Small Modular ReacTor for a European sAfe aNd Decarbonized Energy Mix

Sensitivity of the hybrid system techno-economic analysis to uncertain key parameters (opens in new window)

Some sensitivity studies of the results will be performed considering uncertain key parameters.

Project management toolbox (opens in new window)

Deliver to the consortium a Project management toolbox and put in place a validation process for deliverables and monitoring online document workspace GDPR compliancerisk management and monitoring organizing project meetings administrative and financial management

Final SAC recommendations report (opens in new window)

Final Scientific Advisory Committee recommendations report

Data Management Plan (opens in new window)

The Data Management Plan will outline the conditions for data preservation adherence to FAIR principles publication and clearly make a distinction between potentially sensitive or confidential information and open access data

Strategic recommendations of future E&T planning in the field of Safety of SMRs and hybrid energy systems. (opens in new window)

In order to support future planning of E&T efforts, an integrated analysis will also be conducted to identify the main challenges and recommendations. Expectations on future needs by industry and academia of expertise in the fields of SMR safety and hybrid energy systems will be considered and the experience collected through the implementation of the TANDEM E&T actions, including students’ feedback.

TANDEM E&T courses structure and syllabus (opens in new window)

plan and implement the delivery of the E&T actions in accordance with the structure. Aspects such as: lecturers, delivery dates, venues -where applicable- or Conferences will be planned. Feedback Forms shall be designed in advance to obtain insights from the students. E.g., GRS can give an online course on “Simulation of cogeneration with system codes” based on the results of the simulations performed in Task 2.4 and 4.2.

Communication & Dissemination Plan (opens in new window)

Definition of Communication Dissemination Plan

CATHARE SMR model description (opens in new window)

Description of developpment and test of the model with the CATHARE code to be used in the analysis

Summary of the recommendations of the Industrial User Group (opens in new window)
Policy briefs for policymakers and end-users (opens in new window)

Deliver policy briefs for the development of hybrid systems by 2030’s, taking into account the evolution of European energy policies. Briefs shall be targeted at EU policymakers as well as other stakeholders

Stakeholder Engagement Plan (opens in new window)

Stakeholder EngagementPlan setting out a formal strategy for the TANDEM’s relations with project stakeholders:o Mapping of provisional stakeholders and key messages of relevance to them.Identification of the most relevant tools through which contacts and outreach can beestablished;o Analysis of stakeholders’ needs, and challenges faced by groups of target audience and their strategies defined in high-level documents and as collected via a survey addressing stakeholders in countries participating in the project. The analysis of the survey results will focus on the identification of topics of interest for stakeholders, questions raised which could be clarified in the project final report(s), and areas which require further focused research beyond the project framework;o This will also include a roadmap of activities and actions to facilitate the stakeholderengagements and exploit the project results,

Communication toolkit (website, visuals) (opens in new window)

Activities will include Definition of Communication Dissemination Plan by CEA with the support of ENEN Project communication materials logo visualsinfographics templates etc CEA Project specific website CEA Active contribution to selected newsletters and social media by topical articles related to hybrid systems SMRs etc Communication channels of SNETP and Foratom will be used in priority ENEN FORATOM VTT Organisation of dedicatedinformative workshops ENEN to deliver TANDEM outcomes to the general public and key stakeholders Synergies with other major events will be thought Coordination of publication preparation ENEN VTT to centralize and plan the scientific publications by the partners and support the process

Report of operational transient safety case Studies for a SMR with cogeneration (opens in new window)

Report of operational transient safety case Studies for a SMR with cogeneration. The safety cases to simulate will be distributed between all the participants. The safety cases studies will be performed using the (coupled) simulation models developed in WP2. For all cases, stand-alone calculations with ATHLET and CATHARE will beperformed as a baseline.

Summary Analysis of Stakeholder Engagement (opens in new window)
Status report on safety analysis in Europe from the operational flexibility and cogeneration viewpoint (opens in new window)

Status report on safety analysis in Europe from the operational flexibility and cogeneration viewpoint The aim is to dentify and assess the potentially impacted safety margins of the SMR when integrated in a hybrid energy system with overall coordination by IRSN For this purpose all the participants in particular operators and TSOs will analyse the constraints which would result from SMR adaptation to energy demand and response to transients and abnormal operation of the connected systems eg thermal load and fatigue core power redistribution reactivity control pelletcladding interaction etc The approach will be based on a survey of the best practices developed by the partners in the field of safety assessment of energy production flexibility and cogeneration technical constraints specific safety concerns etc The study will cover feedback from Germany GRS France IRSN and eastern Europe ENERGORISK Then a methodology for assessment of relevant physical parameters and safety margins of the SMR will be established

Hybrid System simulator description (opens in new window)

Description of the implementation of a first version of the hybrid system simulator torepresent the energy study cases selected

Citizen Engagement Report (opens in new window)

Citizen Engagement Report based on: - analysis of history and cultural background, as well as existing national and local knowledge of public perception of SMR technology (possible national citizen surveys) of nuclear energy technology and use in local level (ENEN, UJV, FORTUM), - Mapping of citizen stakeholder groups, and inviting them to the workshops (FORATOM), - Planning and arranging the workshops (VTT).

"Modelica models description for the ""TANDEM"" library" (opens in new window)

Modelica models description for the “TANDEM” library

Description and techno-economic characterization of the hybrid system components (opens in new window)

Identifying the hybrid energy system components for the two selected configurations and their characterization. A standard template for data collection will be elaborated for the characterization of each component. Under the coordination of ANSALDO who will build a matrix of hybrid energy system components to be considered for the two typical configurations, the definition and characterisation work will be shared amongst the partners involved.

ATHLET SMR model description (opens in new window)

ATHLET SMR model description. Developpment and test of an SMR detailed models withATHLET code with the same functionality of the CATHARE one. Furthermore, the coupling of the ATHLET model with Modelica will be developed and evaluated.

Synthesis report of project results and technical recommendations (opens in new window)

comprehensive analytical review(s) of WPs results and provide recommendations relative to technical, economic and societal issues, with the participants’support,

Intermediate SAC recommendations report (opens in new window)

Intermediate Scientific Advisory Committee recommendations report

E&T Gap Analysis in the domain of safety of SMRs and hybrid energy systems (opens in new window)

E&T Gap Analysis in the domain of safety of SMRs and hybrid energy systems.The knowledge, skills and competences required by the domainsaddressed in the TANDEM project will be firstly classified and categorized to identify the training needs required to address the core topics. Then, an analysis on what courses are available that may address them will be conducted. This will allow to find areas where new or further E&T would be required on the basis of either low supply coverage (i.e.: few options currently available) and/or partial coverage (i.e.: only a subset of the knowledge, skills and competences are addressed), hereby constituting the gap analysis between the E&T needs and how they can be covered.

Description of techno-economic assessment of energy policies and relations among hybrid energy systems (opens in new window)

Identification task for the two hybrid system configurations; the approach will rely on a reasonable deployment timeline as European boundary conditions will certainly evolve. Each partner will provide support in the definition of energy scenarios and in the definition of Figures of Merits.

Project Quality Plan (opens in new window)
Definition of case studies for techno-economic analyses including some environmental aspects (opens in new window)

All participants contribute to the characterization of the “techno-economics” casestudies associated with the hybrid systems considered in TANDEM in a specific location and context in Europe (Nordic countries, Central and Southern Europe).

Summary report on safety case studies for a SMR with cogeneration (opens in new window)

Summary report on safety case studies for a SMR with cogeneration based on final results of the safety cases. They will be discussed in a dedicated workshop between WP participants. Recommendations and further needs for the implementation of the SMR in the hydrid system as a cogeneration system from the safety point will be drawn. The capabilities of the assessment methods and tools (both system codes and coupling to Modelica) will be evaluated, guidance for their application will be formulated, and needs for improvement and further development will be identified.

Assessment of the control and flexibility constraints on system components by the hybrid system simulator coupled with an optimizer (opens in new window)

Assessment of the control and flexibility constraints on system components by the hybrid system simulator coupled with an optimizer.

Report of operational Design Basis Accident case studies for a SMR with cogeneration (opens in new window)

At least 4 AOOtype scenarios and 2 DBA-type scenarios will be specified. The specification will include the initial and boundary conditions for the nuclear and cogeneration plant as well as major events and assumptions.

Analysis of the key features of the future EU energy market and associated regional/national landscapes (opens in new window)

In this task FORATOM will coordinate the analysis of the future European energy scenarios which will characterize the EU energy landscape in the next decades Partners will bring their expertise in their respective areas of experience in order to build a global picture covering key regional trends and needs General knowledge of EU energy and climate context FORATOM with support of the other participants from their own analyses of energy scenarios and potentials for SMR deployment Some regional considerations will be given for Eastern Europe and Ukraine as an example of the EU neighbourhood region ENRGORISK for Central Europe from the Czech Republic energy policyenergy scenarios analysis for possible heat market for SMR in the Czech Republic UJV and for Nordic region heat and electricity market by VTT and FORTUM

Outcomes and impact for the students of the International School, Workshops, and other E&T events of the TANDEM Project (opens in new window)

The main impact metrics resulting from the implementation of the designed E&T actions will be evaluated and analysed. In addition, to ensure the long-term availability of the training materials and resources developed in this Task, an online platform will be appointed to host the majority of the learning materials.

Cross-comparison of simulation results between PERSEE, the modelica simulator and ECOSIMPRO for the energy hub configuration (opens in new window)

TANDEM project will perform a technical study that includes the development of a EcosimPro® simulation model, and a comparative analysis of the results obtained with it and the abovementioned codes to:- Ensure the predictivity of the hybrid energy system models implemented in the energy hub studies in TANDEM/WP3,- Assess the impact of the lump models of PERSEE against the Modelica-based simulator on the techno-economics optimization results, using EcosimPro® model.- Identify the issues that may arise due to potential discrepancies due to system’s sizing, operating points, boundary conditions and additional aspect to be studied.

Description of selected study cases for safety, techno-economic analysis and optimisation (opens in new window)

Identification of the specifications for the energy study cases based on the district heating configuration and energy hub configuration previously selected. The identification will rely on variations of the baseline concept of a case study combining nuclear and other energy sources in support of various downstream applications to match any geographical/economic framework and related timeframes.

Identification of potentially impacted safety margins and methodology for safety analysis of a SMR integrated in a hybrid system (opens in new window)

Identification of potentially impacted safety margins and methodology for safety analysis of a SMR integrated in a hybrid system. The study will cover feedback from Germany (GRS), France (IRSN) and eastern Europe (ENERGORISK). Then a methodology for assessment of relevant physical parameters and safety margins of the SMR will be established.

Presentation of dynamic techno-economic analysis for each case study (opens in new window)

A dynamic global techno-economic and environmental analysis of thehybrid systems in 2035.The data required for the techno-economicsanalysis of each case study concern: Energy production/ consumption data (hourly energy load profiles, hourly energy production bythe different sources, etc), Technological data (energy efficiencies of controllable production units, storage charge/dischargecapacities, maximum power ramp speed accommodated by SMRs, etc) Economic data (Capex, Opex, replacement, etc) Environmental data (CO2 direct or grey emissions, CO2 sensitivity taxes, etc).

"Open Source ""TANDEM"" library (delivery)" (opens in new window)

the development of an Open-Source “TANDEM” model library aimed at simulating thebehavior of power plants, systems and components, including SMRs, and needed to analysethe hybrid systems