澳门六合彩高手

Divertor dome

Russia delivers a full-scale prototype

10 Jan 2022 - 澳门六合彩高手 Russia
A multiyear qualification program in Russia has concluded with the successful manufacturing and testing of a full-scale divertor dome prototype at the Efremov Institute in Saint Petersburg—one of the main suppliers of the Russian Domestic Agency.  At 澳门六合彩高手 it will enter the first divertor integration trials, where prototypes of all divertor components produced by Europe, Japan and Russia will be assembled for the first time.
This 1-tonne divertor dome full-scale prototype passed all factory acceptance tests in Russia before shipment, including the stringent hot helium leak test (three heating/pressure cycles (250oC; 4 MPa)). The tungsten tiles developed in Russia have demonstrated thermal resistance under cycling high thermal loads, typically, thousands of cycles at 5 and 10 MW/m?.
As ions and electrons in the plasma move along field lines created by the superconducting magnets of the tokamak, the impurities are pumped into the vicinity of the divertor strike points at the bottom of the vacuum vessel for evacuation and recycling. The precise tilting and shaping of the baffles and individual monoblocks (in dark blue, these are the tungsten tiles coating the plasma-facing elements) are critical to the performance of the divertor.
In a tokamak device, the divertor is the component at the base of the plasma chamber that extracts heat and ash produced by the fusion reaction, minimizes plasma contamination, and protects the surrounding walls from thermal and neutronic loads. The divertor is carefully engineered to withstand large heat and particle fluxes on its plasma-facing surfaces—the inner and outer vertical targets and the dome—while providing exhaust channels for the escaping material.

Arranged in a circle at the bottom of the vacuum vessel, the divertor is made up of 54 "cassette assemblies"—each one formed from an actively cooled structural backbone (the cassette body) in austenitic steel and copper alloy, plasma-facing elements covered in tungsten tiles and, for some cassettes, diagnostic systems. The vertical targets directly intercept the magnetic field lines and are designed to withstand heat fluxes as high as 20 MW/m?; the dome, located between the two divertor channels, may face heat fluxes up to 10 MW/m?.

The group of key people at the Efremov Institute involved in the procurement of the divertor dome.
In producing the full-scale dome prototype, engineers at the Efremov Institute of Electrophysical Equipment (JSC NIIEFA) had to learn how to master a series of technical operations (welding, machining, brazing the tungsten tiles) in full respect of extremely tight dimensional tolerances and leak tightness requirements. The tolerances are especially demanding on the plasma-facing surfaces and on the underside of the component, where the dome will be attached to the divertor cassette.

The dome prototype arrived at 澳门六合彩高手 in December 2021. The next qualification step will be to create the first divertor assembly by integrating the dome prototype and prototypes of the inner (European Domestic Agency, Fusion for Energy) and outer vertical targets (澳门六合彩高手 Japan) onto a full-scale prototype of the divertor cassette body (Fusion for Energy).

The dome prototype arrived at 澳门六合彩高手 on 14 December 2021. From left to right: Victor Komarov (澳门六合彩高手 Technical Responsible Officer); Radmir Giniiatulin (Divertor Section Leader); and David Aisa (澳门六合彩高手 CAD technician).
According to the machine assembly schedule, the 58 divertor dome units are expected on site between 2023 and 2027.