Fusion Power By 2020? Researchers Say Yes and Turn To Crowdfunding.

Luminary Crush (109477) writes "To date, the bulk of fusion research has been channelled towards a plasma containment and stabilization method. This is the approach used by ITER's tokamak reactor, the cost of which could exceed US$13.7 billion before it's online in the year 2027 (barring further delays). Researchers at LPP Fusion, in a project partially financed by NASA-JPL, are working in a different direction: focus fusion, which focuses the plasma in a very small area to produce fusion and an ion beam which could then be harnessed to produce electricity. It is small enough to fit in a shipping container, can double as a rocket engine, and would cost US$50 million to produce the working 5 MW prototype. To reach the next hurdle and demonstrate feasibility, LPP Fusion has started an Indiegogo campaign to raise $200K."

I'd not trust the authors too much.

The article states that operations are to begin at ITER in 2027. This is actually the date where ITER will be operated using a Tritium and Deuterium plasma, as opposed to a Deuterium only plasma. Nearly all tokamak experiments currently undertaken are using Deuterium-only plasmas to investigate how the devices operate. Adding Tritium to the mix means that a Tokamak can reach fusion temperatures, but it requires extremely delicate handling. A Tritium plasma is safe, but it's important to keep track of all of it (and that includes losses to the vacuum vessel of the tokamak, we really don't want any going missing!).

Plasma experiments are set to begin in ITER much earlier, with a `first plasma' date in November of 2020 using a Deuterium plasma. It should not be understated what we can gain from experiments using a Deuterium-only (which means no fusion) plasma. ITER will be used in this manner for several years, while we gain better understanding of plasma physics on these scales. When we have a good feel for the machine, then we will start to produce fusion with a `DT' (Deuterium-Tritium) plasma.

I'm very busy right now and have only had a cursory glance at the article, but I'm reading things such as `Moreover, because the end product of the reaction is moving charged particles, those can be converted into electricity directly', and thinking that at least the writers do not have a detailed knowledge of plasma physics. Tokamak power plants would use the energy of the 14MeV neutron produced by the DT fusion reaction to heat water to steam and generate it directly. `Moving charged particles' is just a plasma, just like in a flurorescent light bulb. You can make a current out of it, but not electricity.

This was tried 35 years ago

[InterGuru]

This was tried as the Trisops Project 35 years ago but lost funding because all of the fusion energy project's focus was on the Tokamak.

Trisops was an experimental machine for the study of magnetic confinement of plasmas with the ultimate goal of producing fusion power. The configuration was a variation of a compact toroid, a toroidal (doughnut-shaped) structure of plasma and magnetic fields with no coils penetrating the center. It lost funding in its original form in 1978.
The configuration was produced by combining two individual toroids produced by two conical pinch guns, located at either end of a length of Pyrex pipe with a constant magnetic guide field. The toroidal currents in the toroids were in opposite directions, so that they repelled each other. After coming to an equilibrium, they were adiabatically compressed by increasing the external field.

Disclosure: I was an author on the paper and of the referenced Wikipedia article;