Dynomak is a

spheromak A spheromak is an arrangement of plasma formed into a toroidal shape similar to a smoke ring. The spheromak contains large internal electric currents and their associated magnetic fields arranged so the magnetohydrodynamic forces within the s ...

fusion reactor Fusion power is a proposed form of power generation that would generate electricity by using heat from nuclear fusion reactions. In a fusion process, two lighter atomic nuclei combine to form a heavier nucleus, while releasing energy. Devices ...

concept developed by the

University of Washington The University of Washington (UW and informally U-Dub or U Dub) is a public research university in Seattle, Washington, United States. Founded in 1861, the University of Washington is one of the oldest universities on the West Coast of the Uni ...

using

U.S. Department of Energy The United States Department of Energy (DOE) is an executive department of the U.S. federal government that oversees U.S. national energy policy and energy production, the research and development of nuclear power, the military's nuclear we ...

funding.Michelle Ma
"UW fusion reactor concept could be cheaper than coal"
''

'', October 8, 2014Evan Ackerman
"Inside the Dynomak"
''

IEEE Spectrum ''IEEE Spectrum'' is a magazine edited and published by the Institute of Electrical and Electronics Engineers. The first issue of ''IEEE Spectrum'' was published in January 1964 as a successor to ''Electrical Engineering''. In 2010, ''IEEE Spe ...

'', November 26, 2014 A dynomak is a

that is started and maintained by

magnetic flux In physics, specifically electromagnetism, the magnetic flux through a surface is the surface integral of the normal component of the magnetic field B over that surface. It is usually denoted or . The SI unit of magnetic flux is the we ...

injection. It is formed when an

alternating current Alternating current (AC) is an electric current that periodically reverses direction and changes its magnitude continuously with time, in contrast to direct current (DC), which flows only in one direction. Alternating current is the form in w ...

is used to induce a

into plasma. An electric

transformer In electrical engineering, a transformer is a passive component that transfers electrical energy from one electrical circuit to another circuit, or multiple Electrical network, circuits. A varying current in any coil of the transformer produces ...

uses the same induction process to create a secondary current. Once formed, the plasma inside a dynomak relaxes into its lowest energy state, while conserving overall flux.Taylor, J. Brian. "Relaxation of toroidal plasma and generation of reverse magnetic fields." Physical Review Letters 33.19 (1974): 1139. This is termed a Taylor state and inside the machine what is formed is a plasma structure named a

. A dynomak is a kind of spheromak that is started and driven by externally induced magnetic fields.

Technical roots

Plasma is a

fluid In physics, a fluid is a liquid, gas, or other material that may continuously motion, move and Deformation (physics), deform (''flow'') under an applied shear stress, or external force. They have zero shear modulus, or, in simpler terms, are M ...

that conducts electricity, which gives it the unique property that it can be self-structured into

vortex ring A vortex ring, also called a toroidal vortex, is a torus-shaped vortex in a fluid; that is, a region where the fluid mostly spins around an imaginary axis line that forms a closed loop. The dominant flow in a vortex ring is said to be toroidal, ...

s (e.g.,

smoke ring A smoke ring is a visible vortex ring formed by smoke in a clear atmosphere. Smoking, Smokers may blow smoke rings from the mouth, intentionally or accidentally. Smoke rings may also be formed by sudden bursts of fire (such as lighting and i ...

like objects) which include field-reversed configurations and

s. A structured plasma has the advantage that it is hotter, denser and more controllable which makes it a good choice for a fusion reactor. But forming these plasma structures has been challenging since the first structures were observed in 1959 because they are inherently unstable. In 1974, Dr. John B Taylor proposed that a spheromak could be formed by inducing a magnetic flux into a loop plasma. The plasma would then relax naturally into a

also termed a Taylor state. This process worked if the plasma: * Conserved the total magnetic flux * Minimized the total energy Later, in 1979, these claims were checked by Marshall Rosenbluth. In 1974, Dr. Taylor could only use results from the ZETA pinch device to back up these claims. But, since then, Taylor states have been formed in multiple machines including: * ''Compact Torus Experiment'' (CTX) at

Los Alamos National Laboratory Los Alamos National Laboratory (often shortened as Los Alamos and LANL) is one of the sixteen research and development Laboratory, laboratories of the United States Department of Energy National Laboratories, United States Department of Energy ...

(LANL). The CTX ran from ~1979 to ~1987. It reached electron temperatures of 4.6 million kelvin ran for 3 microseconds and had a plasma to magnetic pressure ratio of 0.2. * ''Sustained Spheromak Physics Experiment'' (SSPX) at

Lawrence Livermore National Laboratory Lawrence Livermore National Laboratory (LLNL) is a Federally funded research and development centers, federally funded research and development center in Livermore, California, United States. Originally established in 1952, the laboratory now i ...

(LLNL) was a more advanced version of the CTX that was used to measure the relaxation process that led to a Taylor state. The machine ran from 1999 to 2007. * ''Caltech Spheromak Experiment'' at

California Institute of Technology The California Institute of Technology (branded as Caltech) is a private research university in Pasadena, California, United States. The university is responsible for many modern scientific advancements and is among a small group of institutes ...

(Caltech) was a small machine run by Dr. Paul Bellans’ lab, from ~2000 to ~2010. * ''Helicity Injected Torus-Steady Inductive'' (HIT-SI) at the University of Washington was run by Dr. Jarboe from ~2004 to ~2012. It was the precursor to the dynomak. The machine created 90 kiloamps of stable plasma current over a few (<2) microseconds, and demonstrated the first Imposed-Dynamo Current Drive (IDCD) in 2011. The IDCD breakthrough enabled Dr. Jarboes’ group to envision the first reactor-scale version of this machine; named the dynomak. The dynomak evolved from the HIT-SI experiment. HIT-SI went through several upgrades: the HIT-SI3 (~2013 to ~2020) and HIT-SIU (post ~2020), both were variants on the same machine. These machines demonstrated that an inductive current can be used to make and sustain a spheromak plasma structure.

Magnetic induction drive

By definition, a dynomak is a plasma structure that is started, formed, and sustained using magnetic flux injection. Electric

s use a similar process; a magnetic flux is created on the primary loop, and this makes an alternating current on the secondary side. Because of Faraday's law of induction, only a ''changing'' magnetic field can induce a secondary current – this is why a direct current transformer cannot exist. In a dynomak, magnetic induction is used to create a plasma current inside a plasma filled chamber. This gets the plasma moving and the system eventually relaxes into a Taylor state or

. The relaxation process involves the flow of

magnetic helicity In plasma physics, magnetic helicity is a measure of the linkage, twist, and writhe of a magnetic field. Magnetic helicity is a useful concept in the analysis of systems with extremely low resistivity, such as astrophysical systems. When resistiv ...

(a twist in the field lines) from the injectors into the center of the machine.Fisch, Nathaniel J. "Theory of current drive in plasmas." Reviews of Modern Physics 59.1 (1987): 175 Supporters of this heating approach have argued that induction is 2-3 orders of magnitude more efficient than

radio frequency Radio frequency (RF) is the oscillation rate of an alternating electric current or voltage or of a magnetic, electric or electromagnetic field or mechanical system in the frequency range from around to around . This is roughly between the u ...

(RF) or neutral beam heating.Jarboe, T. R., et al. "Recent results from the HIT-SI experiment." Nuclear Fusion 51.6 (2011): 063029 If this is true, it gives a dynomak several distinct advantages over other fusion approaches like

tokamak A tokamak (; ) is a device which uses a powerful magnetic field generated by external magnets to confine plasma (physics), plasma in the shape of an axially symmetrical torus. The tokamak is one of several types of magnetic confinement fusi ...

s or

magnetic mirror A magnetic mirror, also known as a magnetic trap or sometimes as a pyrotron, is a type of magnetic confinement fusion device used in fusion power to trap high temperature Plasma (physics), plasma using magnetic fields. The mirror was one of the e ...

s. But this is an open area of research; below are some examples of how effective inductive drive is in creating plasma current inside a dynomak. A dynomak uses injectors, which are curved arms that are attached to the main chamber. An alternating current is applied around the curve of these arms, which creates the

that drives a dynomak. The University of Washington experimented with two and three numbers of injectors. The

phase Phase or phases may refer to: Science *State of matter, or phase, one of the distinct forms in which matter can exist *Phase (matter), a region of space throughout which all physical properties are essentially uniform *Phase space, a mathematica ...

of the alternating current is offset to allow continuous injection of flux into a dynomak. Injector count effects offset angle: The drive current, and thus injectors, are offset by 90 degrees with two injectors, and by 60 degrees with three injectors.

Advantages

plasma structure forms naturally, with no added technology needed. Supporters argue that this gives dynomaks several inherent advantages, including: * It may avoid the kink, interchange, and other plasma instabilities that normally plague plasma structures. For this reason, a dynomak may be able to pressurize and heat a plasma up to the Mercer limit on beta number. If true, this could ultimately shrink a reactor relative to other fusion approaches. * An inductive drive can be 2-3 orders of magnitude more efficient than heating via RF or neutral beam. This is an open area of research. * A dynomak may need no added heating hardware such as neutral beam injection. * A dynomak has no central

solenoid upright=1.20, An illustration of a solenoid upright=1.20, Magnetic field created by a seven-loop solenoid (cross-sectional view) described using field lines A solenoid () is a type of electromagnet formed by a helix, helical coil of wire whos ...

, in contrast to a tokamak, lowering mass, cost, and operating power needs for a reactor. As of 2014 plasma densities reached 5x10¹⁹ m⁻³, temperatures of 60 eV, and maximum operation time of 1.5 ms. No confinement time results were available. At those temperatures, fusion, alpha heating, or neutron production do not occur.

Commercialization

Once the technical principals were proven in the HIT-SI machine, Dr. Jarboe challenged his students in a University of Washington class to come up with a fusion reactor based on this approach. The students designed the dynomak as a reactor-level power plant that built on discoveries made from the HIT-SI and earlier machines. Eventually, these students formed CT Fusion as a spin off from the University of Washington, to commercialize the dynomak in 2015. The company has exclusive rights to 3 University of Washington patents and raised over $3.6 million from 2015 to 2019 in public and private funding. The acronym CT stands for Compact Toroid, which is what spheromaks were referred to for decades. The company has received funding as part of an Advanced Research Projects Agency – Energy (

ARPA-E ARPA-E, or Advanced Research Projects Agency–Energy is an agency within the United States Department of Energy tasked with funding the research and development of advanced energy technologies. The goal of the agency is to improve U.S. economic ...

) funding award for fusion. CT Fusion shut down in 2023. Unlike other fusion reactor designs (such as

ITER ITER (initially the International Thermonuclear Experimental Reactor, ''iter'' meaning "the way" or "the path" in Latin) is an international nuclear fusion research and engineering megaproject aimed at creating energy through a fusion process s ...

), a dynomak can be, according to its engineering team, comparable in costs to a conventional

coal plant A coal-fired power station or coal power plant is a thermal power station which burns coal to generate electricity. Worldwide there are about 2,500 coal-fired power stations, on average capable of generating a gigawatt each. They generate ab ...

. A dynomak is calculated to cost a tenth of ITER and produce five times more energy at an efficiency of 40 percent. A one gigawatt dynomak would cost US$2.7 billion compared to US$2.8 billion for a coal plant.

Design

Dynomak incorporates an ITER-developed cryogenic pumping system. Spheromak use an oblate

spheroid A spheroid, also known as an ellipsoid of revolution or rotational ellipsoid, is a quadric surface (mathematics), surface obtained by Surface of revolution, rotating an ellipse about one of its principal axes; in other words, an ellipsoid with t ...

instead of a

configuration, with no central core, or large, complex

superconducting magnet A superconducting magnet is an electromagnet made from coils of superconducting wire. They must be cooled to cryogenic temperatures during operation. In its superconducting state the wire has no electrical resistance and therefore can conduct much ...

s as in many tokamaks, e.g., ITER. The magnetic fields are produced by putting electric fields into the center of the plasma using superconducting tapes wrapped around the vessel, such that the plasma contains itself. A dynomak is smaller simpler and cheaper to build than a tokamak, such as ITER, while producing more power. The fusion reaction is self-sustaining as excess heat is drawn off by a

molten salt Molten salt is salt which is solid at standard temperature and pressure but liquified due to elevated temperature. A salt that is liquid even at standard temperature and pressure is usually called a room-temperature ionic liquid, and molten salts ...

blanket to power a steam turbine. The prototype was about one tenth the scale of a commercial project, and can sustain plasma efficiently. Higher output would require larger scale, and higher plasma temperature.

Criticisms

A dynomak relies on a copper wall to conserve and direct the magnetic flux that is injected into the machine. This wall butts up against the plasma, creating the possibility of high conduction losses through the metal. The HIT-SI coated the inside of the copper wall with an aluminum-oxide insulator to reduce these losses, but this could still be a major loss mechanism if the machine goes to fusion reactor conditions.Sieck, P. E., et al. "First Plasma Results from the HIT-SI Spheromak." APS Division of Plasma Physics Meeting Abstracts. Vol. 45. 2003 Further, the injection of magnetic helicity into the field forces the machine to break the magnetic flux surfaces that hold and sustain the plasma structure. The breaking of these surfaces has been cited as a reason that a dynomaks' heating mechanism does not work as efficiently as predicted. Lastly, a dynomak has a complex chamber geometry, which complicates and presents challenges for maintenance and vacuum forming.

References

{{Fusion power Research projects Fusion power University of Washington