The Technology
Sunlight + CO2 + Catalyst + Hydroxy = all sorts of high power fuels.
Sunlight + H2O + CO2 = balanced carbon-neutral alcohol fuel (Solanol).
5 gallons of water + 15 lb of CO2 will produce 1 gallon of Solanol + 17 lb of enviro-liquid oxygen.
The discovery is known as “hydroxy hydrogenation” and is the invention.
It is visible, measured and evidence based.
It is Realized.
The heart of the "hydroxy hydrogenation" process is the electrolytic cell.
The design and configuration of EGF's hydroxy electrolytic cell is unique, demonstrable, evidence-based and has never been commercialised. As a world-first in electrolysis systems, the hydroxy electrolyzer signals a breakthrough in global fuel economics.
Back-End Hydrogenation Process:
*The above flow diagram illustrates the common use of Syngas methodology via the consumption of un-environmental Methane-natural gas procedure. Eco Global Fuels will simply replace the front end feedstock input with hydrogen produced from water using the energy from solar and other sources of renewable energy as well as carbon dioxide extracted from the atmosphere to produce a variety of carbon neutral transportation fuels and additivies.
Process
Eco Global Fuels set out to create a process for producing cheap, clean and sustainable enviro-commodity hydrogen and enviro-commodity oxygen safely and economically in order to yeild carbon neutral liquid fuels for existing transportation systems, all without using hydrocarbon feed stocks as fuel to initiate the process.
The process we have created enables the safe, clean, cost effective and efficient industrial supply of enviro-commodity hydrogen with enviro-commodity oxygen. This major breakthrough could conceivably sustain all mankind’s energy needs while significantly decarbonizing current global greenhouse emissions.
Our energy-fuel process model and prototype are the culmination of decades of research. We are able to harness the power from any renewable energy source (e.g. the Earth's abundant sunlight), and use water to produce enviro-hydrogen safely, cheaply and cleanly. 
When combined in situ with concentrated carbon dioxide extracted from the atmosphere, this hydrogen is converted into cost-effective liquid carbon neutral transport fuels with better engine economy and performance than that of conventional fossil gasoline, but with the equivalent kilometer range of conventional gasoline.
Efficiencies
The use of alternative energy sources (solar, geothermal, wind, hydro) is what makes the Eco Global Fuels production model so cost-efficient. Of these sources, solar power has the highest potential. Just 40 minutes of sunlight could provide as much energy as the United States consumes in a year.
We convert solar power into fuel by using photovoltaic cells as the energy input for the electrolysis of water to create hydrogen, which we then combine with carbon dioxide to create our alcohol-based transportation fuels. Economic projections indicate that the current photovoltaic cell costs of US $4 per watt will drop to US $1 per watt by 2015 or sooner. The total running costs of a photovoltaic cell farm come to only US $0.006 per kWh, while those of a traditional coal-fired power station come to a whopping US $0.03 per kWh.
What are the effects of each energy exchange?
What efficiencies and losses are involved?
Solar sun light energy = 100%
Photovoltaic DC output @ 20% efficiency = 20%
Efficiency of electrolysis @ 60% efficiency = 12%
Efficiency of Solanol catalyst 20% efficiency = 2.4%
Overall efficiency = 2.4%
This 2.4% overall efficiency is attributed to energy derived from the sun, which is free. Therefore it is not the overall 2.4% efficiency of the above fuel production, that is the governing factor; it is the cost efficiency of the technological hardware to produce both Solanol and commodity Enviro-oxygen as a commercial byproduct.
Note: A more detailed explanation regarding the chemistry and economics behind our assertions is available upon the signature of a non-disclosure agreement.
What is electrolysis?
The idea of electrolyzing water is anything but new – Michael Faraday established the laws of electrolysis in 1833. In basic terms, when an electric current is passed through water, the water is dissociated into its two constituent elements: hydrogen and oxygen. These are released as gases, in the same proportions as they are combined in water molecules. Two volumes of hydrogen are produced for each volume of oxygen.
Although electrolysis has long been used by major corporations such as General Electric, Dnora, Teledyne, and Life Systems for the production of hydrogen and oxygen, remarkably little innovation has taken place within the design of electrolysis systems.
A major change in electrolysis came in 1971 when Professor Yull Brown’s design improved in a unique way upon the Hennessy cell, which was diminutive, inefficient and suited only to the jewelry industry.
Professor Yull Brown’s electrolytic cell constituted a major breakthrough in that it was a safe, efficient industrial model for producing a gas mixture of hydrogen and oxygen. This gas mixture is known in-house as hydroxy. It has never been commercialized.