WO2015165478A2 - A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free - Google Patents

Abstract

The invention relates to device with 2 methods to produce electricity, hydrogen and oxygen for free. First method is to prepare hydrogen and oxygen in a cylinder under sea surface, closed at the top and opened at the bottom. Gas is to be stored in tank above sea surface, this tank is supposed to be filled with water and at its top is placed a water -based turbine. For the turbine to work, the gas flow rate at the sea bottom shall be equal to water flow rate at the turbine, so that compression remains stable at the tank and electricity is to be generated at the same rate till water at the tank runs out, with the turbine and gas flow source at sea bottom shutting down automatically. Thus, the tank would contain gas compressed by sea compression power, and this is the first usage of the gas. Then, gas is used for the second time through pushing gas into a tank totally filled with water, the size of which equals the size of the previous tank multiplied by value of gas compression at sea bottom at its top is placed a water -based turbine. For the turbine to work,.Then, electricity is to be generated till compression loses its power and the turbine shuts down automatically. The second method is to use gas compression produced by electrical analysis, on condition that electrical analysis is to be conducted in a space completely filled with, so that the generated gas can only be raised from a tight location with a tiny amount and huge compression such compression is introduced into a tank filled with water, at the top of which exists a turbine run by water power to generate electricity till compression declines. In both cases, hydrogen and oxygen are filled individually. Electricity amount produced by both methods is greater than operation power, so that part of the generated power is used to run the device and the rest can be used in anything else.

Description

A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free

Technical Field

The utilization of the clean renewable natural resources to generate the electric energy, and produce hydrogen and oxygen for free, By Pressure the sea

Background Art

The previous art : (Short Brief)

The utilization of the clean renewable natural resources to generate the electric energy, such as the energy of the wind, waves, ebb and tide, solar energy and thermal energy in the ground.

The problem in the previous art

It is a variable energy in terms of its intensity, such as the energy of the wind and the movement of the waves, which intensifies and weakens, affecting the generation of the electricity, the solar energy also depends on the strength of the sun rays to affect the strength of the electricity generation.

Disclosure Of Invention

There are two ways, The utilization of gas pressure strength obtained from the renewable natural energy resources,

The first way, The utilization of gas pressure strength obtained from the renewable natural energy resources, for two times with its motion energy, with only one operational energy.

By, Exploit the sea pressure at the depth .

The explanation : If there is a flowing source of oxygen and hydrogen gases in a fixed rate, and we want to reserve it in the reservoir "A", instead of storing the gas in the reservoir , and the reservoir is empty , we fill the reservoir "A" with water to its end, there is a turbine to generate the electricity from flowing of the water. And making the flowing gas rate with a fixed strength in the reservoir "A" equals the discharges rate of the flowing water from the turbine in the reservoir "A", so the gas replaces the water in the reservoir "A". The water is flowing with the same gas flowing strength until the reservoir empties from the water.. Then, both sources of the gas and the flowing water are stopped automatically. Hence, we used the strength of the flowing water to generate the electricity, and at the same time the gas still retained with its pressure strength in the reservoir "A". The same gas pressure strength is reused again , until finishing all its motion energy.

So, we used the same pressure with its same strength without adding any new operational energy, i.e. its operational energy is the same pressure operational energy in the first use of the pressure because the water is a non-compressible material , thus the water does not consume any strength from the gas pressure strength during its storage in the reservoir "A".

So, the gas flowing in the reservoir "A" is:

1) a fixed quantity of gas.

2) this fixed quantity of gas acquires a mechanical motion energy from a fixed machine .

Firstly, How to exploit the sea pressure strength as a source of natural renewable energy and this is by making, 1- The fixed gas quantity from the reservoir "A" is the gas quantity resulted from the water electrolysis in the depth of the sea.

2- The mechanical machine to acquire the gas a fixed pressure strength and that is the sea pressure.

The explanation of the idea :-

By putting the cylinder full of water and completely closed from the top and open from the bottom in the depth of the sea and putting the water electrolysis machine at the bottom of the cylinder and by connecting the water electrolysis machine with a source of electric power in the beginning of the operating only ,and then the machine will operate itself automatically without wasting the law of survival of energy where the operating depends on the sea pressure .

The Hydrogen and Oxygen will flow which resulted from the water electrolysis in the cylinder . and the gas continues raising with a stable rate and continues displacing the water from the cylinder to reach the gas to the bottom of the cylinder , so the gas will transport the sea pressure from the bottom of the sea to the top of the cylinder , hence the pressure in the gases equal in all parts of the cylinder , and as the cylinder is in the vertical position, so the pressure at the top of the cylinder is slightly less than the pressure at the bottom of the cylinder and the reason for that is the weight of the gas pillar inside the cylinder , and we must pay attention that the difference between the pressure at the top and the bottom of the cylinder is too little and it is possible to leave this difference because its effect is too little.

The static gas quantity resulted from the water electrolysis in the depth of water, which acquired the sea pressure strength, and the sea pressure becomes at the depth of the sea on the surface of the sea almost inside a closed cylinder from the top and open from the bottom .with connecting the compressed gas with the strength of the sea pressure depth which lies at the top of the cylinder to the a reservoir "A" which is completely full of water , closed, its height is little and its wide is big until not to permit to the height to consume a value from the pressure except a little from it. and there is a turbine at the top of the reservoir ^MA" to generate the electricity , so the water acquires the sea's pressure strength without the consumption of the pressure strength as water is non- compressible matter, and when the turbine works the sea pressure provides the gas with the mechanical energy to replace the water at the same pressure strength in the depth of the sea . The turbine works on condition that the size of water discharging rate from the turbine equals to the size of gas quantity resulted from the water electrolysis. So, the resulted gas quantity at the same sea's pressure strength is replaced by the water flowed in the reservoir "A". When the reservoir is voided from the water, both turbine and the compressed gas flow resource with the sea pressure strength is automatically closed and the Reservoir "A" becomes without any water and has compressed gas at the same rate of the sea pressure nearly, although we made use of the pressure strength in the electricity generation through the water flow from the reservoir "A". The gas retained its pressure strength without any decrease, because the sea pressure compensates this decrease, so we can reuse it through the gas flow to another reservoir "B" which is completely full of water , closed, its height is little and its wide is big until not to permit to the height to consume a value from the pressure except a little from it, and a turbine inside it which works with flowing water to generate the electricity.

When the turbine works, the water is flowing to generate the electricity, and the flowing water continues until the gas motion energy finishes. This is the second time to benefit from the gas pressure with its first operational energy, and the oxygen and hydrogen remain inside the reservoir, So we will fill them for using them in the life.

The resulted electricity quantity is more than the machine's operational energy.

The reason for this is related to the generated motion energy from the water which is caused from the pressure is as if the height of the water equals one and half times the water main height in the depth of the sea. because the first use of the gas pressure is the height responsible for the generated motion energy equals to the depth of the sea where the gas is generated nearly.

the second use of the gas pressure until its motion energy finishes with the conservation of the resulted gas to be packed after that , and the second usage of the gas is under the average pressure which is the highest pressure, and that is the sea depth pressure, and the least pressure, is the atmospheric pressure on the surface of the sea, where it loses its whole motion energy.

As if the water in the reservoir ' B' under the average pressure is the average height of the depth of the gas rising from the sea and that is the second time for using the gas motion energy.

The total motion energy which acquired from water and is caused by the gas pressure is: - the motion energy resulted from the height of the sea depth in the first phase to generate electricity in the reservoir "A"+ the motion energy of the average pressure in the second reservoir "B" which equals resulted energy from the half of the height of the sea depth. So the total height which responsible for the motion energy for water equal one and half times the water main height in the depth of the sea .

Part of the resulted electricity is used to operate the invention, and the other part is used in other things, hence, the electricity is automatically generated. And we will get the oxygen and hydrogen and all this with free energy , that is not found in the patent No. 117284/2008 and the Patent No. 145288/2002 but the thing in my patent is decreasing the energy of the hydrogen gas .and the new thing in my invention works to double the exploitation of the sea pressure , hence we can get electricity , Hydrogen and oxygen with free energy . and that is without wasting the law of survival of energy which states ( energy never runs out nor create from noting, but it can be converted from one thing to another)

because the renewable energy which provides the gas with a continuous motion energy is the sea pressure.

Important Note

(The machine should always be at least under 596 of sea water to make sure that the generated energy is higher than the consumed energy)

The second method: to obtain high pressure energy of the gas from a natural energy source, and to use it in generating electrical energy more than the machine's operational energy, the machine depends on the operational energy which obtained from the resulted energy i,eit works automatically.

And that is by turning the liquid (water ) into gas by the water electrolysis on condition that the process of the water electrolysis in the cylinder is completely full with water and tightly closed and there is salt in water for the water electrolysis in the cylinder. If the gas is released through the electrolysis in the cylinder, in any place the gas will rise?

There is not any place for the gas to rise ,

because the cylinder is full of water and completed closed except one place, this place is the place of the water molecule where the gas is emitted from it .So the amount of the emitted gas from the molecule , it will be compressed in the same size of the molecule .Hence, the gas acquires high pressure strength, and the generated electric power from the resulted motion energy from the compressed gas is highly more than the used electric power in transforming liquid (water) into gas with double fold.

and that is when that compressed gas flows on a reservoir full of water and there is a turbine at the top of it working for flowing the water. We take part of it to operate the water diversion energy, and the remaining part is used in any other things or the practical life. So, the machine will work by itself automatically and we will prove that in the detailed description .

That is not found in the patent No. 117284/2008 and the invention No.145288/2002 which depends on decreasing to generate the Hydrogen to decrease its cost and I do not mean to get Hydrogen and oxygen only from the high pressure for the electrolysis but I mean to get free electric energy from the gas pressure itself and getting Hydrogen and oxygen with it with free energy and the reason for this energy is transforming the water into gas by the water electrolysis with condition that the place must closed and completely full of water and there is not any place in the cylinder can permit to flow the gas at the same size of the water molecule which released from it. There is a relationship between the size and the pressure , and this relationship is inverse whenever the size decreases the pressure increases and vice versa, whenever the size increases the pressure decreases . when the gas is emitted it won't find any place to set free in it except the size of the molecule which set free from it . so the size is so little than the amount of the raised gas . so the stress is increased . and the gas acquires a big motion energy . And in my invention , is to exploit the motion energy for the pressure gas for getting a big electric energy and this big electric energy is bigger than the getting energy for the motion energy of the compressed gas . after ending of this exploitation for pressure , there will be two gases Oxygen and hydrogen and after that we will separate the two gases and put each gas alone in special cylinder for this usage .

The full description of the invention

Is there a difference between obtaining oxygen and hydrogen from the surface and the depth of the sea?

Concerning the used energy which we will use, it is the same energy, but the latent energy is different in gas . On the surface of the sea, it won't acquire the pressure energy, but at the depth of the sea, the raised gas will acquire the sea pressure from the water electrolysis or the magnetic resonance in a cylinder fixed at the depth of the sea, opened at the bottom , closed at the upper and its way out is to the surface of the sea. And by fixing the machine of the water electrolysis under the fixed cylinder at the depth of the sea and by operating the machine by a source of the electricity from out at the beginning of the operating only after that the machine depends on operating itself from the resulted electric power. Then the both gases transfer the sea pressure from the bottom to the upper of the cylinder as the pressures of both gases are equal in all parts of the cylinder and That is not found in the patent No. 117284/2008 and the invention No.145288/2002 which depends on decreasing to generate the Hydrogen to decrease its cost and I do not mean to get Hydrogen and oxygen only from the high pressure for the electrolysis but the new in my invention is to work for double the pressure sea exploitation ,so we can get electricity , oxygen and hydrogen from the machine of the sea pressure automatically by free energy and that is without wasting the law of survival of energy which states ( energy does not run out nor create from noting, but it can be converted from one thing to another) but the sea pressure energy was converted into a huge electric power and from this power we will take a part to operate the invention and the other part will be used in any other thing in the practical life

Important Note

( The machine should always be at least under 596 of sea water to make sure that the generated energy is higher than the consumed energy )

The explanation

Figure (1/4 )

By making the sea depth ( SI) at the bottom of the cylinder ( F ) is the stable source for flowing the oxygen and hydrogen at rate (lm3/second for the gas as an example) with static pressure strength (98bar because the cylinder ( F ) is stabled at the depth of 1000 m) and that is by the water electrolysis ( XI ).

When we produce lm3 gas from the water electrolysis ( XI ) at the pressure depth 98 bar , this production will be compressed and its size won't be 1 m3 gas

So, what is the size of this production at the pressure depth 98 bar ?

And we will calculate it by the Bol law-:

VI X PI = V2 X P2

Hence

VI is the size before the pressure = 1000 liter gas = (lm3 )

PI is the pressure almost one bar = the atmospheric pressure.

V2 is the required new size and P2 is the new pressure where is on the gas = 98 bar

And by compensation in the previous law.

1 X 1000 = V2 X 98

V2 = 10.2 liter

So the water electrolysis machine ( XI ) will produce gas = lm3 gas in condition one atmospheric pressure and the gas will be compressed into 10.2 liter each second because of the sea pressure ( SI ) =98 bar.

so the gas will rise in the cylinder ( F ) and it is replaced by the water until the gas reach to the bottom of the cylinder so the gas will transfer almost the sea pressure ( S I ) from the bottom to the top of the cylinder ( F ) and connect it with the reservoir ( R ) which is completely full of water. It is closed and having a turbine ( HI ) in it for the electricity generation the reservoir ( R ) surface is located in the sea level ( S ) and the rest of the reservoir ( R ) is hidden under the sea level ( S ). The discharging water rate from the turbine during the operation of the reservoir ( R ) (0.0102 m3 water each second) equals the size of the gas flow rate in the reservoir ( R ) =0.0102 m3 gas by the sea pressure with static pressure strength ( 98bar )and this strength is the strength of the sea pressure ,under the fixed cylinder ( F ) at the depth of the sea .

When the turbine ( HI ) works, the water statistically flows and is replaced by the resulted gas which is compressed by the sea pressure to size = 0.0102m3 and the water flows continuously until the water is run out in the reservoir ( R ). At the same time ,the turbine ( HI ) in addition to the source of the gas flow from the sea ( K7 ) depth will automatically closed And by that we benefit by generating the electricity with Strongly rush water from the gas pressure strength at the depth of the sea ( 98 bar ).The same gas pressure still reserved with its pressure strength in the reservoir ( R ) with strength ( 98 bar ) because the water flows from the turbine ( HI ) at the rate 0.0102m3/ second . this water is replaced by 0.0102m3 gas compressed by strength 98 bar. second by the water electrolysis ( XI ) in the depth of the sea ( SI ).

The same pressure reserved in the reservoir ( R ) is reused with the preservation of the compressed gas and prevented it from leaking out of the reservoir to pack it after that.

And for that we should prepare another reservoir.( Figure no. 2/4 ) and this reservoir is the reservoir ( F2 ) which looks like the reservoir ( R ) in its forming only.

It is completely full of water and closed. Its size is 98 times than the size of the reservoir ( R ), where the gas is compressed with strength 98 bar, for making the gas pressure equals the atmospheric pressure. When the compressed gas in reservoir ( R ) is replaced by the water in the reservoir ( F2 ), then the gas misses its motion and pressure energy. We connect the compressed gas in the reservoir ( R ) with the reservoir ( F2 ), which is completely full of water, closed and above it there is a turbine for the electricity generation ( H ) the turbine works through the water flow, and leaving the turbine in the reservoir ( F2 ) to work, so, the water strongly flows, the biggest pressure is 98 bar, the smallest pressure is 2 bar at average of pressure = (98+2)÷2= 50 bar.

Hence, the gas pressure strength is used for the second time .

If the reservoir ( R ) has for example 10000m3 of water before it is replaced with the compressed gas (980392 m3 gas) resulted from the water electrolysis ( XI) under pressure at 98 bar ( S I). After the 10000 m3 of water for the electricity generation is used and the water is run out, the source of the water flow in the turbine ( K3 ) and the source of the gas flow ( K7 ) at the depth of the sea are automatically closed. There is a compressed gas at strength of 98 bar. In this phase, the operational energy of the invention is the operational energy of the water electrolysis, producing static quantity of the gas. This quantity gains the sea pressure at 98 bar. This pressure is retained in the reservoir ( R ) in spite of generating the electricity through the flow of 10000m3of water. By this same operational energy, the pressure is used again in generating the electricity and operating any other machine without new operational energy.

Important Note

(-The reservoir ( F2 ) figure (2/4) is located at the beach under the sea water surface ( S ) directly and it is connected to the sea water through the valve ( K6 ) and to the reservoir Ml of the gas ( R ) through the valve ( K ). The reservoir ( R ) is located at the beach, and the reservoir ( F2 ) takes the shape of the rectangle or the cylinder. The height is little, the length and width are big. To obtain the largest amount of water in reservoir ( F2 ) full of water, the height must be little at 5m. The less the height or depth, the higher the efficiency is, to reduce the distance for the water. Hence, it will not consume much of the pressure value used to push water to operate the turbine ( H ) which located at the top of the reservoir ( F2 ) and the cylinder ( F3 ), whose height is less than the reservoir height (F2), it is opened at the bottom and fixed in it. its diameter is equal to the turbine diameter ( H ) which is above it to generate the electricity.) and the cylinder ( F3 ), whose height is less than the reservoir height ( F2 ), it is opened at the bottom and fixed in it. Its diameter is equal to the turbine diameter ( H ) which is above it to generate the electricity.) and when both gases are Withdrawn through the valves ( K4, K5), the pressure decreases in the reservoir ( F2 ) . The pressure in the reservoir is less than that out of the reservoir. The reservoir is immersed with the water, and then the water goes into the reservoir through the valve ( K6 ), which let the water in but not out of the reservoir. The water is still going into the reservoir, while the two gases are Withdrawn through until the reservoir is void of them, and then, the reservoir becomes full of the water to be ready for the work again

2-The reservoir ( R ) figure ( 1/4 ) The reservoir ( R ) looks like the reservoir ( F2 ) and is located at the beach under the sea water surface ( S ) directly and it is connected to the sea water through the valve ( 8 ) and to the reservoir full of the gas (R) through the valve ( K7 ). The reservoir ( R ) is located at the beach, and takes the shape of the rectangle . The height is little, the length and , the height must be little at 5m. The less the height or depth, the higher the efficiency is, to reduce the distance for the water. Hence, it will not consume much of the pressure value used to push water to operate the turbine ( HI )

The water is non-compressible; it transfers the pressure almost as it is. I will reuse it with the same compressed value nearly ( 98 bar ) without new operational energy and that is by making the compressed gas in the reservoir ( R ) is about 980392 m3gas with pressure strength 98 bar is replaced by the water where is in the reservoir ( F2 ) which its size is more 98 size than the size of the reservoir ( R ) for perfectly benefits from its motion energy and make its pressure equals the atmospheric pressure that means that its size =

10000m3X 98 = 980000 m3 water and this water will flow from the turbine which in the reservoir ( F2 ) with average pressure strength = (biggest pressure 98 bar + smallest pressure 2 bar ) ÷ 2 = 50 bar

The invention operational energy lm3 gas produced in one second by the water electrolysis ( XI ) and this energy is compressed in size = 0.0102 m3 gas with pressure = 98 bar and we were benefited from it before in the first reservoir(R )

And for making its pressure equals one atmospheric pressure in the second reservoir ( F2 ) = the size of the reservoir ( R ) X the pressure of the reservoir ( R )

0.102 X 98 = 0.9996 = 1 m3 water nearly And this quantity will be under pressure average in the second reservoir ( F2 ) = 50 bar

And for benefiting from its pressure for the second the 0.0102 m3 compressed gas with 98 bar will be replaced by nearly lm3 waters for making its pressure equals one bar

The electric power generated from both reservoirs and the Compare invention operational energy represented in the water electrolysis are calculated:

Firstly, the reservoir ( R ) : the pressure affected the water is 9800000 Newton/m2, i.e. As the water is in a height of

Pressure = height x density x lateral wheel 9800000=height x 1000 x 9.8

So the height- 1000m

The electric power generated per second in reservoir ( R )

P = η^■ p - g^■ h^■ q

P=turbine power and that is required& n=turbine quality=95%

p = water density by kilograms/meter square = 1000 kilograms/m2 g = Gravity = 9.8 m/s²

and h = the height = 1000 m

q = water discharge rate = 0.0102 m water and this = quantity is the compressed gas amount 0.0102 m3 gas for the amount lm gas which is produced from the water electrolysis .

by compensation in the previous law

the generated electric power from the turbine

- ( 95+100 ) x 1000 x 9.8 x 1000 x 0.0102 = 94962 watt. Second =

94.962 kilowatt

And this capacity is completed in only one second .

Power = work ÷ time the time is one second

The power in one second = work done ÷ time the time is one second 94962 watt = work done ÷ one second

The work done in one second = 94962 x one second = 94962 joule

= 94.962 kilo joule

We calculate the invention production in one second this quantity of gas = 0.0102 m³

which is compressed under pressure 98 bar which is produced in one second , we calculate , How much the resulted energy is from this quantity from the compressed gas if it is pumped in the reservoir ( F2 ) until the end of the gas motion energy. As the size of the reservoir ( F2 ) = 98 times of the size of the reservoir ( R ) and the produced quantity in one second of the gas = 0.0102 m and this value will be replaced by the water in the reservoir ( F2 ) = 0.0102 X 98 - lm³ water nearly.

for making its pressure equals 1 bar ► 1

Secondly, the reservoir ( F2 ) is under an average pressure 5000000 Newton/m², as the water is under pressure of

Pressure= height x density x lateral wheel

5000000 = height x lOOOx 9.8

Height = 510 m

The generated electric power in one second in the turbine in the reservoir ( F2 )

P — η^■ p^■ g^■ h _· - q

The height (h) = 510 m turbine quality ( n ) = 95%

Water density (p) - 1000 kilograms / m²

Water discharge rate ( q ) = 1 m water in one second for making its pressure equals 1 bar ► 1

the turbine quality ( p ) = ( 95 ÷ 100 ) x 1000 x 9.8 x 510 x 1-4748100 watt

- 4748.1 kilo wat

And this power is completed in only one second

The power in one second = work done ÷ time the time is one second

Power = work ÷ time the time is one second

The power = work done ÷ time the time is one second

So,

4748100 watt = work done ÷ second

Work done in one second = 4748100 x one second = 4748100 joule = 4748.1 kilo joule Total of the generated energy = the generated energy from the reservoir ( ) + the generated energy from the reservoir ( F2 ) .

Total of the generated energy =

= 4748.1 + 94.962 = 4843.062 kilo watt producing in second in the two reservoirs.

Total of the producing work from the invention in one second =

- 4748.1 kilo joule + 94.962 kilo joule = 4843.062 kilo joule . It is clear that the generated power equals the work done in one second .

Calculating the invention operation energy

The water is non-compressible so, when it compressed and empty the reservoir ( R ) by 0.0102 m water in second is replaced by 0.0102 m Oxygen and hydrogen in second.

So , we will have a lack= 0.0102 compressed gas which equaled lm gas in the condition one atmospheric energy and we will restore it by electrolysis water .

lm³ gas = 1000 liter gas so

each mole gives almost 22.4 liter in the condition of one the atmospheric pressure and the temperature is 25 ° c .

so the numbers of the lost moles are ÷ 22.4 = 44.64 mole almost

=10001iter gas each water mole needs Electric charge for the water electrolysis = 96.45 kilo joule/mole to produce mole and a half mole gas which

Water male is H₂O in the water electrolysis which is produced ( H₂) is a hydrogen mole + (O)is a half mole of oxygen,

so the request : produce 44.64 Oxygen and hydrogen mole which produced from the water electrolysis and each mole and half gas needs energy = 96.45 kilo joule . There is an important question ?

How many moles are required from the water to give gas the number of its moles are 44.64 mole gas by the water electrolysis ?

The answer is :- 29.76 mole water .But Why ?

Because each 29.76 mole water gives by the water electrolysis = 29.76 mole hydrogen + 14.88 mole oxygen = 44.64 mole oxygen and hydrogen and that is the required amount to compensate the shortage from the gas which is replaced by the water in the reservoir

So ,the amount of the whole electric charge for producing 44.64 mole gas i.e lm gas which is produced from the water electrolysis for 29.76 mole water = 29.76 is the moles number of the transformed water into gas X 96.45 is a charge which is necessary to transform one mole of water into gas = 2870.35 kilo joule

Total of the invention operational energy in one second = 2870.35 kilo joule

the producing work from the invention operational energy= total of the producing work from the invention - the invention operational energy = 4843.012 - 2870.35 = 1972.66 kilo joule.

It is so clear the resulted energy is more than the used energy.

Part of the electric power is used to operate the machine and the remaining part is used in the practical life. Hence, the electricity +hydrogen gas+ oxygen gas are automatically generated and all that without any cost this means free energy .

Important Note (The machine should always be at least under 596 of sea water to make sure that the generated energy is higher than the consumed energy)

The invention operating time at the beginning of the operation only The requirement is to replace the gas with water in the reservoir ( R ) , hence the pressure inside it equals the sea pressure = 98 bar

The amount of the raised gas from the electrolysis of water machine is 1 m3 gas in the condition of the atmospheric pressure and the temperature 25 °c and in case of putting it in a pressure 98 bar its size will become as following :- By BOL law

VI x PI = v2 x p2 as VI = lm3gas Pl= the atmospheric pressure 1 bar and p2 =98 bar

And V2 is the required size ?

1 X 1 = V2 X 98

V2 = 0.0102 m3 compressed gas .

,So ,if the size of the first reservoir = 10000 m3 water

Each meter gas which is produced from the electrolysis of water

( XI) machine is compressed in a size = 0.0102 m gas take the place of 0.0102m3 water

So

0.0102m3 water this rate of discharge of water per second = 0.0102m3 gas take the place of 0.0102m3 water per second

how many meters gas which is produced the electrolysis of water machine In order to replace in 1 m3 water in the new pressure conditions is 98 bar ?

Where the . 0.0102m3 water this rate of discharge of water per second = 0.0102m3 gas In order to replace 0.0102 M3 water

= lm3 water in the new pressure conditions ÷ 0.0102 m3 water =

98.0392 m3 gas the compressed gas take the place of the meter

Cubic water.

so"

The total meters of the compressed meters in the reservoir ( R ) in the new pressure conditions is 98 bar

= the size of the reservoir by meter Cubic water X the compressed gas take the place of the meter Cubic water

= 10000 X 98.0392 m3 = 980392 m3 gas

The required time for forming this amount cubic of gas (980392m3 gas) = the total of the produced meters cubic gas X the produced amount in one second gas (0.0102m3 gas)

= 980392 X 1 = 980392 second

and the time of the produced amount in one minute = 980392÷ 60 = 16339.86 minute and the time of the produced amount in one hour = 16339.86 ÷ 60 = 272.33 hour

And the time of the produced amount in one day = 272.33÷ 24 =

11.34 day

And this is the time of operating the machine for work and

production at the beginning of the operation only .

The second reservoir ( F2 ) its operation time (is the ending time of the water from the second reservoir

The size of the second reservoir ( F2 ) = the size of the first reservoir ( R ) is multiplied by its pressure 98 bar and that is for reaching by the pressure inside it to one atmospheric energy .

=1000 X 98 = 98000m³almost The size of the produced gas from the water electrolysis in the first reservoir in one second is the invention operational energy in one second and the cost of this energy is the production cost lm³ gas in the condition of one atmospheric pressure = 2870.35 kilo watt .

second .and we proved that previously and its size = 0.0102 m³ gas , we take the same size without new operational energy and we completely benefit from its pressure energy . and that is by making this size rushing on a reservoir ( F2 ) which full of water its size =98 time than the size of the first reservoir ( R ) for making its pressure = one atmospheric pressure

So the size 0.0102 m³ in the reservoir ( R ) its size will be in the reservoir

( F2 ) = 0.0102 m³ X 98 = 0.9998 = lm³water .

Important Note Figure no. 2/4

the reservoir ( F2 ) takes the shape of the rectangle or the cylinder. , the height must be little at 5m. The less the height or depth, the higher the efficiency is, to reduce the distance for the water. Hence, it will not consume much of the pressure value used to push water to operate the turbine ( H ) which located at the top of the reservoir ( F2J

So the first reservoir ( R ) will be replaced the compressed gas which its size 0.0102 m under pressure 98 bar by the water in the reservoir ( F2 ) with size rate lm³ water in one second for making its pressure one atmospheric pressure

The time of water ending in the second reservoir ( F2) =

the size of the water in the reservoir( F2) - the rate of the discharge water from the reservoir (F2)

Where the

rate of discharge of water per second= lm3 The size of reservoir=980000m3 nearly

The time of water ending in the second reservoir ( F2) =

= 980000÷lm3water = 980000 second

and after minute = 980000÷ 60 = 16333.333 minute

and after one hour = 16333.333÷60 = 272.222 hour

and after one day = 272.222÷24 = 11.34 day

And its noticed that the time of the invention operation In the first reservoir ( R ) is as same time as the ending of the invention operation in the second reservoir ( F2 )

Thus

And when we finished from producing electricity in the first reservoir ( R ) and before operating the second reservoir ( F2 ) then we will have a third reservoir which is ready for operating like the first reservoir ( R ),

and by operating the second reservoir ( F2 ) we will take a part from the electricity from the second reservoir ( F2 ) for operating the third reservoir which is like the first reservoir ( R ).

And there will be a fourth reservoir like the second reservoir ( F2 which is ready for operation before ending the water in the second reservoir

( F2 )

And as the time of the operation and producing electricity one in the first reservoir ( R ) and the second reservoir ( F2 so when the water is going to end in the second reservoir ( F2 ) the third reservoir which is like the first reservoir ( R ) is being full of gas and ready for operation and we will pump the gas and connected it with the fourth reservoir which is like the second reservoir ( F2 ) which is ready for operation .and thus the process of the operation continues between the four reservoirs in the invention indefinitely . And by that the electricity production is settled by rate 1972.712 kilo, watt = 1.972 mega, watt . second and in one minute =1.0972 X 60 = 118.32 mega watt minute and in one hour = 118.32 X 60 = 7099.2 mega .watt, hour

This is the second method to operate machine Gas pressure machine to generate electricity and produce hydrogen and oxygen at a cost of free through the utilization of the compressed gas motion energy resulted from the water electrolysis, provided that, the water electrolysis is made in a reservoir completely full of water and is closed and there is salt in it from the water electrolysis . The quantity of water equals the molecular size of water or multiplies the molecular size of water, which equals static value

= 203633333 Newton/m²

and we will explain it by details later (note: when the temperature increases as a result of this pressure, the water absorbs this heat, as the water has a big thermal capability, and the raising gas will be exposed to the surface of water, as the water absorbs any extra heating resulted from the generation of this pressure).

Explain how is that ?????

By this example :- Figure no. 4/4

If there is a reservoir ( Fl ) with lm3 of water, and it is reservoir ( Fl) full and closed, as it has nothing other than the water and neutral salt. The water electrolysis both poles ( X ) are put in the reservoir ( Fl).and when the water electrolysis is made in the reservoir ( Fl ), oxygen and hydrogen are released; there will be no place for this release other than the place of the molecule from which both gases are released. This means, the water electrolysis is made for lm3 of the water, and it is replaced by both hydrogen and oxygen gases.

Firstly, the electrolysis of lm³ of water is made

lm³ =1000000 g,

One mole of water = 18 grams

n = no. of molls in lm³ of water= 1000000÷ 18= 55555,556 moles water

As eachl mole water = 1 mole hydrogen + half mole oxygen Number of moles of gas consisting of one water Mole=1.5 Mole gas

the amount of moles of gas after the electrolysis of lm3 of water = 55555,556x 1.5= 83333.334 moles gas

To calculate the pressure generated from the electrolysis of lm3 of water located in a place completely full of water and is closed By law

PxV=n x T x R

Where the

P is the pressure, V is the size in liter= 1000 liter gas = ( lm3 water ), R= static gas which is 0.082,

T is the temperature by Calvin, which is 298, as the temperature is 25 ⁰ C. By transferring through the Calvin's rule 273+25=298, Calvin

n=83333.334 mole gas.

By compensation in the previous gases law

Pressure= ( 298 x 0.082x 83333.33 ) ÷1000 = 2036.33333 bar =

203633333 Newton/m2 We will make this pressure released ( Fl ) from the reservoir which full completely of water and closed tightly and in it we will find a turbine ( H2) for generating electricity working by flowing water .the water will acquire the strength of the gas pressure the value of the pressure won't be changed almost because the water is non- compressible material and when the turbine works ( Fl ) the water will flow by the strength of the gas pressure and its

203633333Newton/m2.

but there is an important question

How long will the water flow?

We calculate the water that should be found inside the reservoir ( Fl) and when we connect it by the compressed gas and when the water ended from the reservoir ( Fl ) the motion energy power for gas equals zero .

And when the motion energy for gas equals zero ?

When the pressure inside the reservoir ( Fl ) equals one atmospheric pressure .we will calculate

How much water should be found inside the reservoir ( Fl ) and when we discharge all of it by the turbine ( H2 ) .the pressure inside the reservoir ( Fl ) become one atmospheric pressure.

The gas will be replaced by the water in the reservoir ( Fl ) then we will calculate the size of this reservoir ( Fl ) which make the gas which its pressure 2036.33333bar to make its pressure 1 bar in this reservoir ( Fl ) then we fill the reservoir ( Fl ) by the water and make the gas flowing on the water to replaced it with the water. We can calculate it by Boyle's law:

PI x Vl= P2 xV2 As Pl= 203633333Newton/m2 , Vl=lm3 , P2= 100000 Newton/m2 , V2 =???

1 x 203633333= 100000 x V2

V2=2036.33333m3 = 2036 m3

In figure (4/4), the volume that makes the amount of compressed gas in the size of lm3 which is 203633333 Newton/m2, will be expanded until it equals one atmospheric pressure, which is 2036m3 . Then, total amount of water supposed to be located in the reservoir(Fl) is 2036m3 . This is the volume, that makes the pressure equal to the atmospheric pressure + lm3 of water that must be electro lyzed. The total amount of water in the reservoir equals 2037m3and this is the total amount in reservoir (Fl).

.( provided that the Reservoir (Fl) is completely full of water and tightly closed).

( ote any rise in the temperature that producing from this pressure, the water will absorb that temperature where the water with Large thermal capacity and we will make the released gas in flat big area from water So, the water absorbs i.e the amount Redundant temperature from generating this pressure ).

The amount of electricity necessary for the electrolysis of lm3 of water

Each mole is accompanied by a power at 96.45k goal /mole

Where the

, the electrolysis of lm3 of water is made

lm3 =1000000 g,

n = no. of molls in lm3 of water= 1000000÷ 18= 55555,556 moles Hence, the amount of electricity necessary for the electrolysis of lm3 of water = the energy necessary for one mole x no. of moles in lm3

=55555.556 x 96.45=5358333 k i

So

each 1 m³ water needs a operational energy = total operational energy -÷ numbers of meters water that will be affected by the gas pressure

Where the

as the total of the operational energy = 5358333 kilo joule.

And the total of the numbers of meters that will be affected by the gas pressure is - 2036 m³

And by Compensation in the previous equation :

So

Each 1 m³ water needs an operational energy =

=5358333 ÷ 2036

=2631.79kilo joule

In figure [4/4), the volume that makes the amount of compressed gas in the size of lm³ which is pressure 203633334 Newton/m², will be expanded until it equals one atmospheric pressure, which is 2036m³ . Then, total amount of water supposed to be located in the reservoir (Fl ) is 2036m³ . This is the volume, that makes the pressure equal to the atmospheric pressure When discharged of water + lm³ of water that must be electrolyzed. The total amount of water in the reservoir ( Fl ) equals 2037m³and this is the total amount in reservoir (Fl).

How to operate the machine, figure (4/4) Firstly, the reservoir ( Fl] becomes full of water "2037m³

Secondly, by operating the electrolysis of the water in which, there is a neutral saline neither reacting with hydrogen, oxygen nor poles of the electrolysis, by an external source of energy in the beginning of operating the machine only, but after that the machine will be works by itself, oxygen and hydrogen go upward in the reservoir ( Fl), until the reservoir is run out of water that must be electrolyzed into oxygen and hydrogen equals lm³, and the pressure becomes 203633334 Newton/m² by calculating how long it is necessary to electrolysis lm³ from water to oxygen and hydrogen in the reservoir ( Fl ) When the electrolysis finishes, the electric source is disconnected, and the water in the reservoir is under this pressure. By opening the valve ( K2), figure (4/4),

the water strongly flows towards turbine ( H2), the electricity is generated,

the total amount of water in the reservoir under an average pressure = (which is the greatest pressure 203633334 Newton/m² + the smallest pressure 200000 Newton/m²) ÷2= 101916667 Newton/m². The calculating the power we imagine how high is the water if it is behind a dam which make this pressure = 101916666.5 Newton/m2 and we calculate it by this law.

the pressure = the height x the density x the gravitational constant and by Compensation with the law

101916667 = the height x 1000 x 9.8

The height =10399.66m = 10400m nearly

the electrical power generated by the turbine ( H2 ) at this height = JP = η■ p^■ g^■ h■ q As [P] is the turbine power which we want

and (n) is the turbine quality = 95 %

(p)is the water density by kilogram/meter square = 1000

kilogram/m2

(g) Gravity wheel = 9.8 m/s2

(q) flow water rate lm3 water in one second

Offset in the previous law

Power =( 95÷100 ) X 1000 X 9.8 X 10400 X 1 = 96824000 watt = 96824 kilo .watt

And this power = 96824000 watt is achieved in time one second Power = work ÷ time as the time is one second

Power = word done ÷ second as the time is one second

By Compensation

96824000 = work done ÷ one second

The work done in one second = 96824000 X one second = 96824000 joule =96824.000 kilo joule

By Comparison between the produced operational energy from the invention in one second and the used energy for operating the invention in one second :

the produced operational energy from the invention in one second

=96824 kilo joule■

the used energy for operating the invention in one second

=2631.79 kilo joule .

From this Comparison we can say that The produced energy is more than the used energy, so, part of the energy is obtained to operate the machine, and then the machine automatically works After the reservoir Fl ) is run out of water, there will be another usable reservoir, as part of the electricity resulted from the first reservoir ( Fl ) is obtained to operate the second one, and the remaining part is used for other things. The exchange of the operational energy between both reservoirs is continuous, and the electricity is automatically generated. When the reservoir is run out of water, there will be hydrogen and oxygen gases. They are packed and separated through the density process, as hydrogen is Pull at the upper of the reservoir; its density is less, and oxygen is the pull at the bottom as its density is more. So, free electric energy is obtained + hydrogen and oxygen gases are produced by a free energy.

The explanation

May Been explained Method exploitation of the in detail the explanation

Brief description of the drawing

Figure (1/4)

1- ( S ) the sea level, ( SI) the sea depth

2- Cylinder( F ) a fixed at the depth of the sea by the oil digger or anything else

3- ( XI) both poles of the water electrolysis

4- ( Zl) pipelines for transmitting the gas to the reservoir ( R ) and the electricity to the poles of the water electrolysis located in the cylinder (F )

5- The reservoir ( R ) which is located at the beach under the sea level, is completely full of water and tightly closed. So, when both gases are Withdrawn through the valves ( K10, Kll ), the pressure decreases in the reservoir [ R) . The pressure in the reservoir is less than that out of the reservoir. The reservoir is immersed with the water, and then the water goes into the reservoir through the valve ( K8), which let the water in but not out of the reservoir. The water is still going into the reservoir, while the two gases are Withdrawn until the reservoir is void of them, and then, the reservoir becomes full of the water to be ready for the work again.

6- (b) the pillars fastening the pipelines ( Zl] to transmit oxygen and hydrogen from the reservoir ( F ) to the reservoir [ R ).

7- The reservoir ( R ) combining oxygen and hydrogen, is located at the beach.

8- ( E ) the beach of the sea where the reservoir ( R ) is located .

9- Turbine [ HI] that works through the water flow to generate the electricity

10- The valve ( K3) that controls the entrance of the water into turbine(Hl)

11- The valve (K7) that controls the entrance of both gases into the reservoir R ]

12- The valve[ K8 which let the water in and not out of the

reservoir [R]

Figure no. 2/4

1- The reservoir ( R ) To assemble compressed gases, which is located under the sea level, at the beach and connected to the reservoir F2 ] through the valve ( K ).

2- The reservoir [ F2 which is located at the beach under the sea level, is completely full of water and tightly closed. So, when both gases are Withdrawn through the valves ( K4, K5 ), the pressure decreases in the reservoir ( F2] . The pressure in the reservoir is less than that out of the reservoir. The reservoir is immersed with the water, and then the water goes into the reservoir through the valve ( K6), which let the water in but not out of the reservoir. The water is still going into the reservoir, while the two gases are Withdrawn until the reservoir is void of them, and then, the reservoir becomes full of the water to be ready for the work again.

3- The cylinder [ F3 ) a fixed at the is in the reservoir [ F2 ). It is opened [ F3 ] at the bottom .

4- The valve ( Kl) that controls the entrance of the water into turbine ( H )

5- Turbine ( H ) that works through the water flow above the cylinder ( F3 )

6- The valve ( K ]that controls the entrance of both gases into the reservoir ( F2 )

7 - The valve ( K4 ),which is responsible for packing hydrogen above the reservoir ( F2].

8- The valve ( K5 ) for combining oxygen at the bottom of the reservoir ( F2 )

9- ( S ) the sea level, ( SI) the sea depth

Figure no. 3/4

1- The reservoir ( F2), its outer shape, outer tilt from 0.01 to 5m, as the gas is always at the upper and the water at the bottom towards the turbine ( H )

2- ( S } is the sea surface level,(Sl]the sea depth, ( S, SI] are the level of the water at which the reservoir ( F2 ) is immersed, ( T ) is the reservoir tilt from 0.01 to 5m. 3- The valve ( K6 ) which let the water in and not out of the reservoir ( F2 )

4- The valve ( K4) at the upper to pack hydrogen. Hydrogen is of low density, so, it is packed at the upper of the reservoir. Oxygen is of high density, so, it is subsided at the bottom of the reservoir ( F2). It is collected through the valve ( K5 )

5- The valve ( Kl) to control the water flow in turbine [ H ) which is above the reservoir ( F2 )

6- The reservoir ( R ) To assemble compressed gases, which is located under the sea level, at the beach and connected to the reservoir ( F2 through the valve ( K ).

Figure no. 4/4

- The reservoir ( Fl ) looks like the reservoir ( F2 ), it is not too high, full of water and tightly closed

- ( X ) both poles of the water electrolysis at the bottom of the

reservoir ( Fl)

3- The cylinder ( F3 ) which is located in the reservoir ( Fl ) and is opened at the bottom

4- The valve [ K2 ) at the upper of the cylinder [ F3 ). It controls the entrance of the water into turbine ( H2 )

5- Turbine ( H2 ) that is operated by the water flow to generate the electricity

6- The valve ( K9 ) which lets the water in and not out of the

reservoir ( Fl )

7- The valve ( K12 ] to pack hydrogen at the upper of the reservoir ( Fl ) 8- The valve ( K13 ) to pack oxygen at the bottom of the reservoir ( Fl )

9- (S )the sea surface level, ( SI )is the sea depth. The reservoir ( Fl ) is located at the beach, as its level will be under the sea surface

10- The valve ( K9 ) lets the water in and not out of the reservoir [ Fl )

11- The reservoir ( Fl ) which is located at the beach under the sea level, is completely full of water and tightly closed. So, when both gases are Withdrawn through the valves ( K12, K13 ), the pressure decreases in the reservoir ( Fl) . The pressure in the reservoir is less than that out of the reservoir. The reservoir is immersed with the water, and then the water goes into the reservoir through the valve

( K9), which let the water in but not out of the reservoir. The water is still going into the reservoir, while the two gases are Withdrawn until the reservoir is void of them, and then, the reservoir becomes full of the water to be ready for the work again.

Claims

Claims

1- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the first element : the machine consists of two reservoirs ( F2 - R ) and the cylinder ( F ) which is fixed at the depth of the sea directly and closed from the top and this cylinder is responsible for connecting the sea pressure by oxygen and hydrogen gases which is formed by the water electrolysis machine ( XI ) which is located under the cylinder ( F ) to the top of the surface of the sea and the pipe ( Z 1 ) which is connected with the cylinder ( F ) from the top for connecting the rising gas with the sea pressure strength to the reservoir ( R ) and it is connected with the first reservoir ( F2 ) which is located on the beach under the sea level . and the reservoir ( F2 ) is full of water to its end by the valve ( K6 ) the reservoir ( F2 ) which is formed like the form of the reservoir ( R ) and the only difference is that the size of the reservoir ( F2 ) equals the pressure value by meter cubic in the first reservoir ( R ) multiplied by the size of the reservoir ( R ) .and the reservoir ( F2 ) takes slight descend which is high from the side of the valve ( K ) and low from the side of the cylinder ( F3 ) and the valve ( k6 ) permits to the water to enter and doesn't permit to water to return again and the valve ( K ) in the reservoir ( F2 ) controls in the flowing gas in the reservoir ( F2 ) and the cylinder ( F3 ) is fixed to the reservoir ( F2 ) which is open from the bottom in the water in the reservoir ( F2 ) directly. And there is a turbine at the top of the cylinder ( F3 ) to generate the electric power ( H ) and the valve ( Kl) is fixed under the turbine ( H ) in the cylinder ( F3 ) which is fixed to the reservoir ( F2 ) . and the valve ( Kl) controls in flowing water in the turbine ( H ) and the valve ( K4 ) at the top of the reservoir ( F2 ) to pull and packaging the hydrogen after finishing from the operating and the valve ( K5 ) is found under the reservoir ( F2 ) to pull and packaging the oxygen after finishing from the operating .

2- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free, the second element according to the first element ^protect the transferring sea pressure process from down to up almost with its value by the formed gas in the cylinder ( F ) and pumping it in a reservoir which full of water to its end , characterized by the water will work for connecting with the same value of the sea depth pressure on the surface of the sea almost without any lack.

3- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the third element according to the first element , protect the benefit way from the gas pressure twice in the machine , characterized by the first time is without losing any of its motion energy in the reservoir ( R ) and that is by making the size of the rising gas amount at the depth of the sea equals the size of the discharge water from the turbine ( HI ) and after finishing the water from the reservoir ( R ) the turbine ( HI ) and the gas flowing source ( K7 ) are closed and the second time is to benefit from the gas by flowing it in the reservoir (F2) until finishing from the gas motion energy.

4- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the fourth element according to the first element , the reservoir ( F2 ) which is located on the beach under the sea level characterized by for flowing the water inside the reservoir when the gas pressure inside the reservoir ( F2 ) reduces by the valve ( K6 ). When filling gas oxygen and hydrogen From Valve ( K5, K4 )

5- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the fifth element according to the first element , the reservoir ( F2 ) takes slight descend which is high from the side of the valve ( K ) and low from the side of the cylinder ( F3 ). characterized by In order to make the water always in the direction of the cylinder ( F3 ).

6- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the sixth element according to the first element , the cylinder ( F3 ) is Fixed to the reservoir ( F2 ) which is open from the bottom ,on the water of the reservoir ( F2 ) directly and there is the turbine at the top of the cylinder ( F3 ) to generate the electricity ( H ). characterized by In order to take advantage of all the water inside the reservoir ( F2) So as not the gas rush of through the turbine during the operating.

7- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the seventh element according to the first element , the valve ( K4 ) at the top of the reservoir ( F2 ), characterized by to pull the hydrogen And the mobilization of it, after finishing from the operation. Because it is less dense and settles at the top of the reservoir

8- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the eighth element according to the first element , the valve ( K5 ) is located under the reservoir ( F2 ) , characterized by to pull the oxygen And the mobilization of it, after finishing from the operation . Because it the largest density and settles at the bottom of the reservoir ( F2)

9- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the ninth element according to the first element , by replacing the cylinder ( F ) , the pipe ( Zl ) and the gas reservoir ( R ) with the reservoir ( F 1 ) and it is full of water to its end and closed and there is the machine ( X ) under the reservoir ( Fl) to electrolysis the water into hydrogen and oxygen characterized by to give the same result of the sea pressure when the machine ( X ) works the gas rises and works as the work of the sea pressure in flowing the water and generates the electricity in the reservoir ( Fl).

10- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the tenth element according to the first element , by replacing the turbine to produce the electricity by any other machine, characterized by to operate it by the flowing water with the sea pressure strength

11- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free the eleventh element according to the first element , protect the invention operation way automatically the characterized by the operation continues automatically Because it is the time of the first reservoir ( R ) operating equals the time of the second reservoir ( F2 ) operating the characterized by and after operating the first reservoir ( R ) and before operating the second reservoir ( F2 ), there is a third reservoir like the first one ( R ) ,so the second reservoir ( F2 ) operating works for providing the third reservoir with the electricity which is necessary for operating it and by finishing the second reservoir ( F2 ) from the operation thus the third reservoir will full of gas and ready for operating and before this operation there is a fourth one which looks like the second reservoir ( F2 ) which is ready for operating and after finishing from operating of the second reservoir ( F2 ) the third reservoir will be ready for operating thus the third reservoir works for operating the fourth reservoir which looks like the second reservoir ( F2 ) and before operating the fourth reservoir , the first reservoir ( R ) will be ready for operating ,so the fourth reservoir will provide the first reservoir ( R ) with the electricity and etc... and the operation continues automatically 12- A machine for compressing gas to generate electricity and produce hydrogen and oxygen for free The twelfth element according to the first element Protection exploit the pressure gas which resulted from the water electrolysis provided that the place where the water electrolysis is full of water to its end and closed without any empty space inside it. characterized by Which makes the gas a higher pressure