Waste to Energy

Waste-to-energy (WtE) is the process of generating energy in the form of electricity and/or heat from the management of waste.

 

The technologies are able to produce energy from waste and other fuels without direct combustion. These technologies have the potential to produce more electric power from the same amount of fuel than would be possible by direct combustion.

 

 Waste Management Process

 

Significant valuable recourses are created from the Waste Management Process. For Example, 1000 tons-per day of waste is processed at a typical large municipality. The operation’s daily output, could be hundreds of thousands Kilowatt hours, millions of gallons drinking water and millions of cubic feet of valuable hydrogen gas for sustainable power generation.

 

The PCS Solution

 

PlasThe PCS is the centrepiece of the integrated processing facility model intended to be networked in grid like fashion throughout populated regions as well as stand-alone models for individual use. It can be configured to be mobile as well as stationary.

The Plasma Arc Flow™ is a patented technology based on flowing the target liquid waste through a submerged electric arc between two electrodes. The arc decomposes the liquid molecules into atoms and forms a plasma around the tips of the electrodes at about 10,000°F / 5,500 °C. The Plasma Arc Flow moves the plasma away from the electrodes and controls the formation of “MagneGas”1 that rises to the surface for collection.

« MagneGas » is a cost competitive synthetic gas made from many liquid wastes such as sewage, sludge, animal manure, glycerin, used antifreeze, some oil based liquids and waste water. MagneGas is a hydrogen based fuel that has a combination of hydrogen, carbon monoxide and inert trace gases.

MagneGas exhaust has been certified by an automotive laboratory accredited with the US Environmental Protection Agency (E.P.A.) to surpass all E.P.A. requirements without a catalytic converter, and is the only fuel that produces oxygen when it burns, making it dramatically cleaner than gasoline, diesel, and natural gas. MagneGas is composed of hydrogen (55-65%), carbon monoxide (30-35%), carbon dioxide (1-2%), water vapor (2%), and trace gases (0.5-1%).

 

Production of Water from the Air

 

WatThis technology utilises a hitherto unused resource: drinking water produced from the air. It is important to remember in this context that the atmosphere contains 10 times more water than all rivers of the world together and that this water is distributed across all regions.

The basic technology used for AWG originally came from the mining sector and utilizes the humidity borne in the air to produce drinking water by means of condensation. While the systems used in mining were primarily designed for cooling the air, they simply produced condensation water as a by-product. The process is used  in reverse in order to produce drinking water. The machines employed suck in large volumes of air, cool it down to dew point and collect the resulting condensation water, which is then filtered and mineralized. Through this process, pure drinking water is obtained that meets the quality standards of the WHO. In regions with high temperatures and high humidity levels, a single machine can generate up to 10,000 gallons of water per day, thus providing the water supply for entire villages.

 

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