Phase 1—We insure that wind farm capacity, combined with solar, geothermal, hydro-electric or other means provides most of the energy demand required by the given location. Then we use the electricity generated by these combined means during low-demand hours to generate hydrogen using industrial hydrogen electrolysis. Wind, solar and geothermal are the preferred methods of primary energy generation. 

Phase 2—We then use hydrogen as our primary storage mechanism. Gaseous hydrogen is created during the electrolysis process and is stored on site. As stored energy, hydrogen can then be burned in a turbine to assist in generating electricity during peak demand or during times when the wind sails are not operating. The heat that’s generated by the turbine can be used for co-generation purposes. And burning hydrogen produces no greenhouse or other noxious gases — only water vapor.

Phase 3—Heat from the hydrogen turbines and other available sources (such as Concentrated Solar) is used to create a Pyrolysis process to carbonize any organic material and therefore provide a means of large-scale carbon sequestration. This eliminates the necessity for expensive and inefficient carbon capture methods and provides the means of creating a carbon-neutral environment.

 

Phase 4—Rather than burying the carbon in the earth or piping it into the ocean, we utilize the sequestered carbon along with our stored hydrogen (which we produced at a very small relative cost) in combination with other reactants to create bio-diesel and bio-gas fuels using proprietary methods. This high-quality bio-diesel and bio-gas has similar properties to fuels produced from fossil sources. However, unlike other bio-fuels, it does not coagulate in cold weather or separate at higher temperatures.

 

 

Nearly everyone in the emerging alternative energy industry focuses on one form of energy production or another. That’s not bad, but it tends to limit the approach that companies and governments take to solving big-picture energy problems.

For example, while wind is a great resource for producing energy, it’s inconsistent. The wind doesn’t always blow. Without an ENERGY STORAGE STRATEGY, we can’t rely on wind to provide energy on-demand and wind energy will never take it’s rightful place as a primary energy production method.

Some suggest that we should utilize fossil fuel alternatives (such as natural gas) as a stop-gap while these new technologies mature. We disagree. The means exist today to meet the challenge of a hydrogen-based, carbon neutral society.

GETI has provided the first comprehensive means of meeting nearly all of the existing alternative energy production challenges. We accomplish this by combining known methods with new, proprietary technologies to create a SUSTAINABLE ENERGY CAMPUS. Here’s how we do it:

The GETI Energy Campus

Sustainable Energy Solutions for the World