Roberto Zanino 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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Test Results of the ITER PF Insert Conductor Short Sample in SULTAN

Bruzzone

Bagnasco²,

Bessette³

et al. 2005

IEEE Trans. Appl. Supercond.

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A short sample of the NbTi cable-in-conduit conductor (CICC) manufactured for the ITER PF insert coil has been tested in the SULTAN facility at CRPP. The short sample consists of two paired conductor sections, identical except for the sub-cable and outer wraps, which have been removed from one of the sections before jacketing. The test program for conductor and joint includes DC performance, cyclic load and AC loss, with a large number of voltage taps and Hall sensors for current distribution. At high operating current, the DC behavior is well below expectations, with temperature margin lower than specified in the ITER design criteria. The conductor without wraps has higher tolerance to current unbalance. The joint resistance is by far higher than targeted.Index Terms-Cable-in-conduit conductor, ITER, joint resistance, niobium-titanium, self-field induced quench.

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Test of the ITER central solenoid model coil and CS insert

Martovetsky

Michael

Minervini

et al. 2002

IEEE Trans. Appl. Supercond.

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Test Results of Two ITER TF Conductor Short Samples Using High Current Density Nb$_{3}$Sn Strands

Bruzzone

Bagnasco

Ciazynski

et al. 2007

IEEE Trans. Appl. Supercond.

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Test Results of Two European ITER TF Conductor Samples in SULTAN

Bruzzone

Bagnasco

Calvi

et al. 2008

IEEE Trans. Appl. Supercond.

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Four Nb 3 Sn conductor lengths were prepared according to the ITER TF conductor design and assembled into two SULTAN samples. The four lengths are not fully identical, with variations of the strand supplier, void fraction and twist pitch. Lower void fractions improve the strand support and increased twist pitches also lower the strand contact pressure but both tend to increase the AC loss and the lower void fraction also increases the pressure drop so that the mass flow rate in the strand bundle area of the cable is reduced.The assembly procedure of the two samples is described including the destructive investigation on a short conductor section to assess a possible perturbation of the cable-to-jacket slippage during the termination preparation.Based on the DC performance and AC loss results from the test in SULTAN, the impact of the void fraction and twist pitch variations is discussed in view of freezing the ITER conductor design and large series manufacture. A comparison with the former generation of conductors, using similar strands but based on the ITER Model Coil layout, is also carried out.The ITER specifications, in terms of current sharing temperature, are fulfilled by both samples, with outstanding results for the conductor with longer twist pitches.

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Roberto Zanino

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

Test Results of the ITER PF Insert Conductor Short Sample in SULTAN

Test of the ITER central solenoid model coil and CS insert

Test Results of Two ITER TF Conductor Short Samples Using High Current Density Nb$_{3}$Sn Strands

Test Results of Two European ITER TF Conductor Samples in SULTAN

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