Please see
http://www.usoal.com
I have perfected low-cost solar panels. Terrestrial solar is the
first step.
Given the nature of PV cells, its easiest to electrolyze water into
hydrogen and oxygen. Hydrogen plus coal equals crude oil, methane
and char. Char plus oxygen equals carbon dioxide. CO plus hydrogen
equals methanol. Methane plus oxygen equals methanol. Dehydrate
methanol and get iso-octane. Add the iso-octane to the crude oil and
get light crude oil.
I have two facilities under construction in Indonesia that each are
planned to produce 200,000 barrels per day.
I am selling 20 forward contracts from each of the two facilities that
are under constrution in Indonesia. Each contract sells 10,000
barrels of oil for $750,000. with $250,000 deposit on 10,000 barrels
of oil with a balance of $500,000 due on delivery in 60 months. At
that time if a barrel of oil sells for $125 - this contract will be
worth $1,250,000 - which means after paying the $500,000 for the oil,
you pocket $750,000 on your original $250,000 investment. Of course
if oil drops to less than $75 per barrel at the time you take
delivery, you won't make any money.
I will build 42 facilities like this over the next 14 years. This is
enough to produce 8% of the world's crude oil needs.
I will also buy space launch assets from various aerospace contractors
to built a 7 element RLV capable of putting 500 metric tons into
LEO. A 3 element version puts 225 tons into LEO, and a one element
version with inline upper stage puts 75 tons into LEO. This vehicle
consists of a stretched ET with an aerospike engine at its base, using
5 RS-68 pumpsets. Each flight element masses 1,000 tons at lift off,
produces 1,500 tons of thrust at lift off, and carries 880 metric tons
of propellant. They are also equipped with cross-feed to implement a
unique staging approach I have created, but found out that others have
thought of the same thing in the past. All elements are fully
recovered and reused.
The 500 ton version orbits a thin film concentrator that focuses light
onto a multi-spectral PV array that operates at 5,000x solar
intensity. The PV array drives a free-electron laser that produces
laser energy at very high efficiencies. The laser beam uses
holographic techniques and nonlinear optical media along with adaptive
optics to beam energy to the 42 solar panel powered coal to liquid
facilities located around the world. This increases hyrogen and
oxygen output by 16x. A portion of this is used to increase oil
output to 700,000 b/d per facility - providing 35% of the world's
crude oil. The balance of the increase is used to create hyrogen gas
which s used directly as a fuel., This provides the equivalent of
1,250,000 b/d per facility. Which exceeds the current demand for
energy.
4,000 satellites each generating 6,000 MW of laser power are place in
GEO and operated to feed energy to the coal-to-liquid plants. A fleet
of 30 heavy lift booster take 10 days each to be refurbished and
reloaded for a flight. Three flights per day are carried out. In
four years 4,000 satellites are deployed. It takes 6 years to design
and build out the fleet of rockets and the launch center. It takes
four years from today to get the first two facilities in production.
Revenue from the sale of oil from the first two facilities pays for
everything.
Once the world's energy prices have been resolved, the fleet of 30
heavy lift boosters are available to place piloted payloads onto
orbit, on the moon, on Mars and in the Asteroid belt.
Additional revenues may be earned by developing these accessible
frontier regions.