Marica Eboli scite author profile

The water-cooled lithium-lead breeding blanket is in the pre-conceptual design phase. It is a candidate option for European DEMO nuclear fusion reactor. This breeding blanket concept relies on the liquid lithium-lead as breeder-multiplier, pressurized water as coolant and EUROFER as structural material. Current design is based on DEMO 2017 specifications. Two separate water systems are in charge of cooling the first wall and the breeding zone: thermo-dynamic cycle is 295-328°C at 15.5 MPa. The breeder enters and exits from the breeding zone at 330°C. Cornerstones of the design are the single module segment approach and the water manifold between the breeding blanket box and the back supporting structure. This plate with a thickness of 100mm supports the breeding blanket and is attached to the vacuum vessel. It is in charge to withstand the loads due to normal operation and selected postulated initiating events. Rationale and progresses of the design are presented and substantiated by engineering evaluations and analyses. Water and lithium lead manifolds are designed and integrated with the two consistent primary heat transport systems, based on a reliable pressurized water reactor operating experience, and six lithium lead systems. Open issues, areas of research and development needs are finally pointed out.

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Advancements in DEMO WCLL breeding blanket design and integration

Martelli

Nevo

Arena

et al. 2017

Int J Energy Res

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The water-cooled lithium–lead breeding blanket is a candidate option for the European Demonstration Power Plant(DEMO) nuclear fusion reactor. This breeding blanket concept relies on the liquid lithium– lead as breeder–multiplier,pressurized water as coolant, and EUROFER as structural material. The current design is based on DEMO 2015speciﬁcations and represents the follow-up of the design developed in 2015. The single-module-segment approach isemployed. This is constituted by a basic geometry repeated along the poloidal direction. The power is removed by meansof radial–toroidal (i.e., horizontal) water cooling tubes in the breeding zone. The lithium–lead ﬂows in a radial–poloidaldirection. On the back of the segment, a 100-mm-thick plate is in charge of withstanding the loads due to normal operationand selected postulated initiating events. Water and lithium–lead manifolds are designed and integrated with a consistentprimary heat transport system, based on a reliable pressurized water reactor operating experience, and the lithium–leadsystem. Rationale and features of the single-module-segment water-cooled lithium–lead breeding blanket design arediscussed and supported by thermo-mechanic, thermo-hydraulic, and neutronic analyses. Preliminary integration withthe primary heat transfer system, the energy storage system, and the balance of plant is brieﬂy discussed. Open issues, areasof research, and development needs are ﬁnally pointed out

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Recent Progress in the WCLL Breeding Blanket Design for the DEMO Fusion Reactor

Tassone

Nevo

Arena

et al. 2018

IEEE Trans. Plasma Sci.

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Implementation of the chemical PbLi/water reaction in the SIMMER code

Eboli

Forgione

Nevo

2016

Fusion Engineering and Design

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Experimental activities for in-box LOCA of WCLL BB in LIFUS5/Mod3 facility

Eboli

Moghanaki

Martelli

et al. 2019

Fusion Engineering and Design

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Marica Eboli

Recent progress in developing a feasible and integrated conceptual design of the WCLL BB in EUROfusion project

Advancements in DEMO WCLL breeding blanket design and integration

Recent Progress in the WCLL Breeding Blanket Design for the DEMO Fusion Reactor

Implementation of the chemical PbLi/water reaction in the SIMMER code

Experimental activities for in-box LOCA of WCLL BB in LIFUS5/Mod3 facility

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