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  • Network of Small and Medium Size Magnetic Confinement Fusion Devices for Fusion Research

    Closed for proposals

    Project Type

    Coordinated Research Project

    Project Code

    F13019

    CRP

    2161

    Approved Date

    15 December 2017

    Status

    Active - Ongoing

    Start Date

    7 May 2018

    Expected End Date

    31 December 2022

    Completed Date

    6 December 2023

    Participating Countries

    Bulgaria
    Canada
    Costa Rica
    Czech Republic
    Iran (Islamic Republic of)
    Lebanon
    Malaysia
    Mexico
    Pakistan
    Portugal
    Russian Federation
    Spain
    Thailand
    Ukraine
    United Kingdom of Great Britain and Northern Ireland

    Description

    The present CRP proposal is the continuity of former highly successful ones, which allowed the establishment of a fusion devices network that encompass a diversity of machines. The laboratories involved in the previous CRPs had pursued several common goals in various fields that demanded flexible and compact machines with readiness accomplished and were in good time.This CRP seeks to maintain and even increase the established network of existing magnetic confinement fusion devices that have been utilized to perform jointly and comparatively a number of experiments to study relevant plasma physics, support technology development, modelling analysis and the development of simulation and software tools. Moreover the CRP will comprise a coordinated set of activities for the exchange of data, information and equipment, scientific visits, and, in particular, joint experiments. This concept has already clearly demonstrated its value and potential for enhancing international collaborations, increasing not only the impact on the fusion community, but also the transfer of knowledge and technology to developing countries.This will open the door for more Member States to join the research efforts and contribute to the success of magnetic confinement in fusion at different levels. For that aim it is planned to organize and perform joint and comparative experiments and to facilitate the exchange of data among the participants on: (i) study of turbulence and transport, the coupling between edge and core plasma physics and isotope effect, (ii) develop and model new advanced diagnostics, (iii) test of materials and technologies and (iv) broad the education, training, and geographical spreading of fusion research by including experimental activities for PhD and master students in the participants’ fusion laboratories.The years to come will be crucial to the global undertaking and commitment of mankind to achieve the necessary diversity with clean energy sources where fusion has an important role to play and this objective can only be achieved by an outstanding and trained community of researchers presently being educated.

    Objectives

    The overall objective of this CRP is to maintain and expand a coordinated network of world-wide machines and laboratories capable of contributing to the success of fusion energy development in view of the next step fusion devices such as ITER and DEMO performing joint and comparative experiments to support plasma physics research, technology development, modelling and training.

    Specific objectives

    To develop new computational techniques for modelling plasma processes, in particular for real-time analysis requiring high-data volume processing

    To establish a program on education and training among the participants in the CRP encouraging the contribution of developing countries

    To develop and model new advanced diagnostics

    To study the features and the mechanisms of the isotope effect and their relevance to plasma transport

    To investigate Magneto-Hydro-Dynamic (MHD) activity and related fast particle physics

    To optimize start-up phase and plasma breakdown

    To test materials and technologies for liquid metal, high temperature super-conductors, functional materials, advanced fuelling, modular vacuum-vessel and complex geometries coil manufacture

    To improve the coupling of energy transfer by the auxiliary heating systems

    To investigate edge and core plasma physics, including the coupling between them

    To study turbulence and transport, including the role of electric field and possible mechanisms of turbulence self-regulation

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