For sale system removes 98% toxins from power plants

 We can build toxins emission technology any capacity, any place in the world.

 FOR BUBGET FIRST I SHOULD KNOW THESE FACTS ABOUT ANY EXISTING PLANT:

1.- What is fuel specification?

2.- How much fuel are they burning per hour (coal, waste, NG or any other fuel?)

3.- How much flue gas capacity per minute?

4.- What is flue gas temperature at out of boiler?

5.- Where is location?

6.- What is altitude of plant location?

7.- Do they want back clean CO2 as byproduct?

These are important questions I should know the answers to, and after I can arrange the close approximate total cost.

TECHNOLOGY CAN BE EMPLOYED IN;

 Coal, oil, gas and waste fired Power Plants, Chemical producing factories, Oil Refineries, Aluminum Smelters, Cement Factories, Steel Mills, Paper Mills, Plastics and Rubber Producers, Transatlantic Vessels, Train Exhausts, Automobile Exhausts, Incineration and Organic Waste fired medical plants, Industrial Kitchen Chimneys, Odor Emission Control, etc.

 The cost of removing these toxins is less than $10 for each ton of coal or any other fuel burned.

New remarkable techniques are now able to convert these toxins into fertilizers to be safely degraded into the environment or sold for commercial use.

 A TYPICAL 500 MW COAL FIRED POWER PLANT:

The thermal energy content of coal is 6,150 kWh/ton. Although coal fired power generators are very efficient, they are still limited by the laws of thermodynamics.

 Only about 40 percent of the thermal energy in coal is converted to electricity.

So the electricity generated per ton of coal is 0.4 x 6,150 kWh or 2,460 kWh/ton.

A typical 500  megawatt coal power plant produces 3.5 billion kWh per year. To produce this amount of electrical energy, the plant burns ~ 1.43 million tons of coal.

 It also produces:

SO2 =   ~10,000 TONS

NOX =  ~10,200 TONS

CO2 =  ~4,000.000 TONS

 How Does It Work?

 The Company’s Stack Cleaner must accomplish two tasks in order to remove pollutants from the exhaust of a plant. First, the design must insure that the pollutants come in contact with the cleaning solution and second, that the cleaning solution must handle or capture the pollutants.

 The Companies Stack Cleaner utilizes a water based cleaning solution through which the exhaust gasses from the combustion must pass. The system sprays the solution onto a set of panels designed to provide the maximum solution surface area to the passing exhaust. The Company’s Stack Cleaner is designed to provide enough cleaning solution surface area to insure that all molecules in the exhaust stream come in contact with the cleaning solution several times.

 The Company’s cleaning solution is a proprietary blend of organic and inorganic materials mixed in a water carrier. The materials come together to form a long chained matrix polymer with multitudes of very active “Binding” points along its backbone. The nature of the pollutants causes them to bind to these points becoming a part of the matrix polymer and being carried off out of the exhaust stream.

 CO2 by its nature is not as actively bound to the matrix of the polymer as other pollutants and can if desired be recovered by a separate optional step for local use.

 This optional process is designed to be placed immediately after the solution has come into contact with the exhaust stream. The reason for this positioning is that the CO2 must be recovered within 30 minutes of capture. The cleaning solution contains enzymes, which rapidly begin to act on the captured CO2 biologically reacting it into other materials so that CO2 is no longer present in the solution within less than 30 minutes.

 As the cleaning solutions matrix polymer fills its “Binding” points it becomes thicker and heavier. The Company’s technology separates the heavier portions of the matrix polymer from the water carrier producing a solid material that can then be processed into nitrogen rich high- grade fertilizer. 

 The volume of the Company’s Cleaning Solution material used to clean the exhaust of a plant will vary depending upon the composition of the fuel being utilized. The Company’s technology can be utilized effectively for almost any fuel including all grades of coal, natural gas, fuel oil, bunker oil, waste oil, crude oil, wood, PSW (Palletized Solid Waste), and any other fuel which can be effectively burned to produce power.