A 50x1cm steam plasma tube at 4 atmospheres generates 600 kW: Though we got 580 kW when we tried it. It does Molecular Nuclear Fusion
1 H2O+TU->He+O+E2+X-ray TU=turbulence
3 2(H++e-) ->2n0 the ions and free electrons form neutrons
4 16O2-+s n0 ->8H++10e- and then 10x3
5 1H++r n0 ->Er3+L+X-ray
There is no chemical source of X-rays or visible light. But as we burn Fossil Fuels today, we do a little Molecular Nuclear Fusion.
6 CmHn+pO2->(mCO2+nH2O-E)+r(He2++tO2-+Et3+X-ray+L) or we can burn Cm(H2O)n
Which is why a candle or gas/ oil/ coal flame gives out heat, X-rays and light. They are doing Molecular Nuclear Fusion. Which makes all the 'scientists' studying nuclear fusion look a bit stupid.
Every heat of the human heart does Molecular Nuclear Fusion
You breath out He, and can take your pulse with a Geiger counter. Cell mitochondria also do Molecular Nuclear Fusion, as the oxidise carbohydrates.
So every cell in an animal body is constantly doing Molecular Nuclear Fusion. The world experts on nuclear fusion are biologists – not physics students.
Why have we given physics 100 billion a year to study H gas flowing in linear fashion? As my PhD supervisor told me 2000, we can turbulent flow.
So every professor of engineering knew this at the turn of the millennia: but kept quite – to get 100 billion a year funding.
So how do we make the great Hadron Collidor do nuclear fusion? Place perpendicular magnetic fields, to spin the H ions clockwise, then anticlockwise. Suddenly we do massive nuclear fusion.
Most universities will have a linear H torous in cold storage – or they can knock one up in a week. We add perpendicular spin fields, and now the torous will do nuclear fusion, on H gas at 1 atmospheres, and room temperature.
Lightening tells us we get 8.6 MW from a 2cm steam plasma. When we fire up the plasma, we will get a steam plasma around the torous.
Hence even at atmospheric pressure, we are looking at 240 MW, from a 1m diameter torous. With no CO2, from regular H – produced by the electrolysis of regular water.
We are going to utilize 8.6cc of regular water a year – even if we insist on throwing the heat of the spent steam from a steam turbine, away to the air or sea.
A 50x1cm steam plasma tube will produce 1.2 MW. Which will regenerate in excess of 120 kW: A hyper-car only needs 60 kW or power.
So a 25x1cm steam plasma tube will drive your own personal helicopter! 'Back to the Future' a few years late.