Wspólnotowy Serwis Informacyjny Badan i Rozwoju - CORDIS


CertifHy Streszczenie raportu

Project ID: 633107
Źródło dofinansowania: FP7-JTI
Kraj: Belgium

Periodic Report Summary 1 - CERTIFHY (Developing a European Framework for the generation of guarantees of origin for green hydrogen)

Project Context and Objectives:
The development of hydrogen as an energy carrier will be dependent upon the capacity of the market to offer low-carbon or carbonfree hydrogen to end-users and consumers. However, the production of green hydrogen and its consumption will most likely be unbundled in order to optimize its transportation and distribution, while enabling cost adequate pricing for green hydrogen. This implies that a robust system of Guarantee of Origin for green hydrogen will be needed, in order for final customers to buy low-carbon hydrogen in full transparency. The objectives of the CertifHy project are to assess the necessary market and regulatory conditions, develop the complete design and initiate a unique European framework for green hydrogen guarantees of origin. The project will be carried out in consultation with a broad range of relevant stakeholders from all over Europe, including hydrogen producers, traders and customers. Ultimately the CertifHy guarantee of origin scheme will facilitate the penetration of green hydrogen throughout Europe.
The CertifHy project is divided in 7 work packages. Each work package is conceived as a logical step to achieve the final objective of facilitating the creation of a European system for the generation of GoO for green hydrogen. The project will first deliver a market outlook for green hydrogen (WP1), it will then consider various options for the definition of green hydrogen, followed by a selection of the most appropriate definition of green hydrogen (WP2). In the first part, the project will also identify and compare existing platforms for GoO, which can serve as basis for defining a system for GoO for “green” hydrogen (WP3). In the second phase, CertifHy will define the new frame of GoO (WP4) and as a final step will prepare a roadmap (WP5) for the implementation of a “green” hydrogen GoO to be implemented across Europe. Throughout the project, WP6 will serve the purpose of planning, structuring and executing shareholder consultations on the specific definition of green hydrogen, methodologies or topics of relevance to the project, through direct engagement and consultation of relevant affiliated partners and the wider stakeholder community interested in green hydrogen production, trading or consumption.

WP7 (Project management) and WP6 (stakeholder engagement and dissemination activities) are two transversal work packages which will support the overall project delivery. WP7 Project management and administration WP7 concerns the general administrative activities of the project. This work package establishes the formal link with the FCH JU and coordinates internal communication activities. All financing and general reporting matters will be handled within WP7.

WP1 Generic market outlook for green hydrogen
WP1 aims to deliver a generic overview of future trends, market outlooks, application areas and segmentation for green hydrogen. The outcome of WP1 should also support the rational for adopting green hydrogen GoOs by policy makers, by showing evidence of existing industrial markets and the potential development of new energy related markets for green hydrogen in the EU.
As a first step, WP1 will provide a literature review of existing estimates of possible market outlooks for hydrogen in Europe, in industry, energy and transport sectors. It will complement this analysis with generic estimates of market penetration for green hydrogen and its impact on the deployment of hydrogen as energy carrier. Finally, the work package will provide a brief segmentation of potential customer groups in the short-term (industrial use), mid-term (renewable electricity storage) and longer term (transport and personal mobility) addressable by green hydrogen.
WP2 Definition of “green” hydrogen
The main goal of WP2 is to provide a common definition of green hydrogen which can be applied to all stakeholders (market players and regulators) in the EU. In order to achieve this objective, the Consortium will first analyse in detail the overall European legal and regulatory framework in this field. An extended life-cycle analysis will be implemented to evaluate environmental aspects and identify methods to assess the “greenness” of hydrogen produced.
All existing and available options for defining green hydrogen will be presented during a consultation workshop (set up in WP6) to affiliated partners, whom will be invited to provide feedback and engage with the Consortium. Best (and worst) practices will be identified and consolidated in a concise document, easy to be integrated in the project report. On the basis of this first consultation a hierarchy of technical options and a set of criteria for the selection of technical options will be developed.
WP3 Review of existing platforms and tracking systems for GoO
The objective of WP3 is to review all past and existing initiatives to set up GoOs systems, particularly on-going and failed initiatives to certify green electricity, green gas and bio-fuels. This will result in a set of principles and requirements for the new system for guarantees of origin for green hydrogen. Composed of four tasks, WP3 will first review and compare existing platforms and tracking systems for guarantees of origins, comparing the different systems, analysing strengths and shortcomings and extrapolate the main technical and legal aspects. It will then analyse all interactions between existing GoO and green hydrogen, benchmarking existing GoO schemes in Europe with schemes in other similar areas. The results of WP3 will be validated via a number of stakeholder interviews.

WP4 Definition of a new framework of guarantees of origin for “green” hydrogen
The goal of WP4 is to provide a comprehensive definition of a new framework of GoO for “green” hydrogen. As a first step, with all the results from WP2 and WP3 fed into WP4, the main technical specifications of the framework of guarantees of origins will be defined. The work package will also define a set of rules and obligations for the GoO including:
• methodology and certification process, agencies involved, enforcement and controlling
• processes, transfer and use process, legislative, normative and regulatory aspects, etc. An impact analysis will be performed to evaluate the impacts related to the implementation of the GoO of "green" hydrogen; it will focus on regulatory, legislative and economic, aspects.
• Finally, the second consultation with Affiliated Partners will be set up in WP6 and performed in WP4 in preparation for the following work package.
WP5 Roadmap for the implementation of an EU-wide GoO scheme for green hydrogen
In collaboration with Affiliated Partners and key stakeholders, the main objective of WP5 will be the development of a roadmap enabling the implementation of green hydrogen GoOs in Europe. The roadmap will aim to synthesise and “initiate” recommendations of the project in practical terms. The roadmap will be presented to the FCH JU and the European Commission as key outcome of the project and before finalisation, will be shared with stakeholders in order for them to provide final comments as part of the final wide consultation steps set up in WP6.
WP6 Stakeholder engagement and dissemination activities
The overarching objective of WP6 is to provide the means, structure and process for consultation of stakeholders and dissemination of the final project results in order to enhance the acceptability of the project outcomes and implementation roadmap. It will do so by planning and executing a stakeholder consultation process that will ensure a two-way engagement process between consortium members, affiliated partners and key stakeholders. WP6 will will also set up a project website for the dissemination of general information about the project (e.g. project description, members, agenda of events, publicly available deliverables, information and links towards other relevant GoO schemes, etc.). It will also establish and manage an online stakeholder platform for the organisation of online workshops, which will allow stakeholders to provide feedback on the project progress and draft deliverables. A kick off and a final open conference will present to all interested stakeholders project objectives and results.

Project Results:
The project CertifHy, with a total duration of 2 years (24 months), has been structured in 7 work packages. During the first 12 months, the main three results have been:
• to analyse the potential market demand for premium hydrogen (WP1-Market outlook for premium hydrogen), understanding the various market players, their motivation for producing/purchasing premium green hydrogen and assessing how the current regulation and future policy goals will affect demand for premium hydrogen. A detailed assessment has been carried out, the results have been published on;
• to provide a common definition of green hydrogen which can be applied by all stakeholders (market players and regulators) in the EU (WP2- Definition of green hydrogen): an agreement has been reached with industry (“Affiliated Partners”) as well as the larger stakeholder community (via a public survey);
• to develop a first set of principles and requirements for the new system for Guarantees of Origin for green hydrogen by reviewing past and existing initiatives to set up GoO systems, (e.g. green electricity, green gas and bio-fuels, WP3-Review of GoO systems ).
• Additionally, an important objective during the first period has been to seek external support and input from industry and related stakeholders to ensure the success and buy-in of the future proposed scheme. Awareness raising (website, press releases, and articles in online newsletters) and involvement of industry throughout workshops and open consultations (WP6) have been the main tools used to achieve this objective.

Potential Impact:
The fact that hydrogen can be produced “green” from a variety of feedstock is a major motivation and driver for the application of fuel cells for energy production and mobility, and also a chance for the hydrogen-consuming industry.
However, hydrogen distribution logistics are strongly interlinked and furthermore have the objective to minimise transport distances to avoid unnecessary costs and emissions. Hence, the molecules at the end user site cannot be distinguished according to their origin. This is similar to the electric power or natural gas grids, where consequently tracking and certificate systems like RECS or the German Dena Bio-methane registry have been created in order to avoid fraud. Such a system is also needed for hydrogen once green production pathways are implemented.
The only known national standard that has been established so far is the TÜV SÜD Standard “Green Hydrogen” for Germany, which defines criteria for production, handling and sales of green hydrogen, while similar schemes on a national level are being developed (AFHYPAC in France, DECC in UK, etc.). In order to uncouple production and use of green hydrogen on an international level without increasing transport distances, an EU-wide system is desirable. This will bring about the impact of creating a transparent, barrier- and discrimination-free EU-wide system on production standards for green hydrogen as well as its handling, distribution and trading. This allows for example that hydrogen from Spanish solar energy could be used to power fuel cell cars in Sweden by trading certificates of origin rather than transporting hydrogen over several 1000 km. The de-coupling of production and consumption through Guarantee of Origin certificates, also allows the creation of new business models, as GoOs could create extra revenue streams for renewable/low –carbon H2 production units that do not require all locally produced hydrogen to be renewable/low-carbon, and hence the non-required GoOs could be sold to customers in need of such. By that, a European certificate system for green hydrogen will eventually foster the rollout of hydrogen and fuel cells across all Member States of the EU.
In order to achieve this goal, all elements of the chain need to be taken into account. Criteria for best practice on production, handling and transport of green hydrogen need to be defined, taking into account requirements for greenhouse gas reduction but at the same time being practically implementable along with the traditional industrial gases business. Also, a monitoring and trading system for the Guarantees of Origin needs to be set up in the most economic and practical manner, which requires a sound assessment of instruments available today (also for electricity and natural gas).
Last but not least, for the implementation of the system to be successful, buy-in of all stakeholders is required for the solution which is being developed, for which targeted communication and dissemination of the results is necessary. In this respect, we could note that the CertifHy project has attracted much attention from the stakeholder community: the participation was much higher than anticipated, both from a qualitative as well as from a quantities perspective which will pave the way for a roadmap to be developed during the second part of the project.

List of Websites:


Patrick Maio, (Managing Partner)
Tel.: +3222218140
Adres e-mail
Numer rekordu: 183712 / Ostatnia aktualizacja: 2016-06-15
Źródło informacji: SESAM