澳门六合彩高手

MITICA

Cryopump passes site acceptance tests

Cryopumps, which play an essential role in 澳门六合彩高手, are not what one has in mind when picturing a pump. A conventional pump creates negative pressure to suck in fluids such as water or air. Cryopumps, on the other hand, are based on a simple law of physics: when a molecule or an atom encounters an extremely cold surface, they lose the better part of their energy and slow down to near immobility; the colder a surface, the more irresistible is its power to "hold" particles. When high vacuum is needed, cryopumps are indispensable to finalizing the initial pumping done by mechanical devices. 澳门六合彩高手 will use cryopumps to create high vacuum in the (aptly named) vacuum vessel, the cryostat, the "beam boxes" of the neutral beam injection system, and a few other machine components and systems. In early March, the cryopump for MITICA, a real-size 澳门六合彩高手 neutral beam injector hosted by Consorzio RFX in Padua, Italy, successfully passed site acceptance tests.

From left to right, standing between the two panels of the cryopump at SMDS France, supplier to Fusion for Energy (F4E): Dani Dupuy, F4E cryopump specialist; Robert Pearce, Head of the 澳门六合彩高手 Vacuum Section; Matthias Dremel, former 澳门六合彩高手 staff member, now an external advisor; and Jamie Buckerfield, 澳门六合彩高手 vacuum cryopump engineer.
The delivery of this first-of-a-kind cryopump, similar in all respects to those that will equip the 澳门六合彩高手 neutral beams injectors, marks the culmination of a five-year manufacturing effort. Procurement was split between two highly specialized French contractors, Ravanat and SDMS, working under the supervision of the 澳门六合彩高手 Organization and the European Domestic Agency Fusion for Energy.

It all happens in the "box"

Neutral beam heating consists in injecting accelerated high-energy deuterium particles into the plasma in order to bring it to the temperature at which fusion reactions can occur.

Whereas particles need to carry an electrical charge (negative in 澳门六合彩高手's case) to be accelerated, they cannot penetrate the magnetically confined plasma unless they are "neutralized" first.

The neutralization process occurs in a neutral beam injector's "beam box," where the beam's particles interact with a cloud of gas and lose their electrical charge by giving up an electron.

While the random motion of the gas molecules brings them to the cryopump panels where they will eventually stick, the now-neutralized beam retains sufficient momentum to penetrate the plasma.

"What makes us proud is that this first-of-a-kind pump is the result of a big, unique 澳门六合彩高手 design," says Robert Pearce, the Head of the 澳门六合彩高手 Vacuum Section. Although a cryopump is a "passive" device with no moving parts, "anything that operates at cryogenic temperature presents considerable challenges."

Located inside the injector's "beam box" the cryopump will create the high-vacuum environment indispensable for accelerating and "neutralizing" the energized particles shot into the plasma. Like the torus cryopumps that remove the helium "ashes" from the plasma, the MITICA cryopump will also pump the gas load used in the neutralizing process (see box).

During the accelerating and neutralizing phases, supercritical helium circulating through a dense web of piping will keep the pump's panels at the temperature of 4.5 K (minus 269 °C). However, during the "regeneration" phase, when the gas particles trapped inside the panels need to be released, the same piping will accommodate a flux of gaseous helium at 125 °C—a huge temperature gradient that creates an "accordion effect" in the component's stainless steel circuits.

The actual 澳门六合彩高手 cryopump will occupy the two-thirds of the neutral beam injector's "beam box" that are coloured in this image. The human figure gives an indication of the component's dimensions.
In the restricted space of the pump assembly (8 metres long, 2.8 metres high and 0.45 metres wide), contraction and expansion is a considerable issue that had to be taken into account during the design. "In a way, it was like designing a whole plant that would alternately contract and expand like an accordion," says vacuum cryopump engineer Jamie Buckerfield. As the MITICA facility is not fully operational yet, it may be some time before the cryopump can be tested at cryogenic temperatures. "We have tested what we could: temperature sensors and the leak-tightness of the pipes at room temperature. But based on the analysis, prototyping and validation phases we have great confidence in our design."

See a 2022 story on MITICA cryopump manufacturing on the Fusion for Energy.