The design of the W7-X fusion device overcome obstacles, The main obstacle to thermonuclear devices, called star twisting devices that want to use earth-based thermonuclear reactions to feed the sun and stars, is their limited ability to retain the heat and plasma power that supplies these reactions.
The joint study now shows that the Wendelstein 7-X (W7-X) facility at Greifswald, the largest and most sophisticated star-built facility of all time, has shown an important step to overcome this problem.
The state-of-the-art facility, which was built and placed at the Max Planck Institute for Plasma Physics with PPPL as the main contribution of the US, is intended to improve the performance and stability of plasma, heat, material consisting of free electrons and nuclei or atoms. which makes up 99 percent of the visible universe. The design of the W7-X fusion device overcome obstacles.
The synthesis reaction synthesizes ions to release a large amount of energy. This process is said to be generated and controlled by scientists on Earth to produce energy that is safe, clean, and practically unlimited and produces electricity for all humanity.
A recent study by W7-X aims to determine whether the design of modern facilities can stem the release of heat and particles from the plasma core, which has long delayed the development of stars.
His work confirms an important aspect of the results. This study, combined with the results of a book received by Max Planck physicist, Sergei Bozhenkov, and documents verified by institute physicist Craig Baidler, shows that modern design actually reduces leakage. The design of the W7-X fusion device overcome obstacles.
The results show us that we first saw our target physical regime much earlier than expected, “said Max Planck physicist Andreas Dinkage.
Leaks, referred to as “transportation”, are a common problem with sterilization and the most common thermonuclear device, the tokamak, which has traditionally been better at solving problems.
Two conditions produce transport in this device which limits plasma in the magnetic field around where the particles circulate.
W7-X Stellator developers try to reduce neoclassical transport by carefully forming complex three-dimensional magnetic coils that produce limited magnetic fields. The design of the W7-X fusion device overcome obstacles.
To test the effectiveness of the design, the researchers examined additional aspects of the design.
Pablant notes that the measurement of plasma behavior in previous experiments with W7-X is in accordance with predictions for code development.
Bozhenov examined the experiment in detail and Beidler linked leak control to the sophisticated design of the stator.
This study confirms predictions of how well the optimized W7-X design will reduce neoclassical transportation, “Pablant said. In comparison, he added that non-optimized sterilization performed very poorly in controlling the problem.” The design of the W7-X fusion device overcome obstacles.
Another advantage of the optimized design is that it shows where most of the transportation in the W7-X stellator comes from. This allows us to determine how much heavy transportation is carried out in the plasma core, the researchers said.
This study is the first step to show that the design of high-performance stellators such as W-7X is an attractive way to make clean and safe fusion reactors.