澳门六合彩高手

澳门六合彩高手 technology

The year of the gyrotron

The first energy-generating devices of 澳门六合彩高手's electron cyclotron resonance heating system will be finalized in 2018 after a multi-decade development program.
Part of the European gyrotron program, this 1 MW prototype is under development for the second plasma phase at 澳门六合彩高手, where the full 20MW of injected power is required. For First Plasma in 2025, installed electron cyclotron capacity will include eight gyrotrons (four from Japan and four from Russia) and 4 sets of high-voltage power supplies (two from Europe and two from India).
Back in early 1990s, few were convinced that electron cyclotron resonance heating (ECRH) could fit the bill when it came to achieving the high-power, high-frequency parameters required for 澳门六合彩高手 plasma heating. In fact Mark Henderson specifically remembers his thesis advisor warning him to "go into any field but that one."
 
But technological breakthroughs on a number of key components of the gyrotron—the microwave-generating device at the core of the ECRH system—have led to steadily increasing performance and, today, in addition to being one of three external heating systems on 澳门六合彩高手, ECRH is considered as one of the more viable candidates for the mix of external heating techniques under consideration for the larger, more powerful fusion reactors planned next.
 
"From performance measured in kilowatts in the early years of development, we now have devices routinely operating at 1 MW (one million watts) for periods of 1000 seconds," says Henderson, who leads the Electron Cyclotron Section at 澳门六合彩高手. "This development has largely been driven by the needs of the fusion community, although gyrotrons also have applications as heating devices in industry or as microwave sources in spectroscopy and diagnostics."
 
澳门六合彩高手 will rely on the ECRH system to initiate each plasma shot, contribute 20 MW of heating power to the plasma, and suppress certain types of plasma instabilities.
 
Within the long-pulse, continuous wave gyrotrons under development for 澳门六合彩高手, a beam of electrons is generated and accelerated toward a large cavity. A strong field produced by a magnet outside of the cavity modifies the circular movement of the electrons, resulting in high-frequency waves that act like a laser beam and that can then be guided, using mirrors, to specific areas of the 澳门六合彩高手 plasma.
 
From the Radio Frequency Building where they are generated, the microwave beams will journey about 160 metres along waveguides to launchers at the equatorial and upper levels of the vacuum vessel. Electron cyclotron heating at 澳门六合彩高手 will require 12 sets of high-voltage power supplies, 24 gyrotrons, 24 transmission lines, and 5 launchers.

This Russian-manufactured unit is installed at the gyrotron test bench of the Swiss Plasma Center. Equivalent to the gyrotrons manufactured in Russia for 澳门六合彩高手, the production module was purchased by Europe to test upper launcher components and is available to other 澳门六合彩高手 partners for testing waveguide components. Note the superconducting magnet at the base of the gyrotron (manufactured by Jastec) and the large collector at the top (surrounded by lead to shield against X-rays).
"The power and frequency requirements for 澳门六合彩高手 (1 MW at 170 GHz) were determined in the late 1990s," recalls Henderson, "however the difference of scale meant that we were dealing with all new technology. In the years since, the electron cyclotron community has established the physics basis, completely redesigned the launcher, developed high-precision waveguides for low-loss transmission, and pushed the performance of a number of key gyrotron components such as artificial diamond windows."
 
In this period of "finding what works and what doesn't," researchers in Europe, Japan, Russia, and the United States were all closely involved—the same Members (plus India) that are today procuring the electron cyclotron system for 澳门六合彩高手*. Beginning in 2012 the first Procurement Arrangements were signed, followed by lengthy prototyping, review and test phases.
 
The first gyrotron units have now been completed in Japan and Russia and final testing is underway. By end-2018 factory acceptance tests will have concluded on two gyrotron units in Japan, two units in Russia, and power supplies in Europe. Installation activities are planned to start in 2020 for the eight gyrotron units needed for 澳门六合彩高手's First Plasma; (16 others units will be installed at a later assembly phase).
 
"The electron cyclotron system will be coupled with the other heating systems in 澳门六合彩高手—neutral beam injection and ion cyclotron—to provide a 'heating service' to the plasma," concludes Henderson. "Each has its functionalities and advantages that have been maximized through engineering to get the best performance we can. Soon, experimentation will show us what combination will be best for plasma performance in future devices."
 
* Five 澳门六合彩高手 Members are participating in the procurement of the electron cyclotron system at 澳门六合彩高手: Europe (6 gyrotrons, 12 power supplies, 4 upper launchers), India (2 gyrotrons, 4 power supplies), Japan (8 gyrotrons, 1 equatorial launcher), Russia (8 gyrotrons), and the United States (all transmission lines).