Nuclear Powered Hydrogen Cogenenaration, NPHyCo

Safety cases for the three levels of integration and critical design parameters (odnośnik otworzy się w nowym oknie)

Identification of the possible interactions in the design of the cogeneration facility that can impact safety and definition of the typical ‘design parameters’ that affect these interactions Interactions can be technical organizational, and human factor/ safety culture related.Methodology will be a structured analysis for each of the three cases with different levels of integration with regard to potential accident scenarios and the impact of the nuclear safety of the NPP. Impact and consequences will be determined based on engineering judgement in a qualitative and/or semi-quantitative way.Activities to be performed are for each case:• Analysis of the areas of technical interactions, identification of relevant systems, identification of hazards (based on typical hydrogen production facilities)• Identification of representative incident/accident scenarios• Assessment of the consequences on the nuclear safety of NPP• Discussion and assessment of organisational aspects• Analysis of the impact on the licensing process.

Roadmap for HPP and NPP coupling (odnośnik otworzy się w nowym oknie)

Task 4.4 is based on the input from WP 2 (technical roadmap), WP 3 (economical roadmap), WP 4 (licensing roadmap) and WP 5.1 and WP 5.2 (Pilot plant)The report will give an overall summary of the project outcomes. It will provide an integrated approach to support decision making on a NPP-HPP combination and its feasibility. It can be used by NPP operators, (future) HPP operators, local governments or other parties that are interesting in such a combination. The report (D4.4.) will address topics like:•Main economic parameters for a positive business case (demand and availability for hydrogen, market prices compared to LCOH for electrolysis)•Logistic /infrastructural issues related to possible sites, routings, transport, storage, •Suitability of the existing (or planned) NPP for coupling to a HPP (licensed period. LTO…)•Government support for nuclear in general (long term perspective)•Government support for decarbonisation of the energy system or hydrogen specific.•Technical developments that may have influence•Generic licensing process and timelines

Socio-economic study report (odnośnik otworzy się w nowym oknie)

As part of the public communication a small study is planned to investigate how and to what extent a H2 plant coupled to an NPP could influence the public awareness/acceptance about nuclear power generation.

Communication toolkit (web, logo, etc.) (odnośnik otworzy się w nowym oknie)

Communication toolkit will gather communication tools such as: - Project websiteFOR will set up a project website for communication and dissemination purposes. The website will be structured to meet external communication and project needs. The website content, which will be periodically updated, will include descriptions of the background, objectives and results of the project. It will also contain project partner profiles, information about the presence of the project at conferences, forums, exhibitions, etc.; public deliverables; publications related to the project whenever feasible.- Social Media, newsletters, press releasesThe consortium will use appropriate channels (like professional social media) to disseminate new findings to a wide audience, and to special stakeholder groups. Coordinated press releases (1-2 per year) and newsletter (annually) will be distributed through different channels, in particular profiting from the SNETP communication tools.

A & EUG recommendations report (odnośnik otworzy się w nowym oknie)

Report based on work of Advisory & End-user Group, as well as meetings of the group linked to project plenaries.

Evaluation of guides and regulations, licensing processes and typical timelines relevant for nuclear H2 cogeneration in the UE (odnośnik otworzy się w nowym oknie)

Identification of the relevant guides regulations codes standards for NPP’s and for hydrogen production facilities. Guides and regulations will involve technical, organizational, and possibly safety cultural aspects. Identification of the relevant authorities involved, the typical licensing process with required documentation, procedures to follow and related timelines.Methodology will be literature search, evaluation of the relevance for our licensing roadmap, summarizing and reporting of the results.

Decision matrix for pilot plants (odnośnik otworzy się w nowym oknie)

The first step is to develop a universal solution matrix for the pilot NPP. For this purpose, special criteria are selected that will make it possible to choose the most suitable concept for the integration of hydrogen technologies at NPPs.Decision matrix will be developed by contributing experiences with Ukrainian NPPs. Therefore, we will use information / input from WP2-WP4. After development, the decision matrix should support the choice of location and hydrogen technology for future possible investments / projects by giving an overview on the most important criteria. Since the matrix should be universal and not limited to Ukrainian NPPs, all participants will make their proposals and adjustments so that the matrix can be applied to the countries of the European Union and its associated members.

Data Management Plan (odnośnik otworzy się w nowym oknie)

Data Management Plan is a key element of good data management. It describes the data management life cycle for the data to be collected, processed and/or generated by a the project.

Project Frame of Reference (need and benefits, external requirements, and available technologies assessment) (odnośnik otworzy się w nowym oknie)

The frame of reference will be structured around the following three concepts:• The need and benefits of nuclear-powered generated hydrogen• The assessment of available technologies• The external requirements

Project Quality Plan (odnośnik otworzy się w nowym oknie)

The Project Quality Plan describes the requirements and procedural regulations needed for a sound and uniform management of the AfricaMaVal project. It serves as an instruction guide for project partners regarding information management, document publication, quality assurance issues, project organisation, and contact information.

Communication & dissemination plan (odnośnik otworzy się w nowym oknie)

A communication plan focused on updates and output from the project. It will include identification of the key messages to be conveyed, target audiences to whom those messages are of relevance and development of relevant communication materials, tools, and platforms. Potential audiences include both internal (e.g., the nuclear sector) as well as external stakeholders (e.g., the hydrogen-related sector). It furthermore establishes the selected channels (e.g., webpage, conference, hearing, journal, workshop etc). It collects the results from the work packages and edits them to fit for communication & dissemination according to the communication plan.

KPIs and assessments on nuclear H2 economic feasibility compared with other types of H2 to be included in the Business Plan (odnośnik otworzy się w nowym oknie)

To include KPIs and assessments on nuclear H2 economic feasibility compared to other types of H2 in NPHyCo, differents steps are necessary:- Estimate the potential European H2 market and required infrastructures- Estimation and comparison of LCOH with different production technologies- Comparison of nuclear H2 key indicators with other H2 production methodsOnce this datas known they could be a compilated in the Business Plan.

Requirements that need to be fulfilled by H2 plant to be coupled to an NPP (odnośnik otworzy się w nowym oknie)

The aim is to develop requirement specifications for the H2 plant site. For this deliverable and D2.3, the main external outcome of this task, for public dissemination is the development of requirements and conditions needed to be fulfilled by the NPP and H2 plant to be able to do coupling. These These tables will also include the requirements determined in other WPs and other stakeholder’s requirements.

Scenario Definition (for degree of integration) (odnośnik otworzy się w nowym oknie)

Definition of specific, concrete coupling scenarios for further qualitative and quantitative investigation. Based on the hypothesis that it is advantageous to couple a H2 production plant to a NPP and partially integrate and share auxiliary systems and utilities, several scenarios of NPP plant designs and H2 plant types / layouts and sizes are defined for further study in the other work packages. The study results of these specific studies, which are conducted in WP2-WP4 are compared against the reference scenario, which would be the one of a complete independence of the H2 plant from the NPP. The scenario definition builds on the results of a pre-study on existing reactor types and existing electrolysis technologies, which is conducted at the beginning of Task 1.2. Amongst other parameters the scenarios define the• capacity (i.e. MW) of the coupled H2 plant and therefore the amount of the needed utilities (e.g. electricity) and auxiliaries (e.g. DI water), which is then processed to WP2,• the potential spatial proximity to the NPP, also further processed in WP2 and WP4• the potential further new equipment/systems/infrastructure needed for a coupled H2 generation, e.g., H2 storage, pipeline connection etc. also processed to the other WPs (WP2-WP5)

Requirements that need to be fulfilled by NPP to allow H2 cogeneration (odnośnik otworzy się w nowym oknie)

The aim is to develop requirement specifications for the NPP site. These requirements will give a first information to NPP operators or investors considering NPHyCo, if their specific conditions are favourable or not. These tables will also include the requirements determined in other WPs and other stakeholder’s requirements.