / RegeneraLevante, S.L.
Murcia, Spain