A steam plasma from regular water.
1 H2O+TU->2H++O2++4e- the plasma splits the water molecules into ions and electrons. TU=plasma turbulence
2 xH++e- ->(x+1)n0 we form strings of neutrons
3 16O+4n0->6n0+2e- fission the oxygen inot hydrogens and neutrons
4 H++rn0 ->Er3+L+X-ray our big energy release
A 50x1cm steam plasma tube at 4 atmospheres releases a constant 1.2MW of heat. From 10-12cc per year. A 1m row of gas or oil burner burns 200,000L of oil annually.
A steam plasma gets through 10-9cc of regular water, per MW. An oil burner re;eases just 45kW.
So if we condense the used steam on the cold end of a Carnto heat pump, just 9 of tehse tube will geneerate a constant 100mW. From 9x10-9cc of regular water.
We need regular glass tubes, sat in a water take. Below the hot fire tubes from the Carnot heat pump. Thinking on, use the Carnot heat pump, to keep the water in a state of boiling.
Use the steam plasma tubes to heat the steam to above 1,000oC. I would favour ceramic turbnie blades – that have the required strength, and are a lot cheaper than Titanium ones.
They will operate happily above 1,400oC – where Nimonic blades have given out. But the best idea is for each village to generate its own power, using 1 steam plasma tube. And save of the 5% transmission losses from large power plants.
We get 72kW of power – enough for 9 houses. Factories only want 20KW. So they sell their excess power, and get a cheque from the national grid for 165,000 every year.
So carbon 0 power, without an Fossil Fuels burn. No hyper toxic uranium nuclear power: a process so toxic, every plant needs insurance of 100 billion a plant: they have no insurance above 1 billion – so ALL nuclear power illegal.
So no CO2 – plant food, not ever NOx – plant fertiliser.