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During the high heat flux tests, the electron beam sweeps quickly over a given testing zone, like in old cathodic TV tubes, to heat the zone with a uniform pattern; to optimize the process, the beam jumps between two zones, working them simultaneously. The ten-second duration was selected in relation to the thermal time response of the plasma-facing units (1 to 2 seconds). In other words, after 10 seconds of beam exposure the surface temperature reaches steady-state temperature, defined as the equilibrium temperature at which the surfaces would remain if the exposure time were infinite.

 

The first full-scale prototype of the European inner vertical target qualification program had been delivered to the Russian Domestic Agency by the European Domestic Agency (from Italian firms Ansaldo Nucleare, Genoa, and ENEA, Frascati) for testing last autumn. Mounted on a curved steel support structure specifically designed for these tests, eight plasma-facing units armoured with 1,104 tungsten monoblocks were subjected to exhaustive performance tests aimed at the qualification of tungsten bonding technology. Two distinct surfaces had been marked out for the test campaign—a curved plasma-facing unit zone, also called a baffle (tested at 5 MW/m² for 5,000 cycles) and their straighter segments, called the targets (tested at 10 MW/m² for 5,000 cycles and 20 MW/m² for 300 cycles respectively). 

 

 

"To help people understand the intensity that this represents, there are two comparisons I like to use," says divertor engineer Andrey Fedosov. "On a summer day at the beach, the heat density reaching your skin is estimated at approximately 0.001 MW/m²—that's at least 10,000 times less. Or consider that 20 MW/m² is at least two times higher than the load sustained by a space shuttle re-entering Earth's atmosphere, and the aim is to sustain it in ������app during long minutes."

 

During a pre-qualification phase in Europe for the inner vertical target, multiple suppliers had fabricated and tested small-scale (~1/20th) mockups composed of tungsten monoblocks bonded to a copper alloy cooling tube. Now as a follow-up step, pre-qualified manufacturers are producing full-scale prototypes.

 

Preliminary analysis of the test results on the first prototype shows that the thermal performance of the plasma-facing units met expectations in the sense that no bonding imperfections above the acceptable threshold were observed during the long cycling experiment. 

 

"This is a major step toward the completion of the divertor inner target qualification phase that leads to series manufacturing," says Fedosov. "All tests were completed ahead of schedule thanks to a very strong collaboration between the ������app, the Russian team working at the test facility, Russian and European Domestic Agencies, and European suppliers."