Making carbon neutral petrol and gas

C neutral gas and oil

Making a hydrocarbons is actually very simple.  As the 1912 noble prize told us, hydrogenating carbon dioxide produces hydrocarbons.

1 CO₂+2H₂+T→CH₄+O₂

The French scientist Sebatier came up with a science, as the world was using town gas: police for the heating oil coal.  Here we are producing methane - the natural gas so all the world now burns.

We need a source of electricity, so we fire of my trusty or steam plasma!  That produces carbon free heat.

2 H₂O+PL→E²+L...X-ray the X rays and light of low power, and of no consequence.

My American friend practically demonstrated that a 30x1.5cm steam plasma produce a constant 1 MW of heat.  The and pressure should have shut up from 1 to 10 atmospheres, as we apply the high voltage electronics from old fluorescent light, to fire up the plasma.

We run A small steam turbine and generate a carbon 0500 kilowatts of mains electricity.

We use some of this free electricity to run a car no refrigeration system, to condense carbon dioxide or to the air.  Photosynthesis caps global carbon dioxide around the temperate earth, it is two parts per million.

It's static trace level since 1880 - before the industrial revolution.  Carbon dioxide above the arctic ice In winter rises to four PPM as the air temperature falls to -50° C.  The idea of the late professor emeritus Bernard Argent.

We do the electrolysis of regular water, to get separate strains of hydrogen and oxygen gases.  Oxygen gas has a lot of commercial uses!  We makes the hydrogen with the carbon dioxide and heat to a 400° C and pass it through a tight aluminium helix.

Aluminium is cheap and simple to extruded.  The idea of using helical turbulence to speed up chemical reactions our heat flow, was that he told me by professor Z.  He gave me a lot of insights into molecular nuclear fusion.  Immediately before uranium nuclear power bought in the chair of Chemical Engineering and he lost interest in nuclear fusion.

So here we do the Sebatier equation.

3 CO₂+4H₂+pressure+(Al)→CH₄+2H₂O+(Al) ∆H = −165.0 kJ/mol

We could use any face centre cubic metal as a catalyst, but aluminium is the cheapest and easiest to extruded, into the professors tight helix.

We get out methane and water plus an reacted come dioxide and hydrogen: we use tissue paper to separate the an reacted gases out, and circle around,

We then call the exit gases and below 100° C the water precipitates.  And the -63° C.  Liquid natural gas has a massive value and here the methane was formed by sucking carbon dioxide as the air.

When you burn the gas, we just released that carbon dioxide.

4 CH₄+3O₂+P+spark→CO₂+(2-r)H₂O+r(He+O+E²+X-ray)

We note that burning natural gas releases heat, visible light and X rays.  There is no chemical source of visible light or X rays.  All helium gas!  So burning natural gas does molecular nuclear fusion.  QED

Which explains why uranium nuclear power is so scared of gas burning.  And has orchestrated the massive rises in gas prices.

But here we have a carbon neutral source of natural gas.  That's circulates the environmental carbon dioxide around.  It is not hard to the natural carbon dioxide level in the air.

Capped by global photosynthesis at just two PPM.  So professor Z taught me the importance of helical turbulence on hydrogen reaction rates.  But he does not want to have any dealings with nuclear fusion now!  He is a bought man - by uranium nuclear power.

A great shame, as he is one less intelligent people I've ever met!  Now IA undergraduates practical experiment, Kores set up the plant to produce natural gas - by sucking carbon dioxide as the air.

But his bosses within uranium nuclear power, would not allow them to work on such a useful life changing science.  Great shame!  But the noble prize from 1912 tells us a fine details of methane production.

To turn a methane into petrol, it is only necessary to pass it down four aluminium helixes.  That pollen rises the methane into higher carbon number fuel oil like petrol.

5 16CH₄+(Al)+TU→C₁₆H₃̀+H₂+(Al)+E

So a small chemical plant can easily turn out basically unlimited volumes of petrol and diesel oil.  All carbon neutral!  Formed by sucking carbon dioxide air to the air.  Only released as a fuel or oil is burnt.

This is not hard science!  And petrol prices also are highly today.  Chemical Engineering plants can turn out petrol for 2 P per liter, not the 1:98 charged a pumps!  So you get the three or oil and petrol.  All totally carbon neutral.