Abstract
Tritium permeation into the Primary Heat Transfer System (PHTS) of DEMO and ITER reactors is one of the challenging issues to be solved in order to demonstrate the feasibility of nuclear fusion power plants construction. Several technologies were investigated as antipermeation and corrosion barriers to reduce the tritium permeation flux from the breeder into the PHTS. Within this frame, alumina coating manufactured by Pulsed Laser Deposition (PLD) and Atomic Layer Deposition (ALD) are two of the main candidates for the Water Cooled Lithium Lead (WCLL) Breeder Blanket (BB). In order to validate the performance of the coatings on relevant WCLL BB geometries, a mock-up was designed and will be characterized in an experimental facility operating with flowing lithium-lead, called TRIEX-II. The present work aims to illustrate the preliminary engineering design of a WCLL BB mock-up in order to deeply investigate permeation of hydrogen isotopes through PHTS water pipes. The permeation tests are planned in the temperature range between 330 and 500 °C, with hydrogen and deuterium partial pressure in the range of 1–1000 Pa. The hydrogen isotopes transport analysis carried out for the design and integration of the mock-up in TRIEX-II facility is also shown.
Highlights
Within the framework of EUROfusion project, the Water-Cooled Lithium-Lead (WCLL)is one of the two Breeding Blanket (BB) concepts selected for the EU DEMO reactor and one of the Test Blanket Module concepts to be qualified in ITER reactor
Is one of the two Breeding Blanket (BB) concepts selected for the EU DEMO reactor and one of the Test Blanket Module concepts to be qualified in ITER reactor
The development of antipermeation and corrosion barriers may have an impact on the WCLL BB design, in particular in the capture of the system requirements as well as in the assessment and definition of its interface with the primary heat transfer system, water detritiation system and/or
Summary
Within the framework of EUROfusion project, the Water-Cooled Lithium-Lead (WCLL). is one of the two Breeding Blanket (BB) concepts selected for the EU DEMO reactor and one of the Test Blanket Module concepts to be qualified in ITER reactor. The coating technologies were characterized from the point of view of the chemical compatibility in stagnant and flowing LiPb at 500 ◦ C and of the capability to reduce the permeation flux and the electrical conductivity. The latter is necessary in order to reduce the pressure drops generated by the Magneto-Hydro-Dynamic (MHD) effect across the BB. The total cost of the layer deposition on the entire surface of a BB has been estimated to be about 300 k€ It has to be added the capital investment (estimated to be about 1 M€ for PLD and 0.8 M€ for ALD).
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