Diego Pavía, CEO of EIT InnoEnergy
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
Andreas Sumper
Full Professor and Head of the Enertronics Group of CITCEA-UPC
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
Antón Martínez, Renewable Gases & Services Director of Enagás
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
Damien VALET – Responsible of TOTEM Plateform
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
R&D&I OVERVIEW AND INNOVATION TRENDS 2021 AND CHALLENGES FOR THE ENERGY TRANSITION
Germán López Lara, Head of the Energy and Environmental Sector at CTA
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
EIT InnoEnergy is an open innovation ecosystem for sustainable energy in Europe that aims to reduce the risks and time-to-market for energy innovations. It focuses on several key areas including circular innovations in bioeconomy, waste solutions, and power-to-X. Notable examples from its portfolio include Meva Energy, which provides gasification technology to utilize biomass fuels, and C-Green, which offers hydrothermal carbonization technology for sustainable sludge management. The document discusses the opportunities in linking circularity and energy and provides an overview of EIT InnoEnergy's activities, portfolio, and its annual Business Booster networking event.
Energy storage has been in use in our society and daily life for decades. Although energy storage has not grown to be a significant part of the electric energy system, recent advancement of energy storage technologies and growing needs for energy storage in both power and transportation sectors make it possible and imperative to accelerate energy storage development, deployment, and adoption. Power systems have to balance electricity generation and consumption in real-time, gasoline and diesel fuel are still the primary sources of energy for transportation, and we generally do not have good ways to conveniently and cost-effectively store a large amount of electrical energy and use it in an on-demand manner. While we need to continue decarbonizing electric power generation through increases in renewable generation, we also need to address transportation as the main source of carbon emissions. Energy storage is an important solution to address both electrification of transportation and other industries and the variability in renewable energy such as wind and solar generation.
Bulk of the existing grid energy storage capacity is provided by pumped hydro energy storage plants that were built to support large baseload power plants such as nuclear generating stations. Battery energy systems are beginning to be deployed at a rapid pace. The requirements of energy storage in the electric grid are still evolving and may differ from those of electrical transportation. Needs for research and development to enhance energy storage performance and knowledge is summarized in the following areas:
1) Energy storage engineering and integration: Effective system integration is a challenging problem for energy storage due to the great diversity of potential applications ranging from behind-the-meter storage to large grid-connected energy storage plants. Each of these applications has its own set of constraints and performance requirements. Over the next decade, the diversity of energy storage installations will expand in the range of applications, in size and scale, and in system complexity. Effective integration is also important to achieve desired cost reduction needed to support large scale deployment. Research gaps in this area include: energy storage installations with higher power capacities and higher working voltages; streamlining engineering to hybridize and co-optimize energy storage with the rest of the system; more effective controls, sensors, and energy management systems; designing modular power converter architecture to minimize system complexity, improve reliability, and reduce integration costs; and industry standards for secure communication and interoperability.
Fernando Temprano, Director of Technology of Repsol.
Autumn Seminar 2015 - Climate change: Implications for technological developments and industrial competitiveness.
Jornada organizada por FUNSEAM y la Cátedra de Energía de Orkestra-Instituto Vasco de Competitividad con la colaboración de Fundación Repsol.
4 de Noviembre de 2015. CAMPUS REPSOL. Madrid, España
Global Power Grid Interconnection for Sustainable Growth: Concept, Project an...Power System Operation
Environment friendly and low carbon RE has a great development and research potential for GEI. Acceleration in development of clean energy is required in future to improve the proportion in world's energy generation. Low-cost conversion and plug in play type high-efficiency generation are required to develop in energy bases, especially on North Pole and Equator regions. Clean energy topic is generally divided into generation bases, grid integration and large-scale energy storage system. Hydropower is the key source of clean energy against power grid fluctuations due to intermittent sources. It has capabilities such as fast response on dispatch command, easy to start/shutdown, large capacity and high efficiency as well as flexible on load adjustment. However, large hydro sources can be improved further for eco-friendly point of
view.
Andreas Sumper
Full Professor and Head of the Enertronics Group of CITCEA-UPC
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
Antón Martínez, Renewable Gases & Services Director of Enagás
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
Damien VALET – Responsible of TOTEM Plateform
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
R&D&I OVERVIEW AND INNOVATION TRENDS 2021 AND CHALLENGES FOR THE ENERGY TRANSITION
Germán López Lara, Head of the Energy and Environmental Sector at CTA
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
EIT InnoEnergy is an open innovation ecosystem for sustainable energy in Europe that aims to reduce the risks and time-to-market for energy innovations. It focuses on several key areas including circular innovations in bioeconomy, waste solutions, and power-to-X. Notable examples from its portfolio include Meva Energy, which provides gasification technology to utilize biomass fuels, and C-Green, which offers hydrothermal carbonization technology for sustainable sludge management. The document discusses the opportunities in linking circularity and energy and provides an overview of EIT InnoEnergy's activities, portfolio, and its annual Business Booster networking event.
Energy storage has been in use in our society and daily life for decades. Although energy storage has not grown to be a significant part of the electric energy system, recent advancement of energy storage technologies and growing needs for energy storage in both power and transportation sectors make it possible and imperative to accelerate energy storage development, deployment, and adoption. Power systems have to balance electricity generation and consumption in real-time, gasoline and diesel fuel are still the primary sources of energy for transportation, and we generally do not have good ways to conveniently and cost-effectively store a large amount of electrical energy and use it in an on-demand manner. While we need to continue decarbonizing electric power generation through increases in renewable generation, we also need to address transportation as the main source of carbon emissions. Energy storage is an important solution to address both electrification of transportation and other industries and the variability in renewable energy such as wind and solar generation.
Bulk of the existing grid energy storage capacity is provided by pumped hydro energy storage plants that were built to support large baseload power plants such as nuclear generating stations. Battery energy systems are beginning to be deployed at a rapid pace. The requirements of energy storage in the electric grid are still evolving and may differ from those of electrical transportation. Needs for research and development to enhance energy storage performance and knowledge is summarized in the following areas:
1) Energy storage engineering and integration: Effective system integration is a challenging problem for energy storage due to the great diversity of potential applications ranging from behind-the-meter storage to large grid-connected energy storage plants. Each of these applications has its own set of constraints and performance requirements. Over the next decade, the diversity of energy storage installations will expand in the range of applications, in size and scale, and in system complexity. Effective integration is also important to achieve desired cost reduction needed to support large scale deployment. Research gaps in this area include: energy storage installations with higher power capacities and higher working voltages; streamlining engineering to hybridize and co-optimize energy storage with the rest of the system; more effective controls, sensors, and energy management systems; designing modular power converter architecture to minimize system complexity, improve reliability, and reduce integration costs; and industry standards for secure communication and interoperability.
Fernando Temprano, Director of Technology of Repsol.
Autumn Seminar 2015 - Climate change: Implications for technological developments and industrial competitiveness.
Jornada organizada por FUNSEAM y la Cátedra de Energía de Orkestra-Instituto Vasco de Competitividad con la colaboración de Fundación Repsol.
4 de Noviembre de 2015. CAMPUS REPSOL. Madrid, España
Global Power Grid Interconnection for Sustainable Growth: Concept, Project an...Power System Operation
Environment friendly and low carbon RE has a great development and research potential for GEI. Acceleration in development of clean energy is required in future to improve the proportion in world's energy generation. Low-cost conversion and plug in play type high-efficiency generation are required to develop in energy bases, especially on North Pole and Equator regions. Clean energy topic is generally divided into generation bases, grid integration and large-scale energy storage system. Hydropower is the key source of clean energy against power grid fluctuations due to intermittent sources. It has capabilities such as fast response on dispatch command, easy to start/shutdown, large capacity and high efficiency as well as flexible on load adjustment. However, large hydro sources can be improved further for eco-friendly point of
view.
Il ruolo cruciale del "fattore umano" nella transizione energeticaCSI Piemonte
Intervento di Patrizia Lombardi, DIST - Politecnico di Torino, al lunch seminar ICT per... "- Consumi + Energia" (Torino, Castello del Valentino, 30 novembre 2015).
Energy efficiency: a profit center for companies! Leonardo ENERGY
Investments in energy efficiency not only result in a reduction of energy consumption —the ener-gy benefit— but they also entail non-energy benefits such as improved product quality, reduced production time or improved comfort in sales area. Non-energy benefits significantly improve the business case of energy-efficiency investments in the business sector by raising their strategic character.
Within this context, the aim of this webinar is to discuss a methodology to describe and analyze the industrial non-energy benefits of energy efficiency. Linking energy, operational, strategic and fi-nancial aspects, this new conceptual framework enables to move away from the common view of energy as a commodity (where the only goal is to save kilowatt-hours) to adopt a new perspective on energy and energy services as strategic value for businesses.
This methodology will be further developed and documented by Task 26 Multiple Benefits of Ener-gy Efficiency, a project of IEA Demand Side Management Energy Efficiency Technology Collabora-tion Program, in close collaboration with practitioners, academic researchers and public program-mers. People or Institutions interested by Task 26 are most welcome to contact me.
Multiple benefits will also be discussed in-depth with a panel at this year’s IEPPEC June 7-9 Am-sterdam.
This document outlines the curriculum for a Master of Energy Engineering program. It includes details of 78 credits across 8 semesters. The courses cover topics in energy engineering fundamentals, thermodynamics, fluid mechanics, heat transfer, renewable energy systems, energy economics and environmental engineering. Elective courses allow students to specialize in various energy technologies. Laboratory courses complement the theoretical learning. The final two semesters involve a project work where students work on energy-related projects to solve engineering problems. The program aims to develop skills in analysis, design, multi-disciplinary teamwork and communication related to energy systems.
Éco-quartiers et réseaux de chaleur : une solution pour les villes de demain ...LIEGE CREATIVE
The document discusses eco-districts and district heating networks as a potential solution for future cities. It provides an overview of heat consumption and potential waste heat sources in Belgium. Developing district heating networks could connect buildings to renewable and waste heat sources, reducing emissions. However, upfront costs and changes to regulations and mindsets present challenges to growth. Optimization tools can help minimize costs and make networks more feasible. Stakeholder partnerships over the long term may help accelerate the transition to low-carbon energy systems through district-scale approaches.
The document discusses a pilot project in Eindhoven, Netherlands that aims to optimize the electric power system through local flexibility markets. The pilot will test integrating distributed energy resources like solar PV, electric vehicle charging, and energy storage to help manage local grid constraints. Key challenges include preventing congestion from high EV charging demand or solar production. The pilot will evaluate using a smart storage unit and demand response from EVs and other flexible loads through a local flexibility market platform. The document also discusses regulatory barriers around the roles of distribution system operators in local flexibility markets under European energy rules.
The Circular Economy and SMEs - Peter Czaga, Policy Officer, European Commiss...GreenEconomyCoalition
The document discusses the circular economy and how it relates to small and medium enterprises (SMEs). It provides an overview of the European Commission's upcoming communications that aim to establish a policy framework and modernize waste policy to transition to a circular economy. The circular economy aims to keep resources in products for longer and reduce waste. It also outlines the various actions needed to implement a circular economy, including eco-design, recycling, reuse, and industrial symbiosis. The document notes that a circular economy presents opportunities for SMEs through cost savings and new business opportunities in transitioning to more sustainable practices and green value chains. The European Commission plans various capacity building and financial support initiatives to help SMEs undertake resource efficiency improvements and participate
Piedmont Region towards Public Procurement for Innovation: the ongoing process - by Stefania Crotta - Head of Sustainable Energy Development Unit, Directorate for Innovation Research, University and Sustainable Energy Development Piedmont Region
Abengoa applies innovative technology solutions for sustainability in the energy and environment sectors, generating electricity from renewable resources, converting biomass into biofuels and producing drinking water from sea water.
Discover the activity that Abengoa developes around the world and join the energy of change.
Abengoa is an expert in the hybridization of power plants to provide dispatchable, clean energy solutions, and its capabilities to supply affordable and reliable decarbonization solutions for mines, industrial facilities and isolated grids.
The document provides an overview of sustainable resource management in the UAE, including:
1. Current waste generation and treatment methods, with opportunities for improved recycling.
2. The need for integrated waste management strategies and policies to transition to a circular economy model.
3. EY Belgium's expertise in sustainable resource management and working with governments on circular economy solutions globally.
Développement de la cogénération en europeCOGEN Europe
Presentation by COGEN Europe on the development of cogeneration and micro-cogeneration in Europe at Journée de la micro et mini-cogénération ATEE in Paris
1. The company offers a wide range of water pumps for applications such as water treatment plants, water distribution, sewage, and offshore markets. They also supply complete irrigation systems for sports fields.
2. Their focus is on providing full solutions, not just pumps or irrigation equipment.
3. Their top three advantages for Qatar are their knowledge, experience, and commitment to entrepreneurship.
The document discusses battery markets and technologies, with a focus on the EMIRI program. It provides an overview of the growing lithium-ion battery market, driven by applications in portables, automotive, and stationary energy storage. It outlines technology trends toward higher energy densities, lower costs, and improved safety. These include advanced cathode and anode materials, electrolyte modifications, and solid-state batteries. The EMIRI program addresses stationary storage, automotive, and lightweight electric vehicles.
This document discusses Li-ion battery recycling. It covers the legal framework for battery recycling in the EU, which includes extended producer responsibility and collection/recycling obligations. It then describes various battery recycling concepts and the challenges associated with each step of the recycling process from dismantling to pyrometallurgy and hydrometallurgy. Specific challenges include battery safety, achieving high metal recovery rates, and handling the variety of battery materials. The document concludes by outlining Umicore's innovative ultra-high temperature recycling technology which allows for safe and cost-efficient recycling of various battery types.
AIGUASOL is an international energy engineering cooperative that aims to create efficient and environmentally friendly energy systems. It offers services including engineering, R&D, consulting, software and training. Its solutions cover areas like energy in buildings, district networks, energy policy, rehabilitation, management systems, net zero buildings, and reducing industry's energy intensity. AIGUASOL has extensive experience with projects in these domains across Europe, Asia, Africa, and the Americas. It utilizes simulation tools, custom software and the latest R&D to propose optimized energy solutions for its customers.
This document summarizes a presentation given by Leen Govaerts on sustainable building at a seminar in Dubai. It discusses VITO's work in areas like sustainable energy, materials reuse, and quality of life. Specifically, it provides details on Belgium's existing building stock, including that half were built before 1960, 80% before 1990, and the average residential energy consumption is 35% above the European average. It also outlines strategies for GHG mitigation, optimal renewable energy integration, sustainable materials use, and smart sustainable city projects. Contact information is provided for Leen Govaerts and Walter Buydens.
Coloured Building Integrated Photovoltaics - Market, Research and DevelopmentLeonardo ENERGY
Recording at https://youtu.be/pmOxbaz7j_c
1) Introduction: overview of realized projects and trends in innovations and product developments of coloured Building Integrated Photovoltaics
2) Technological Part: state-of-the-art colour implementation technologies; Colouring of polymeric encapsulants, front or back covers; coatings and printings on solar cells, films and cover glass
3) Experimental Part: colour efficiency in experimental measurements; relationship between colour and efficiency / power generation
4) Outlook: latest development trends, ongoing activities of IEA PVPS Task15
New battery Regulation Opportunities and Criticalities by COBATOlgaRodrguezLargo
Presentation by COBAT about the new battery regulation opportunities and criticalities in the Final CarE-Service Exploitation webinar held on 25th November 2021
This document discusses opportunities for small and medium enterprises (SMEs) in Horizon 2020, the EU's research and innovation program from 2014-2020. It defines SMEs and provides an overview of the main funding instruments for SMEs, including the SME Instrument, which provides funding for innovation projects led by SMEs. The SME Instrument has three phases and offers coaching support. It is open to SMEs across all Horizon 2020 challenge areas and industrial leadership topics. The document provides statistics on application rates and funding amounts for the first cut-off dates of the SME Instrument.
Christiana Siambekou - National Documentation Centre (EKT)WWW.ERFC.GR
This document summarizes information about funding opportunities under the Horizon 2020 program's "Secure, Clean and Efficient Energy" work programme. It outlines the four main funding areas: energy efficiency, smart cities and communities, competitive low-carbon energy, and support for SMEs. Call deadlines and budgets for 2014-2015 are provided for each area. National contact points that can provide guidance on Horizon 2020 applications are also mentioned.
Il ruolo cruciale del "fattore umano" nella transizione energeticaCSI Piemonte
Intervento di Patrizia Lombardi, DIST - Politecnico di Torino, al lunch seminar ICT per... "- Consumi + Energia" (Torino, Castello del Valentino, 30 novembre 2015).
Energy efficiency: a profit center for companies! Leonardo ENERGY
Investments in energy efficiency not only result in a reduction of energy consumption —the ener-gy benefit— but they also entail non-energy benefits such as improved product quality, reduced production time or improved comfort in sales area. Non-energy benefits significantly improve the business case of energy-efficiency investments in the business sector by raising their strategic character.
Within this context, the aim of this webinar is to discuss a methodology to describe and analyze the industrial non-energy benefits of energy efficiency. Linking energy, operational, strategic and fi-nancial aspects, this new conceptual framework enables to move away from the common view of energy as a commodity (where the only goal is to save kilowatt-hours) to adopt a new perspective on energy and energy services as strategic value for businesses.
This methodology will be further developed and documented by Task 26 Multiple Benefits of Ener-gy Efficiency, a project of IEA Demand Side Management Energy Efficiency Technology Collabora-tion Program, in close collaboration with practitioners, academic researchers and public program-mers. People or Institutions interested by Task 26 are most welcome to contact me.
Multiple benefits will also be discussed in-depth with a panel at this year’s IEPPEC June 7-9 Am-sterdam.
This document outlines the curriculum for a Master of Energy Engineering program. It includes details of 78 credits across 8 semesters. The courses cover topics in energy engineering fundamentals, thermodynamics, fluid mechanics, heat transfer, renewable energy systems, energy economics and environmental engineering. Elective courses allow students to specialize in various energy technologies. Laboratory courses complement the theoretical learning. The final two semesters involve a project work where students work on energy-related projects to solve engineering problems. The program aims to develop skills in analysis, design, multi-disciplinary teamwork and communication related to energy systems.
Éco-quartiers et réseaux de chaleur : une solution pour les villes de demain ...LIEGE CREATIVE
The document discusses eco-districts and district heating networks as a potential solution for future cities. It provides an overview of heat consumption and potential waste heat sources in Belgium. Developing district heating networks could connect buildings to renewable and waste heat sources, reducing emissions. However, upfront costs and changes to regulations and mindsets present challenges to growth. Optimization tools can help minimize costs and make networks more feasible. Stakeholder partnerships over the long term may help accelerate the transition to low-carbon energy systems through district-scale approaches.
The document discusses a pilot project in Eindhoven, Netherlands that aims to optimize the electric power system through local flexibility markets. The pilot will test integrating distributed energy resources like solar PV, electric vehicle charging, and energy storage to help manage local grid constraints. Key challenges include preventing congestion from high EV charging demand or solar production. The pilot will evaluate using a smart storage unit and demand response from EVs and other flexible loads through a local flexibility market platform. The document also discusses regulatory barriers around the roles of distribution system operators in local flexibility markets under European energy rules.
The Circular Economy and SMEs - Peter Czaga, Policy Officer, European Commiss...GreenEconomyCoalition
The document discusses the circular economy and how it relates to small and medium enterprises (SMEs). It provides an overview of the European Commission's upcoming communications that aim to establish a policy framework and modernize waste policy to transition to a circular economy. The circular economy aims to keep resources in products for longer and reduce waste. It also outlines the various actions needed to implement a circular economy, including eco-design, recycling, reuse, and industrial symbiosis. The document notes that a circular economy presents opportunities for SMEs through cost savings and new business opportunities in transitioning to more sustainable practices and green value chains. The European Commission plans various capacity building and financial support initiatives to help SMEs undertake resource efficiency improvements and participate
Piedmont Region towards Public Procurement for Innovation: the ongoing process - by Stefania Crotta - Head of Sustainable Energy Development Unit, Directorate for Innovation Research, University and Sustainable Energy Development Piedmont Region
Abengoa applies innovative technology solutions for sustainability in the energy and environment sectors, generating electricity from renewable resources, converting biomass into biofuels and producing drinking water from sea water.
Discover the activity that Abengoa developes around the world and join the energy of change.
Abengoa is an expert in the hybridization of power plants to provide dispatchable, clean energy solutions, and its capabilities to supply affordable and reliable decarbonization solutions for mines, industrial facilities and isolated grids.
The document provides an overview of sustainable resource management in the UAE, including:
1. Current waste generation and treatment methods, with opportunities for improved recycling.
2. The need for integrated waste management strategies and policies to transition to a circular economy model.
3. EY Belgium's expertise in sustainable resource management and working with governments on circular economy solutions globally.
Développement de la cogénération en europeCOGEN Europe
Presentation by COGEN Europe on the development of cogeneration and micro-cogeneration in Europe at Journée de la micro et mini-cogénération ATEE in Paris
1. The company offers a wide range of water pumps for applications such as water treatment plants, water distribution, sewage, and offshore markets. They also supply complete irrigation systems for sports fields.
2. Their focus is on providing full solutions, not just pumps or irrigation equipment.
3. Their top three advantages for Qatar are their knowledge, experience, and commitment to entrepreneurship.
The document discusses battery markets and technologies, with a focus on the EMIRI program. It provides an overview of the growing lithium-ion battery market, driven by applications in portables, automotive, and stationary energy storage. It outlines technology trends toward higher energy densities, lower costs, and improved safety. These include advanced cathode and anode materials, electrolyte modifications, and solid-state batteries. The EMIRI program addresses stationary storage, automotive, and lightweight electric vehicles.
This document discusses Li-ion battery recycling. It covers the legal framework for battery recycling in the EU, which includes extended producer responsibility and collection/recycling obligations. It then describes various battery recycling concepts and the challenges associated with each step of the recycling process from dismantling to pyrometallurgy and hydrometallurgy. Specific challenges include battery safety, achieving high metal recovery rates, and handling the variety of battery materials. The document concludes by outlining Umicore's innovative ultra-high temperature recycling technology which allows for safe and cost-efficient recycling of various battery types.
AIGUASOL is an international energy engineering cooperative that aims to create efficient and environmentally friendly energy systems. It offers services including engineering, R&D, consulting, software and training. Its solutions cover areas like energy in buildings, district networks, energy policy, rehabilitation, management systems, net zero buildings, and reducing industry's energy intensity. AIGUASOL has extensive experience with projects in these domains across Europe, Asia, Africa, and the Americas. It utilizes simulation tools, custom software and the latest R&D to propose optimized energy solutions for its customers.
This document summarizes a presentation given by Leen Govaerts on sustainable building at a seminar in Dubai. It discusses VITO's work in areas like sustainable energy, materials reuse, and quality of life. Specifically, it provides details on Belgium's existing building stock, including that half were built before 1960, 80% before 1990, and the average residential energy consumption is 35% above the European average. It also outlines strategies for GHG mitigation, optimal renewable energy integration, sustainable materials use, and smart sustainable city projects. Contact information is provided for Leen Govaerts and Walter Buydens.
Coloured Building Integrated Photovoltaics - Market, Research and DevelopmentLeonardo ENERGY
Recording at https://youtu.be/pmOxbaz7j_c
1) Introduction: overview of realized projects and trends in innovations and product developments of coloured Building Integrated Photovoltaics
2) Technological Part: state-of-the-art colour implementation technologies; Colouring of polymeric encapsulants, front or back covers; coatings and printings on solar cells, films and cover glass
3) Experimental Part: colour efficiency in experimental measurements; relationship between colour and efficiency / power generation
4) Outlook: latest development trends, ongoing activities of IEA PVPS Task15
New battery Regulation Opportunities and Criticalities by COBATOlgaRodrguezLargo
Presentation by COBAT about the new battery regulation opportunities and criticalities in the Final CarE-Service Exploitation webinar held on 25th November 2021
This document discusses opportunities for small and medium enterprises (SMEs) in Horizon 2020, the EU's research and innovation program from 2014-2020. It defines SMEs and provides an overview of the main funding instruments for SMEs, including the SME Instrument, which provides funding for innovation projects led by SMEs. The SME Instrument has three phases and offers coaching support. It is open to SMEs across all Horizon 2020 challenge areas and industrial leadership topics. The document provides statistics on application rates and funding amounts for the first cut-off dates of the SME Instrument.
Christiana Siambekou - National Documentation Centre (EKT)WWW.ERFC.GR
This document summarizes information about funding opportunities under the Horizon 2020 program's "Secure, Clean and Efficient Energy" work programme. It outlines the four main funding areas: energy efficiency, smart cities and communities, competitive low-carbon energy, and support for SMEs. Call deadlines and budgets for 2014-2015 are provided for each area. National contact points that can provide guidance on Horizon 2020 applications are also mentioned.
The document summarizes funding opportunities under the Horizon 2020 program for secure, clean and efficient energy. It outlines the priorities and budget of Horizon 2020, including excellence in science, industrial leadership, and societal challenges like energy. For energy, the work program focuses on energy efficiency, smart cities and communities, competitive low-carbon energy, and support for SMEs. Key deadlines for energy-related calls in 2014-2015 are provided. The National Contact Point helps researchers and businesses in Greece access Horizon 2020 funding and support.
Renewable Energy Club Annual Assembly - What do Estore and Flowbox (Storage t...Cluster TWEED
Assemblée annuelle du Renewable Energy Club :
- Conférencier d'honneur : Monsieur Klaas Schuring, PDG de KIC InnoEnergy Benelux (financement de projets d'innovation collaboratifs européens, accompagnements de start-ups, formation,...)
-Représentants des projets : ESTORE (electrical energy storage device for cold stores) et FLOWBOX (AREVA & Schneider Electric‘s new energy storage solution)
This document discusses the Horizon 2020 calls for 2015 related to secure, clean and efficient energy (RS3). It outlines the budget allocation and structure for the energy challenge, including key topics within energy efficiency, low carbon technologies, and smart cities and communities. Specific topics are detailed within energy efficiency, such as building renovation, demand response, energy efficiency in industry, and financing for sustainable energy projects. [END SUMMARY]
KIC InnoEnergy and IRESEN joint call is open: consult the "GUIDELINES - INNOV...Maghrenov
KIC InnoEnergy and IRESEN joint call is open.
In the framework of the MAGHRENOV project, KIC InnoEnergy (EU) and IRESEN (Morocco) launched a first joint call for Euro-Moroccan innovative ideas and business concepts in the area of Renewable Energy & Energy Efficiency.
The objective of the MAGHRENOV call is to provide support to R&D in applied sciences in the field of renewable energy in order to foster innovation and to favour convergence between EU and MPCs initiatives for the development of sustainable energies adapted to regional specificities.
The document provides information on the EU's Horizon 2020 program for clean, secure and efficient energy for the 2016-2017 work program. It discusses the political context, budget details, focus areas of energy efficiency, low carbon technologies, and smart cities and communities. Cross-cutting activities and opportunities for SMEs are also outlined. Participation data from the April 2015 call showed 264 proposals submitted, with 16 receiving funding. Common weaknesses identified in proposals included limited innovation value, lack of market analysis, undefined user needs, and unsupported economic impact claims.
The SME Innovation Instrument, Horizon2020 and Talent Europe. A discussion by...Alberto Minin
I provide a quick introduction to the Meridian Fellowship on Social Innovation and to my project, Talent Europe,
I will then present some of the latest numbers regarding the implementation of the SME Innovation instrument, one of the most innovative parts of the 8th presentation Framework program called Horizon 2020
I will briefly share with you three concepts that I think might be interesting to explore as a basis of a useful comparison between Europe and US science and technology Policy.
What I am seeking to do as a Meridian Fellow is to expand my expertise on science and technology policy and to contribute to the debate around this topic that is developing in Europe. I think that there are better ways to engage and to empower EU talent, and to make it become key player of EU Economic Recovery and competitiveness
The US had been a continuous source of inspiration for the EU debate on science and technology, and more in general on innovation policy.
Later on I will discuss about the SME innovation instrument that had been inspired in part by the SBIR program here in the US.
Not only policy makers and scholars have been guiding this exchange of ideas and experiences, but also US Embassies in Europe have been very important in sharing with Europe some news. I am very familiar with the case of the US Embassies in Italy. The past three Ambassadors have been evangelists of messages and priorities. Ronald Spogli emphasized the role of high tech entrepreneurs in society, David Thorne has focused on the role the digital economy can have a driver of growth, more recently the sitting ambassador, John Phillips is very vocal about the benefits that Italy could derive by a more efficient judiciary system
My experience as scholar, and teacher is telling me that the debate on innovation in Europe is desperately in need of some fresh air and new ideas.
I believe that there are four areas where we can look.
The first one has to do with new original ways to communicate the relevance of sicence and technology for society.
The second has to do with the way we mentor and assist scientists and engineers that seek to become entrepreneurs. What is the role of universities, government and private sector to achieve this task.
Third area is corporate entrepreneurship, industrial venturing and the attitude EU large corporations have towards change.
Finally demands side innovation policy: public procurement and the setting of challenges and ambitious goals, where sometimes the role of the government should not be to provide the means to achieve these goals, but to promise to act as first buyer for the best solutions for a specific challenge.
Jornada informativa organizada el 28 de noviembre de 2017 sobre convocatorias NMBP de Horizonte 2020. El evento, celebrado en lel Instituto de Ciencias de los Materiales de Sevilla (ICMS), fue organizado por la Agencia Andaluza del Conocimiento en colaboración con CDTI, Red OTRI Andalucía, Airbus, FADA-CATEC e ICMS.
EPA Horizon 2020 Societal Challenge 5: Climate Action, Environment, Resource Efficiency and Raw Materials Roadshow presentation by Alice Wemaere (EPA) and Mark Sweeney (Enterprise Ireland) in DCU, Dublin
EPA Horizon 2020 Societal Challenge 5: Climate Action, Environment, Resource Efficiency and Raw Materials Roadshow presentation by Alice Wemaere (EPA) and Mark Sweeney (Enterprise Ireland) in UCD Dublin
The document provides an overview of Horizon 2020 funding opportunities related to climate action, environment, resource efficiency and raw materials. It discusses the objectives and budget for Societal Challenge 5, as well as several funding priority areas for 2016-2017 including industry and the circular economy, blue growth, climate services, a low-carbon Europe, nature-based solutions for cities, water, and raw materials. Relevant initiatives and programs are also mentioned.
The document discusses the digitization of the energy sector and the concept of a smart grid. It notes that digitization is enabling new business models across many industries like music, film, transportation and more. The smart grid integrates digital technologies and communications at various levels to modernize the electricity system. The EMPOWER project aims to develop a new local energy market and test new business models through increased renewable energy production and storage at the local level. The project has a budget of €6.1 million from the European Union's Horizon 2020 program.
EPA Horizon 2020 Societal Challenge 5: Climate Action, Environment, Resource Efficiency and Raw Materials Roadshow presentation by Alice Wemaere (EPA) and Mark Sweeney (Enterprise Ireland) in NUIG, Galway
EPA Horizon 2020 Societal Challenge 5: Climate Action, Environment, Resource Efficiency and Raw Materials Roadshow presentation by Alice Wemaere (EPA) and Mark Sweeney (Enterprise Ireland) in UCC Cork
The New EU Framework Programme for Research and Innovationmathgear
Horizon 2020 is the new EU framework programme for research and innovation from 2014 to 2020 with a budget of nearly €80 billion. It aims to stimulate economic growth and jobs by supporting research and innovation. The three priorities are excellent science, industrial leadership, and addressing societal challenges. It provides simplified single set of rules and funding rates to make participating easier for organizations. The first calls saw over 36,000 proposals requesting €80 billion in funds, with around 14% success rate.
Laura Di Giulio: digiulio@apre.it
For any information on the SME Instrument and Horizon 2020 opportunities for SMEs, please contact the SME team in APRE. We provide assistance on proposal preparation, partner search and guidance on all aspects of participation in the programme.
Thank you and good luck with your Horizon 2020 proposals!
Similar to Innovation and entrepreneurship in sustainable energy in Europe_Diego Pavía (20)
Georgina Cepas, jefa de Medio Ambiente de Mercabarna.
III Ciclo Economía Circular. Sesión "Ciudades Circulares" organizado por Funseam y Fundación Repsol
http://www.funseam.com
Félix Gómez, responsable de Tecnología e Innovación (área Ventures) de Exolum
III Ciclo Economía Circular "Ciudades Circulares". Organizado por Funseam y Fundación Repsol.
http://www.funseam.com
- El proyecto Ecoáridos tiene como objetivo diseñar, implementar y validar una producción comercial de ecoáridos de huella negativa utilizando la tecnología de mineralización de O.C.O. Technology y capturando CO2 de una refinería de Petronor.
- El proyecto recibirá 3,2 millones de euros de financiación de la Comisión Europea e implicará el tratamiento de 22.000 toneladas anuales de residuos y 2.200 toneladas de CO2, produciendo un total de 56.000 toneladas
Vicente Bernal, Senior Scientist de Repsol Technology Lab.
Aunque ya existen tecnologías para valorizar los residuos agroganaderos, como la digestión anaerobia y la fermentación, hay otras alternativas. Repsol trabaja con algunos proyectos a largo plazo, como UPGRESProject, TrovantTech y Zeppelin.
III #CicloEconomíaCircular. Sep-22
Irene Rodríguez Álvarez, responsable de Sostenibilidad de Vestas Mediterranean, explica la estrategía que está llevando Vestas, en el área de la economía circular, en el marco del III Ciclo de Economía Circular, organizado por Funseam y Fundación Repsol. Sep 2022.
Enrique Aymerich, investigador y director de la división Agua & Salud de Ceit, explica el proyecto CircRural4.0 en el marco del III Ciclo de Economía Circular, organizado por Funseam y Fundación Repsol. Sep 2022.
Este documento discute la importancia de infraestructuras resilientes para hacer frente a eventos extremos como huracanes e inundaciones. Explica que la resiliencia implica resistencia, funcionalidad, durabilidad y redundancia. También cubre estrategias como la adaptación única versus la adaptación incremental, y el uso de pruebas de estrés y análisis de vulnerabilidad para dotar de mayor resiliencia a las infraestructuras existentes.
La primera de las mesas redondas del día 10 de mayo se centrará en las finanzas sostenibles y su contribución para cumplir con los ambiciosos objetivos climáticos y apoyar una recuperación sostenible.
Europa necesitará aproximadamente 350.000 millones de euros en inversiones adicionales al año durante esta década para cumplir su objetivo de reducción de emisiones para 2030, solo en sistemas energéticos. Un volumen de inversiones sin precedentes cuya movilización exigirá involucrar a los mercados financieros para lograr las metas sociales y ambientales de la Agenda 2030.
PROGRAMA
09:35 h MESA REDONDA: MESA REDONDA: FINANZAS SOSTENIBLES
-Dña. Soledad Núñez, consejera del Banco de España
-D. Emilio Ontiveros, presidente AFI
-Dña. Sandra Lagumina, Socia y CEO Adjunta de Meridiam
Moderador: Oscar Barrero, PWC
La primera de las mesas redondas del día 10 de mayo se centrará en las finanzas sostenibles y su contribución para cumplir con los ambiciosos objetivos climáticos y apoyar una recuperación sostenible.
Europa necesitará aproximadamente 350.000 millones de euros en inversiones adicionales al año durante esta década para cumplir su objetivo de reducción de emisiones para 2030, solo en sistemas energéticos. Un volumen de inversiones sin precedentes cuya movilización exigirá involucrar a los mercados financieros para lograr las metas sociales y ambientales de la Agenda 2030.
PROGRAMA
09:35 h MESA REDONDA: MESA REDONDA: FINANZAS SOSTENIBLES
-Dña. Soledad Núñez, consejera del Banco de España
-D. Emilio Ontiveros, presidente AFI
-Dña. Sandra Lagumina, Socia y CEO Adjunta de Meridiam
Moderador: Oscar Barrero, PWC
Más info en www.funseam.com
This workshop will focus on how this new tool supports innovation in the energy transition and on analysing the innovative experimentation tools available and their application in Europe. A round table with regulatory authorities, companies, and research centres will provide leads on the relevance of Energy Regulatory Sandboxes to facilitate the market launch of innovations helpful to move towards a decarbonized economy. This Workshop runs as part of the European cooperation TR@NSNET project.
This workshop will focus on how this new tool supports innovation in the energy transition and on analysing the innovative experimentation tools available and their application in Europe. A round table with regulatory authorities, companies, and research centres will provide leads on the relevance of Energy Regulatory Sandboxes to facilitate the market launch of innovations helpful to move towards a decarbonized economy. This Workshop runs as part of the European cooperation TR@NSNET project.
This workshop will focus on how this new tool supports innovation in the energy transition and on analysing the innovative experimentation tools available and their application in Europe. A round table with regulatory authorities, companies, and research centres will provide leads on the relevance of Energy Regulatory Sandboxes to facilitate the market launch of innovations helpful to move towards a decarbonized economy. This Workshop runs as part of the European cooperation TR@NSNET project.
This workshop will focus on how this new tool supports innovation in the energy transition and on analysing the innovative experimentation tools available and their application in Europe. A round table with regulatory authorities, companies, and research centres will provide leads on the relevance of Energy Regulatory Sandboxes to facilitate the market launch of innovations helpful to move towards a decarbonized economy. This Workshop runs as part of the European cooperation TR@NSNET project.
This workshop will focus on how this new tool supports innovation in the energy transition and on analysing the innovative experimentation tools available and their application in Europe. A round table with regulatory authorities, companies, and research centres will provide leads on the relevance of Energy Regulatory Sandboxes to facilitate the market launch of innovations helpful to move towards a decarbonized economy. This Workshop runs as part of the European cooperation TR@NSNET project.
Regulatory sandboxes are needed to facilitate innovation in the highly regulated energy sector during its transition to decarbonization. Sandboxes should temporarily eliminate disincentives to cross-sector collaboration, shared risk taking on innovative projects, and regulatory gaps for new technologies. Lessons learned from pilot projects in sandboxes must then inform long-term regulation to continuously foster innovation required for full decarbonization.
El Prof. Mariano Marzo, director de la Cátedra de Transición Energética de la UB-Fundación Repsol, desgrana las principales conclusiones del informe del World Energy Outlook (WEO) de la Agencia Internacional de la Energía (AIE), en un seminario online.
Programa:
10:00 h INAUGURACIÓN
Joan Batalla, director general de Funseam
10:05 h CONFERENCIA: WORLD ENERGY OUTLOOK 2021: ANÁLISIS Y CONCLUSIONES
Mariano Marzo, director de la Cátedra de Transición Energética de la Universitat de Barcelona- Fundación Repsol
11:05 h DEBATE
11:25h CLAUSURA
María Teresa Costa, directora de la Cátedra de Sostenibilidad Energética -Universitat de Barcelona
11:30 h FIN DEL EVENTO
EDP – Yolanda Fernandez Montes, Director of Environment, Sustainability, Innovation and Quality
Workshp: Innovation and regulation in the framework of the energy transition -Funseam/ Tr@nsnet-
https://funseam.com/innovation-and-regulation-in-the-framework-of-the-energy-transition/
II Ciclo de Conferencias de Economóa Circular organizado por Funseam y la Fundación Repsol.
Presentación en la sesión "Experiencias internacionales en el ámbito de la gestión de residuos"
28/10/ 2021
II Ciclo de Conferencias de Economóa Circular organizado por Funseam y la Fundación Repsol.
Presentación en la sesión "Experiencias internacionales en el ámbito de la gestión de residuos"
28/10/ 2021
Presentación de Silvia Greses, investigadora en la Fundación IMDEA Energía, en la sesión " Soluciones tecnológicas en el ámbito de los residuos".
II Ciclo de Economía Circular: Gestión de los Residuos, organizado por Funseam y la Fundación Repsol.
More from Funseam - Fundación para la Sostenibilidad Energética y Ambiental (20)
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Improving the viability of probiotics by encapsulation methods for developmen...Open Access Research Paper
The popularity of functional foods among scientists and common people has been increasing day by day. Awareness and modernization make the consumer think better regarding food and nutrition. Now a day’s individual knows very well about the relation between food consumption and disease prevalence. Humans have a diversity of microbes in the gut that together form the gut microflora. Probiotics are the health-promoting live microbial cells improve host health through gut and brain connection and fighting against harmful bacteria. Bifidobacterium and Lactobacillus are the two bacterial genera which are considered to be probiotic. These good bacteria are facing challenges of viability. There are so many factors such as sensitivity to heat, pH, acidity, osmotic effect, mechanical shear, chemical components, freezing and storage time as well which affects the viability of probiotics in the dairy food matrix as well as in the gut. Multiple efforts have been done in the past and ongoing in present for these beneficial microbial population stability until their destination in the gut. One of a useful technique known as microencapsulation makes the probiotic effective in the diversified conditions and maintain these microbe’s community to the optimum level for achieving targeted benefits. Dairy products are found to be an ideal vehicle for probiotic incorporation. It has been seen that the encapsulated microbial cells show higher viability than the free cells in different processing and storage conditions as well as against bile salts in the gut. They make the food functional when incorporated, without affecting the product sensory characteristics.
Optimizing Post Remediation Groundwater Performance with Enhanced Microbiolog...Joshua Orris
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system.
Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs.
In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier.
The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.
Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-D...Joshua Orris
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.
Innovation and entrepreneurship in sustainable energy in Europe_Diego Pavía
1. EIT InnoEnergy is supported by the EIT,
a body of the European Union
Cover
image:
Joan
Sullivan,
TBB
Photo
Contest
2018
Innovation and entrepreneurship in sustainable energy in Europe
Track record/Credentials. Lessons learnt after 10 years. How to improve
16 Nov 2021
2. 1
Agenda
1. InnoEnergy credentials [6 slides – 6 mn]
2. (System) Lessons learnt [4 slides – 4 mn]
3. The new landscape. Improving the system: from “As Is” to “To Be” [2 slides - 6 mn]
Q&A
3. 2
InnoEnergy credentials (1/6)
The one liner ...
InnoEnergy credentials
We have scrutinized 5000+ innovative cases in sustainable energy,
invested and supported 450+
and produced 300+ innovative products, that are selling
InnoEnergy UVP: to make the cases happen earlier, bigger and de-risked, by
leveraging the trusted ecosystem created since 2010
4. 3
Anchored in the EU institutions Partnership as Dec 2020
In the field in 21 countries A micro European Energy System
Partners across all the Value Chain
Partners across all the Supply Chain
All energy carriers
Challengers and incumbents
21 country regulations
210 Million end- customers
H2020
(SET Plan)
Smart Specialization EFSI
Re-industrialization
of Europe
Value Chain
Supply Chain
Technology
Regulation
Human Capital
Societal
Appropiation
RTD, Ener, JRC, Grow, EAC Regio, Near EIB, RTD, Ener Grow
Energy
Union
enablers
Main Commission Services involved
Key instruments & policies for the Energy Union
Europan
Battery Alliance
2017
Advise Execute Experiment
Cheetah
2012
BioEnergyTr
ain 2015
Inpath TES
2015
Uni-SET
2012
Insight-E
2013
Magrenov
2014
REEEM
2016
NorthVolt 2016-19
Pilot
Action
2018-20
Malopolska
2016
InterReg
Danube
-18
ETIP
WindFloat
EIC Pilot
19-20
DEEDS
(2017)
Pre
Leap
RE
2018
InnoEnergy credentials (2/6)
.. It is all about the trusted ecosystem
6. 5
Forecasted cumulated impact of 2020 InnoEnergy portfolio companies by 2025
Economic impact
(cumulated by 2025)
120.000
Direct Jobs created
(indirect *4)
8.000M€
of external funds raised
by supported assets
180.000
people with access to
energy in developing
countries
100 TWh
Generated from
clean energy sources
On a EU annual baseline of 13.000
TWh
y of GIIN (Global Impact Investing Network)
InnoEnergy credentials (4/6)
Making Impact (SDG, ESG and Green Deal aligned)
7. 6
InnoEnergy credentials (5/6)
Structuring industrial value chains in Europe
Strategic industrial value chains boosted by , creating green growth, jobs and competitiveness
www.innoenergy.com
10
Still work to do and gaps to fill (1/2)
Accelerated EBA at the heart of the EU recovery: Jobs and growth
www.innoenergy.com
EBA harvest since October 2017 (3/4)
Industrial projects all across the value chain in 22 countries 7
www.innoenergy.com
5
Highlights 2020 linked to multiannual strategy (3/4)
Gates & EIT InnoEnergy accelerating H2
European Green Hydrogen Acceleration Center (EGHAC)
www.innoenergy.com
1
Rebuilding PV industry in Europe (1/9)
Why NOW?
20GW/year
40 B€
2023
1. Value chain
2. No H2 cost
1. Reshoring PV
manufacturing
2. 20GW new/year
1 European Battery Alliance
2 European Green Hydrogen Acceleration Center 3 European Solar Initiative
Complementarity with the EU Hydrogen Strategy
www.innoenergy.com
EBA harvest since October2017(4/5)
Batteries regulation: Europe setting the frame ww 10
Traceability,sustainability,circularityand .... ambitious
Europe settingthereference wwfor thebatterysupplychain
9. 8
Innovator
Market
Intelligence
Customer/Off-takers
Growth
Regulation
Governance
Strategy
Tecnhology enhancement
(Including IP strategy)
Supply Chain
and industrialisation
Funds (dilutive and grants)
Access to
Human Capital
Raw materials
Active
materials
Modules/Pack
Platforms/EV
ESS, industry
Cell
Cathode
Separator
Anode
Recycling
B2B B2C
Lesson learnt #1 (1/2)
From “supply centric” to ........
As Is
Services that our innovators (customers) need,
and how they navigate today, event based
(instruments/supply centric)
Sup. 1 Sup. 2 Sup. N Sup.X.
10. 9
Innovator
Market
Intelligence Customer/Off-takers
Growth
Regulation Governance
Strategy
Tecnhology enhancement
(Including IP strategy)
Supply Chain
and industrialisation
Access to
Finance
Social Acceptance
Citizen engagement
Access to
Human Capital
Raw materials
Active
materials
Modules/Pack
Platforms/EV
ESS, industry
Cell
Cathode
Separator
Anode
Recycling
B2B B2C
InnoEnergy
InnoEnergy Key Success Factor
Innovator centric, along its lifetime
One Stop shop
Lesson learnt #1 (2/2)
........ to “innovator’ centric
11. 10
Lesson learnt #2 (1/2)
From TRL (Technology Readiness level) .....
IND
COM
FOAK
Innovation
Applied research
Research
Impact
12. 11
Lesson learnt #2 (2/2)
.... to IRL (Innovation Readiness Level)
IND
COM
FOAK
Innovation
Applied research
Research
Impact
13. 12
IND
COM
FOAK
Innovation
EU support
instruments,
Mostly suply
side
The “As Is -> To Be” landscape (1/1)
End to end good mapping ...
.
Applied research
Research
Pillar 1 (ERC, MC, ..)
Pillar 3 (EIC, EIT)
Pillar 2 (Clusters, Mis, Part)
InnoFin EDP, Inn. Fund
EIB “com” products
Smart Specialization / Cohesion Funds
InnoEnergy
Fit for 55
N.E.C. P.
market
New policies
Regulations
Ambitions
(EU&MS)
ETS
Green taxonomy
Impact
14. 13
Skills 2
Enhancing & accelerating the “To Be”
5 proposals: low hanging fruits, at marginal cost
.
Toolbox 2
Innovative Public
Investment
(demand side)
IND
COM
FOAK
Innovation
Applied research
Research
Toolbox 1
KSF
(Key
Success
factors)
From TRL to IRL (TRL, MRL, InRL, SRL, CRL)
From SET to SETII?
240B€ public procurement/year in EU in energy
to
30% (75B€) innovative public investment
⇒No impact in deficit
⇒No new Euros
⇒From risk averse to risk taking
Upskilling/Reskilling
Skills 1
Accelerating
Energy
transition
1
2
4
5
B2B is working
Improved B2C accelerates energy transition
SRL/Citizen top ranked dimension
Pillar 1 (ERC, MC, ..)
Pillar 3 (EIC, EIT)
Pillar 2 (Clusters, Mis, Part)
InnoFin EDP
, Inn. Fund
EIB “com” products
Smart Specialization / Cohesion Funds
ONE COLOR:
No market fragmentation
500M homogeneous customers
3