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A Simpler Path to Fusion: The Promise of Spherical Tokamak Technology
Scitech Daily ^ | August 9, 2024 | Princeton Plasma Physics Laboratory

Posted on 08/09/2024 5:49:27 AM PDT by Red Badger

An artist’s metaphoric depiction of a fusion plasma in a microwave, with a toaster in the background. Credit: Kyle Palmer / PPPL Communications Department

Carving a new path forward for compact fusion vessels.

Some experts believe that the future of fusion in the U.S. may be found in compact, spherical fusion vessels. A smaller tokamak is seen as a potentially more economical solution for fusion energy. The challenge lies in fitting all necessary components into a limited space. Recent research indicates that removing one key component used to heat the plasma could create the additional space required.

Scientists at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL), the private company Tokamak Energy, and Kyushu University in Japan have proposed a design for a compact, spherical fusion pilot plant that heats the plasma using only microwaves. Typically, spherical tokamaks also use a massive coil of copper wire called a solenoid, located near the center of the vessel, to heat the plasma. Neutral beam injection, which involves applying beams of uncharged particles to the plasma, is often used as well. But much like a tiny kitchen is easier to design if it has fewer appliances, it would be simpler and more economical to make a compact tokamak if it has fewer heating systems.

The new approach eliminates ohmic heating, which is the same heating that happens in a toaster and is standard in tokamaks. “A compact, spherical tokamak plasma looks like a cored apple with a relatively small core, so one does not have the space for an ohmic heating coil,” said Masayuki Ono, a principal research physicist at PPPL and lead author of the paper detailing the new research. “If we don’t have to include an ohmic heating coil, we can probably design a machine that is easier and cheaper to build.”

Identifying the ideal beam angle and heating mode

Microwaves are a form of electromagnetic radiation that can be generated using a device known as a gyrotron. The gyrotrons would sit on the outside of the tokamak — metaphorically speaking, just outside the apple skin — aimed toward the core. As the gyrotrons emitted powerful waves into the plasma, they would generate a current by moving negatively charged particles known as electrons. This process, known as electron cyclotron current drive (ECCD), both drives a current in and heats up the plasma. The heating process is not as simple as just turning on some gyrotrons, however. The researchers need to model different scenarios and determine various details, such as the best angle to aim the gyrotrons so the microwaves penetrate the plasma properly.

Using a computer code called TORAY coupled with one called TRANSP, the team scanned the aiming angles and saw what gave the highest efficiency. The goal is to use as little power as possible to drive the necessary current. “Also, you have to try to avoid any of the power that you’re putting into the plasma coming back out,” said Jack Berkery, a co-author on the paper and the deputy director of research for the National Spherical Torus Experiment-Upgrade (NSTX-U). This can happen when the microwaves are reflected off the plasma or when they enter the plasma but exit without changing the plasma’s current or temperature. “There were a lot of scans of different parameters to find the best solution,” Berkery said.

The research team also determined which mode of ECCD would work best for each phase of the heating process. There are two modes: ordinary mode, known as O mode, and extraordinary mode, known as X mode. The researchers see X mode as the best fit for ramping up the temperature and current of the plasma, while O mode is the best choice after the ramp-up, when the plasma temperature and current simply need to be maintained.

“O mode is good for a high-temperature, high-density plasma. But we found that O mode efficiency becomes very poor at lower temperatures, so you need something else to take care of the low-temperature regime,” said Ono.

Considering the impact of impurities

The authors, including postdoctoral researcher Kajal Shah, also investigated how power would radiate away from the plasma. Such radiation could be significant in a plasma as big as one needed for commercial fusion. Luis Delgado-Aparicio, the Lab’s head of the Advanced Projects Department and a co-author on the paper, notes that it will be particularly important to minimize the number of impurities from elements with a high atomic number, which is also known as a Z number, in the periodic table. Those are the elements with many positively charged particles, known as protons. The more protons an element has, the higher its Z number and the more it can contribute to heat loss. Tungsten and molybdenum, for example, have Z numbers, so their use inside a compact spherical tokamak would need to be carefully considered with an eye toward running the reactor in ways that would reduce impurity transfer into the plasma.

While the strong magnetic fields largely confine the plasma inside a tokamak in a particular shape, sometimes plasma can come close to the interior walls of the tokamak. “When this happens, atoms from the walls can sputter off and enter the plasma, cooling it,” said Delgado-Aparicio. “Even a relatively small amount of an element with a high Z number can cause the temperature of the plasma to cool significantly.” So, it is particularly important to keep impurities out of the plasma — as much as possible — particularly while the temperature is still ramping up.

Private-public partnerships: The future of fusion

The heating simulations are part of a design project known as the Spherical Tokamak Advanced Reactor or STAR. The project is a strategic initiative to develop plans for a pilot power plant. Berkery said the project provides PPPL researchers with an opportunity to apply their expertise in physics, engineering, and working with the computer codes for fusion simulations while working in partnership with private firms on their plans for fusion power plants with a spherical tokamak design.

Vladimir Shevchenko, a co-author on the paper and a senior technical adviser at Tokamak Energy, said he plans to run experiments at the end of next year in the company’s fusion vessel, ST40, to compare to the simulation results presented in the paper. “Other heating systems have very, very serious problems,” Shevchenko said. “I see this as the future for tokamak heating systems.”

Shevchenko thinks the project benefits from the public-private partnership between PPPL and Tokamak Energy, one of the companies selected for the DOE milestone-based fusion development program. “PPPL has a lot of experienced specialists in different areas related to plasma physics and tokamak technologies. Their contribution in terms of modeling and advising is very valuable for a private company like Tokamak Energy,” he said.

Reference:

“Efficient ECCD non-inductive plasma current start-up, ramp-up, and sustainment for an ST fusion reactor” by M. Ono, J.W. Berkery, N. Bertelli, S. Shiraiwa, L. Delgado-Aparicio, J.E. Menard, Á. Sánchez-Villar, K. Shah, V. Shevchenko, H. Idei and K. Hanada, 19 June 2024, Nuclear Fusion.

DOI: 10.1088/1741-4326/ad556f

Other PPPL researchers on this project include Nicola Bertelli, Syun’ichi Shiraiwa, Jon Menard and Álvaro Sánchez Villar. This research was completed with funding from the DOE under contract number DE-AC02-09CH11466.


TOPICS: Business/Economy; History; Military/Veterans; Travel
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Made by Samsung?................

1 posted on 08/09/2024 5:49:27 AM PDT by Red Badger
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To: SunkenCiv

Ping!.....................


2 posted on 08/09/2024 5:49:56 AM PDT by Red Badger (Homeless veterans camp in the streets while illegals are put up in 5 Star hotels....................)
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To: Red Badger

An artist’s metaphoric depiction.

Tells me all I need to know.


3 posted on 08/09/2024 5:52:38 AM PDT by riverrunner
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To: Red Badger

By Ronco ... It slices, it dices, makes thousands of Julianne Fries !!!


4 posted on 08/09/2024 5:55:27 AM PDT by Lmo56 (If y ...a wanna run with the big dawgs - ya gotta learn to piss in the tall grass ...)
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To: riverrunner

Just add money................


5 posted on 08/09/2024 5:57:50 AM PDT by Red Badger (Homeless veterans camp in the streets while illegals are put up in 5 Star hotels....................)
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To: Lmo56

Makes and bakes!


6 posted on 08/09/2024 6:01:37 AM PDT by shotgun
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To: Red Badger

It is nearly common knowledge that microwaves excite H20 molecules, but apparently they can be used to heat other substances as well. I started skimming before half way through the article because TLDR and ADHD, but I am wondering if they would need to feed a substance into the plasma or if it perpetually remains static and useful as long as you are providing energy into the emitter system.


7 posted on 08/09/2024 6:02:36 AM PDT by z3n (Kakistocracy)
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To: Red Badger

Oh, oh...say goodbye to Venn diagrams and yellow school buses.
Hello to tokamak fusion plasma.


8 posted on 08/09/2024 6:10:05 AM PDT by ryderann
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To: z3n

Every element has a natural resonant frequency.

Generate that frequency and the substance will absorb the energy, its electrons will be raised to higher and higher levels until the Weak Atomic Force is overcome and they can be manipulated with magnetic controls................


9 posted on 08/09/2024 6:10:14 AM PDT by Red Badger (Homeless veterans camp in the streets while illegals are put up in 5 Star hotels....................)
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To: All

My wife would cook the fusion for like 15 seconds and say it was done perfectly, while I’d put it in for like 5 minutes and 30 seconds to bring it to a piping hot bowl of delicious lava.


10 posted on 08/09/2024 6:19:49 AM PDT by mmichaels1970
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To: z3n

They seem really bothered about losing heat. What are they gonna use to generate electricity from the reaction?


11 posted on 08/09/2024 6:24:41 AM PDT by glorgau
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To: glorgau

heating steam to generate mechanical force to create electricity is the old standby model. But ideally, wouldn’t you prefer to insulate the heat?


12 posted on 08/09/2024 6:32:18 AM PDT by z3n (Kakistocracy)
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To: Red Badger

few things are more compelling than an artist’s metaphoric depiction of something. such have been used successfully to raise countless sums of investment over the course of history.


13 posted on 08/09/2024 6:38:07 AM PDT by xoxox
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To: glorgau

Well, the plasma needs to be heated to very high temperature to start the fusion. Once it starts, it should generate a lot of energy.
Fusion is how Sun generates its energy. Fusing Hydrogen into Helium has incredible energy potential, gallon of water has potential energy of 660 gallons of gas. Clean energy, And even Helium is useful, we now have a big shortage of it!
We could burn oceans for a vey long time. Forget the windmills, solar, coal and gas.
But it is tricky to control.


14 posted on 08/09/2024 6:38:51 AM PDT by AZJeep
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To: Red Badger

How long have they been promising use a Fusion Future(TM)?


15 posted on 08/09/2024 6:39:03 AM PDT by Tom Tetroxide
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To: Red Badger

Promises... Promises... Promises...


16 posted on 08/09/2024 6:39:34 AM PDT by SuperLuminal ( Where is Samuel Adams when we so desperately need him)
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To: Red Badger

So you can use a nuclear-powered microwave to power your toaster? Cool.


17 posted on 08/09/2024 7:11:42 AM PDT by Blurb2350 (posted from my 1500-watt blow dryer)
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To: Red Badger

Lyndon La Roche........ is that you


18 posted on 08/09/2024 7:23:30 AM PDT by bert ( (KE. NP. +12) Where is ZORRO when California so desperately needs him?)
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To: Tom Tetroxide

But now it’s only 20 years away.


19 posted on 08/09/2024 7:24:43 AM PDT by HartleyMBaldwin
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To: bert

Lyndon La Roche/Mr. Fusion?????????.........


20 posted on 08/09/2024 7:33:07 AM PDT by Red Badger (Homeless veterans camp in the streets while illegals are put up in 5 Star hotels....................)
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