NOW YOU CAN LEASE 24 X 7 POWER GENERATION PLANT IN MW CAPACITY

Clients with GOOD COMPANY Profile.Copies of their annual electricity bills paid in the last year.Company annual report Commitment for the 40Sft container's space required to have the plant. Official letter that says that LC for 1 year of power consumed will follow to get this plant for lease.

We will send PPA and Leasing Agreement upon the receipt of the email id at: accessfoundation@gmail.com

TEASER:

GENERATING ENERGY FROM WATER

For years people have been looking for a better way to generate energy. After splitting the atom, we were able to unleash the awesome power hidden inside this seemingly inconsequential particle. 70 years ago nuclear power was introduced into the world, bringing a false hope of cleaner and better life to the billions on this planet still living in poverty. Nuclear power turned out to be a very dangerous and expensive resource, similar in many ways to the power derived from burning coal with both having dangerous after effects, with either tons of dangerous emissions or tons of very dangerous spent fuel.

We have discovered a method for changing liquid water into super-heated steam mechanically.

Our S. T. G. N (Molecular Impact Steam Technology) Energy System is a SOURCE of power, virtually inexhaustible. Much like splitting the atom, we unleash the hidden power stored in the molecules of water. Since the earth is 75% covered in water, it is safe to say that we have a continuous supply of energy.

THE TECHNOLOGY BEHIND OUR SYSTEM IS SIMPLE.

In order for us to understand how our new energy system works, and what advantages it affords us, we must first briefly visit the world wide old steam systems of the past and present. The Rankine Cycle (the thermodynamic cycle which converts heat into work) is used in 90% of electrical plants. In a nutshell, coal powered, electrically driven, or nuclear powered steam generators, all have a common denominator: boil water, create steam, and transport the steam to where the energy is required, and in the case of nuclear power, cool off the system.

Firstly, the massive amount of wasted energy used in the boiling of the water and the transportation of the steam is eliminated in our S.T.G.N. system. In the present steam generating systems, hundreds or thousands of gallons of water need to be constantly boiling in order to produce the steam necessary to power our power plants. Dozens, if not hundreds of feet of conduits need to be used to transport the steam to its final destination. These extremely wasteful energy sapping procedures make for an extremely inefficient energy producing system.

Secondly, our steam is not generated directly from an external heat source; rather it is produced by hyper-sonic high impact molecular collisions which take place in our impact chambers which are located at the point of energy need. This method of producing super-heated dry steam eliminates both the energy needed for the boiling of the water and the energy lost during the transportation of the steam.

WHERE DOES THE ENERGY COME FROM?

The simple physics behind our new Technology is that we convert liquid water into super-heated steam mechanically. WE DON’T BOIL THE WATER.

This mechanical advantage comes from the fact that the energy needed to increase the velocity is linear and to double the velocity you double the energy. However, the specific kinetic energy derived from the Impact of the water clusters is increased exponentially.

Speed to impact energy ratios are available in most physics books.

In conclusion, at an incredibly low cost of $0.00683 for converting each pound of water into steam, our STGN system is far less expensive that natural gas or nuclear power, and is the least expensive and environmental friendly energy creating system in history

• Coal-fired plants (open-loop): 20,000-50,000 gallons per megawatt-hour
• Biomass (crops grown for the purpose of fuel): 40,000 to 100,000 gallons per megawatt-hour • Natural gas fracking: 2-10 million gallons per well
• STGN: approx. 80 gallons per megawatt-hour. Source: The Civil Society Institute.

MICROPOWER SYSTEMS

With increasing need for electric power globally, power systems using high speed turbines and high speed electric started generators are receiving increased attention. These are compact, lightweight, efficient units provide low cost electric power. They use any fuel including natural gas and are environmentally friendly.

Our high speed generator line covers the 100 kW to 5 MW power range. The baseline technology results in a highly efficient, low cost, reliable generating system.

Our alternators are so compact and light weight that it’s simply amazing! A 200 kW alternator using induction technology to provide a compact, efficient generator system for stable and safe operation measures 9” x 15” and weighs approximately 50 lbs.

Our 5MW synchronous alternator measures 15” x 24” weighing approximately 400 lbs.

The controller design is based on field orientation for fast response to transient load changes. The DSP-based control system is flexible and optimizes the generator performance.

Our integrated STGN and Electrodynamics alternators bring you the most compact, energy efficient energy generation systems that can be considered as the first TRUE GREEN power generators at present!

THE ENGINE

Energy is derived from exploding molecules of water impacting at hypersonic speed in a confined chamber. The energy created from high impact “dry” steam exceeds by multiples, the man-made energy required to run the system. The key word here is “man-made”. We are not trying to say we are creating energy out of nothing. What we are doing is capturing the release of the energy holding the molecules of water together.

Within our H2O impact system we are accelerating a stream of water via the mechanism of a hydraulic injector. Within a very short time frame (10 -12) seconds or less the impacting material experiences heats on the order of 1000s of degrees C.

There are a number of physical effects at play here. Water acts very much like a solid when it impacts a hard surface at a high speed. If the speed is extreme it is not surprising to expect the water droplets to undergo a molecular shattering event. The heat energy released on impact followed by the concomitant shock wave reflecting back into the oncoming water jet serve to completely disperse the water into essentially water vapor.

The resultant water vapor, if contained in an area whose temperature is above the temperature/pressure relation necessary to support conversion to steam, will exhibit temperature relations characteristic of steam, both saturated and superheated. These relations are well established. Thus, you are taking liquid water and converting it to water vapor almost instantly, through the impact shattering, without the usual boiling process typical of Rankin cycle steam generation systems, either via the standard fire tube or water tube boiler configurations.

COMPARISON CHART

According to conversion of units, 1 kWh = 3412 Btu. But if you actually convert some fuel to electricity, some energy will be lost due to the inefficiency of the generating process. We refer to this inefficiency by using the heat rate, which is the actual amount of fuel required to produce 1 kWh. For example, if the heat rate is 8000 Btu, then the efficiency is 3412 ÷ 8400 = 40.6%.

Here are the efficiencies for different kinds of fuels (usually for turning a steam turbine): • Coal: 33.6%

• Petroleum: 25.5-33.3%
• Natural Gas: 29.4-44.8% • MIST: 400%-500%

KWh generated per unit of fuel used:

1,870 kWh per Ton of Coal or 0.9 kWh per Pound of Coal 125 kWh per Mcf (1,000 cubic feet) of Natural Gas

542 kWh per Barrel of Petroleum, or 13 kWh per Gallon Source: Energy Information Administration.

The quantity of water required:

• Solar plant with dry cooling: 80 gallons per megawatt-hour
• Nuclear plants (with closed-loop cooling): 700-1100 gallons per megawatt-hour
• Nuclear plants (with open-loop cooling): 25,000-60,000 gallons per megawatt-hour • Coal-fired plants (closed-loop): 500-600 gallons per megawatt-hour