The conceptual design of the demonstration fusion power reactor, known as DEMO, is ongoing and several reactor configurations have to be investigated by exploring different design parameters. For these reasons, within the European framework, systems codes like SYCOMORE (SYstem COde for MOdelling tokamak REactor) have been developed. SYCOMORE includes several specific modules, one of which is aimed to define a suitable design of the helium breeding blanket. The research activity has been devoted to improve the method to define automatically the First Wall design starting from thermal-hydraulic and thermo-mechanical considerations, using analytical design formulae and, also, taking into account the design criteria coming from Codes&Standards. Thanks to these considerations, it has been possible to derive the first dimensions of the First Wall channels from which all the other characteristics are deducted. Afterwards, it has been assessed the thermal and mechanical field using a theoretical approach. Therefore, in order to compare and validate the results, a 3D geometric model has been created and FEM analyses have been carried out finding out very satisfying results with maximum error of 6.06% for the thermal analysis while a maximum error of 20% for primary and secondary stresses.

Spagnuolo G.A., Aiello G., Aubert J. (2018). Development of helium coolant DEMO first wall model for SYCOMORE system code based on HCLL concept. FUSION ENGINEERING AND DESIGN, 136, 488-492 [10.1016/j.fusengdes.2018.03.003].

Development of helium coolant DEMO first wall model for SYCOMORE system code based on HCLL concept

Spagnuolo G. A.
Membro del Collaboration Group
;
2018-01-01

Abstract

The conceptual design of the demonstration fusion power reactor, known as DEMO, is ongoing and several reactor configurations have to be investigated by exploring different design parameters. For these reasons, within the European framework, systems codes like SYCOMORE (SYstem COde for MOdelling tokamak REactor) have been developed. SYCOMORE includes several specific modules, one of which is aimed to define a suitable design of the helium breeding blanket. The research activity has been devoted to improve the method to define automatically the First Wall design starting from thermal-hydraulic and thermo-mechanical considerations, using analytical design formulae and, also, taking into account the design criteria coming from Codes&Standards. Thanks to these considerations, it has been possible to derive the first dimensions of the First Wall channels from which all the other characteristics are deducted. Afterwards, it has been assessed the thermal and mechanical field using a theoretical approach. Therefore, in order to compare and validate the results, a 3D geometric model has been created and FEM analyses have been carried out finding out very satisfying results with maximum error of 6.06% for the thermal analysis while a maximum error of 20% for primary and secondary stresses.
Spagnuolo G.A., Aiello G., Aubert J. (2018). Development of helium coolant DEMO first wall model for SYCOMORE system code based on HCLL concept. FUSION ENGINEERING AND DESIGN, 136, 488-492 [10.1016/j.fusengdes.2018.03.003].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/403603
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