JPH07208321A - Energy jet generator - Google Patents

Abstract

PURPOSE:To continue to take out a part of enormous energy, and aim at its utilization by comparing a high pressure gas with a fluid which is ejected from an ejection port at a pressure same a those for the high pressure gas when high pressure gas is ejected into a position having low pressure such as the atmosphere, so as to produce a large difference in their dynamic energy. CONSTITUTION:Vacuum is generated around a nozzle, synergism of speed for pushing out operating fluid and its expanding speed is operated so as to create enormous energy naturally. A wind mill is assembled in a vacuum chamber provided between the nozzle and a check valve and in a discharging pipe in order to transmit a part of kinetic energy to the wind mill dynamic energy so as to take it out as energy such as electric power energy. Residual energy which remains in the operating fluid is used, jet action of a jet pump injector and discharging function are utilized, the operating fluid is discharged and returned again in an original container, so that the operating fluid may be circulated.

Description

Detailed Description of the Invention

[0001]

[Industrial application] Gas expands and contracts significantly 2K
It is compressed to 1/2 at gr / cm ² and 10 Kgr / cm
^{In the case of 2} , the specific gravity of the gas is compressed to 1/10, and the pressure to be liquefied is different, but the ratio of the compressed gas to be compressed is the same for all compressed gas of 10 Kgr / cm ²
Possessing enormous energy that expands to 0 times
10 kg for compressed liquefied gas liquefied at gr / cm ²
It is vaporized at a pressure of r / cm ² and possesses enormous energy that expands 10 times. The same applies to high-pressure steam, which retains energy that expands by that pressure. When the working fluid is ejected through the nozzle to a place with a low pressure such as the atmosphere, the same 1 is obtained when water is ejected from the same nozzle at the same pressure.
There is a huge difference in the kinetic energy ejected per second.Using this high-pressure gas with enormous energy as the working fluid, it is ejected from the nozzle into the energy jet generator, and the working fluid is released from the overflow into the atmosphere. When discharged, a jet action is caused around the nozzle by the velocity of the working fluid to form a vacuum and a vacuum chamber is naturally created. The synergistic effect of the speed of being extruded by the pressure inside the container of the container and the speed of expanding in the vacuum chamber is naturally created in the vacuum chamber of the energy jet generator.
This produces a huge amount of kinetic energy. This energy amount Kgr weight m / · s. ^{Since 2} is higher than any pressure in the container of high-pressure gas, a part of this enormous energy is transmitted to the windmill and taken out, and the working fluid is exhausted back into the original container and circulated in excess. Yes, a wind turbine such as a vane-type wind turbine, a spiral-type wind turbine, or a screw-type wind turbine is installed in the vacuum chamber or the exhaust pipe between the nozzle and the check valve. It is an energy jet generator that discharges the working fluid back into the original container and circulates it back.When high-pressure steam is used as the working fluid, the equipment generates electricity and at the same time generates electricity from the boiler itself. It is an energy jet generator for operating even this. It is a compressed liquefied gas or compressed gas that has been made in advance. Only high pressure gas such as high-pressure steam by utilizing and jetting effect intended procreation 此 of enormous energy in the energy jet generator
Even if the overflow is closed by producing this enormous amount of energy at one time, the energy jet generator can continue to operate.
Using compressed gas that is vaporized at 0 Kgr / cm ² , how much energy is produced, how much energy is transmitted to the wind turbine and taken out, how much energy is left in the working fluid, and the working fluid is discharged into the original container again. It is as follows when calculating whether it is possible to circulate back by returning the pressure of vaporizing this compressed liquefied gas to 10 Kgr / c
When m ² is set, the pressure P of the compressed gas that is the working fluid is also 10
Kgr / cm ² and mass γa of 1 m ³ of this compressed gas
Is 12, 9 Kgr / cm ^{3 When} ejected from the nozzle of the energy jet generator and released from the overflow into the atmosphere Speed of ejection from the nozzle Ua m / s
Is When the jet outlet of this nozzle is 5 cm ² , the amount of working fluid γa gr / s ² jetted per ^second is The amount of kinetic energy produced by the working fluid when ejected from this 5 cm ² nozzle for 1 second Ka Kg
r weight m / s ² is The specific gravity and liquefied pressure of the gas are different, but the gas with a high degree of elasticity can hold a huge amount of energy. So, let's return this working fluid to the original container again. How much kinetic energy is needed? The calculation is as follows by replacing the pressure in the container of compressed liquefied gas with a water pressure with almost no elasticity. Water has a mass γw of 1 m ³ of 1,000, Kgr / m ³ This water is 10 Kgr / cm ² which is the same as the working fluid. When this water is jetted into the atmosphere, the speed of jetting water U
w m / s When the outlet of this water is set to 5 cm ² which is the same as the working fluid, the amount of water jetted per second γw gr / s ² is The amount of kinetic energy of water jetted from this 5 cm ² jet for 1 second Kw Kgr weight m / s ²
Is Is defined as There is a huge difference in kinetic energy between high-strength high-pressure gas and water with almost no elasticity. Water causes a difference in pressure and kinetic energy, and therefore it is necessary to return the working fluid to the original container again. Kinetic energy when water is ejected ² , 213, Kgr weight m / s ^{2 If it} climbs above m, it becomes a calculation that the working fluid can be returned to the original container again. Therefore, half of the kinetic energy produced by the working fluid is energy. The kinetic energy transferred to the wind turbine is 9,600 per second, even if the remaining half is used to return the working fluid back to the original container. ² and the power generation efficiency of this energy is 90% With a working fluid ejected from a 5 cm ² nozzle
You can climb up to 84,672, W / s ² per second.

[0002]

2. Description of the Related Art In the prior art, the compressibility due to gas pressure is clear according to Newton and Boyle's law.
In the heat dissipation state, it will be specified in this manual.The amount of kinetic energy due to the expansion of gas is clear in the physical calculation.
The calculation when ejected from the nozzle is specified in this document.It is also clear in other jet devices that the jet action is caused by the velocity when ejecting high-pressure gas or high-pressure liquid from the nozzle. When the gas is ejected from the nozzle, the enormous amount of kinetic energy produced by the working fluid is higher than any pressure of the device, so it is possible to discharge the working fluid back into the original container. This is proved by the jet pump injector, which is a water supply auxiliary pump for industrial boilers, and is also based on physical calculation.This energy jet generator combines these functions and functions and incorporates a wind turbine into the energy jet generator. A part of the enormous energy produced by the working fluid is transmitted to the wind turbine and taken out. It is a generator

[0003]

The high-pressure gas having this enormous energy is ejected from the nozzle into this energy jet generator, and the jetting action is caused by the ejection speed to form a vacuum, and this energy is generated. The enormous kinetic energy of the speed at which the jet is ejected from the nozzle and the speed at which the high-pressure gas, which is the working fluid, expands due to the explosion in the vacuum chamber where the vacuum is formed, is momentarily synergistic. Because it is caused, a part of the energy produced by the working fluid is transmitted to the wind turbine and taken out for other purposes.The remaining energy left in the working fluid causes the working fluid to be discharged back into the original container and circulated. Can be made to

[0004]

[Means for Solving the Problems] It is well known to all that when a compressed liquefied gas, compressed gas, or high-pressure vapor is ejected to a place with a low pressure such as the atmosphere, it has enormous energy. Everybody knows that when high-pressure gas is ejected from a nozzle, its speed causes a jet action to form a vacuum, and that the power generation efficiency of a wind turbine can reach 90% or more. The ejector is a boiler water supply pump that seems impossible at first glance, but it also consists of physical calculations. Those who know this also know that the working fluid can be discharged back into the original boiler and the working fluid can be circulated. This energy jet generator, which is a jet pump, combines these disparate functions and functions into one.

[0005]

[Function] This enormous kinetic energy is produced only by the highly liquefied compressed liquefied gas or compressed gas or the high-pressure vapor, and a liquid having almost no elasticity cannot produce such enormous kinetic energy.
It is also impossible to circulate the working fluid again.

[0006]

[Embodiment] The working fluid of this energy jet generator is a small compressed liquefied gas tank or a single cylinder. Even a small nozzle with a jet of 5 cm ² can be used at home.
It can also supply electric power to small factories. Also, it is possible to enlarge the tank and the nozzle of the jet outlet.
A lot of this energy jet generator can be attached to the tank

[0007]

EFFECTS OF THE INVENTION This energy jet generator is made in advance. The enormous energy that a high-pressure gas expands is used as a working fluid. It seems that it is impossible at first glance, but it operates without using any energy. To continue

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[Procedure amendment]

[Submission date] March 24, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Detailed explanation of the invention

[Correction method] Change

[Correction content]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION This invention is the first to be realized by using a high-pressure gas that has enormous expansion and contraction of enormous energy in the working fluid of an energy jet generator. This energy jet generator has the jet action of a jet pump injector. A nozzle, vacuum chamber, and discharge pipe that utilize the discharge function. Overflow and check valves are installed.A wind turbine is installed in the vacuum chamber and discharge pipe between the nozzle and the check valve.The working fluid uses high-pressure gas such as vaporized high-pressure gas of compressed liquefied gas or high-pressure steam It is a thing to convey a part of the huge kinetic energy to be output to the wind turbine and take it out as energy such as electric power. Also, it is the remaining kinetic energy left in the working fluid.
It is an energy jet generator for discharging the working fluid into the original container and returning it to circulate the working fluid to make a permanent power generator. The body has different specific gravities and liquefied pressures, but the compression ratios are the same. Therefore, when a compressed liquefied gas or high-pressure gas is expanded to atmospheric pressure, It produces a huge amount of kinetic energy When the high pressure gas vaporized from this compressed liquefied gas container is used as a working fluid and ejected from the nozzle of the energy jet generator and released from the overflow into the atmosphere
Due to the speed of jetting from the nozzle, a vacuum is naturally formed around the nozzle and a vacuum chamber is naturally created in the energy jet generator, so the working fluid extruded from the nozzle by the vaporizing pressure of the compressed liquefied gas is In the vacuum chamber
Explosion causes expansion and its speed becomes supersonic.Therefore, the energy of the working fluid pushed out of the nozzle by the vaporized pressure of the compressed liquefied gas and the pushed working fluid are below atmospheric pressure in this vacuum chamber. Synergistic action with the energy that expands to produce a huge amount of kinetic energy This is an action that is created only by a highly elastic gas, and a liquid such as water that has almost no expansion and contraction causes a jet action, but expansion and expansion Since it has almost no property, it can only generate kinetic energy corresponding to the pressure that is pushed out.It is an energy jet generator for producing this enormous kinetic energy, and to extract a part of this enormous kinetic energy from the nozzle A windmill is installed in the vacuum chamber or exhaust pipe between the check valves to collect energy such as electricity. It is an energy jet generator for returning and circulating the working fluid back into the original container with the remaining kinetic energy left in the working fluid and the seemingly impossible energy jet generator, but currently used Or a combination of actions and functions, and enormous energy is hidden in the high-pressure gas to produce enormous kinetic energy.
Even if the overflow is closed, the amount will be ^enough to continue operation. It can also be explained from the following calculation 10 ^kgγ /
cm ² of high-pressure gas 1 m ³ of mass γa of 12.9 ^kgγ
/ M ³ When ejected from the nozzle and released from the overflow into the atmosphere The velocity Ua ^m / s of the working fluid ejected from the nozzle is = 389.79 ^{m 2} / s When the jet outlet of this nozzle is 5 cm ² , the working fluid is 1
The amount γa ^gr / s ² ejected per ^second is γa ^gr / s ² = ua ^cm / s × γa ^gr / cm ³ × 5
cm ² = 38,979. X 0.0124 x 5 = 2.514.
The amount of kinetic energy produced by the working fluid ejected from this 5 m ² nozzle in 1 second becomes ^gr / s ² ka ^{kgr weight m}
/ S ² is The amount of kinetic energy required to discharge this working fluid back into the original container of compressed liquefied gas and return it is calculated by replacing the pressure of the compressed liquefied gas with a water pressure that has almost no elasticity. Then, the mass γa of 1 m ³ of water is 1.000 ^kgγ / m ³ , and when this water is jetted into the atmosphere from the nozzle at 10 ^kgγ / m ^2, which is the same as the working fluid, Speed uw ^m /
s is = 44.27 ^m / s When the jet outlet of this water is 5 cm ² which is the same as the working fluid, the amount γw ^gr / s ² of water jetted per ^second is γw ^gr / s ² = uw ^cm / s × γw ^gr / cm ³ × 5 = 4.427 × 1 × 5 = 22.135 ^gr / s ² Amount of kinetic energy of water jetted from this 5 cm ² jet for 1 second kw ^{kgr weight m} / s ² is Is defined as There is a huge difference in kinetic energy between a highly stretchable high-pressure gas and water that has little stretchability. 1
1 g of water in cm ³ is a difference for calculating pressure and kinetic energy. Therefore, in order to return the working fluid to the original container, the kinetic energy of 1 when water is ejected
442.5 ^{kgr weight} per cm ^{2 m 2} / s ² . If it climbs to more than cm ^2, it becomes a calculation that the working fluid can be returned to the original container. Therefore, half of the kinetic energy produced by the working fluid is transmitted to the wind turbine built into the energy jet generator, and the other half is restored to the original working fluid. The amount of kinetic energy transmitted to the wind turbine is 9.600 ^{kgr-weight m 2} / s ² per second even if it is used to put it back in the container, and if the power generation efficiency of this energy is 90%, it is 9.600 × 9 .8 × 0.9 = 84.672. ^w / s ²
The working fluid ejected from the 5 cm ² nozzle is 8 per second.
4.672. It is to climb to ^w / ^{s 2} ───────────────────────────────────────── ─────────────

[Procedure amendment]

[Submission date] May 19, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Claim 1

[Correction method] Change

[Correction content]

Claims (1)

[Claims] 1. A high pressure gas such as a compressed liquefied gas, a compressed gas or a high pressure vapor is used as a working fluid of an energy jet generator, and a high pressure gas which is a working fluid is extruded from a nozzle at a low pressure. The speed that is generated causes a jet action to form a vacuum, and the synergistic action of the speed at which the working fluid expands naturally produces a huge amount of kinetic energy. A check valve is extracted from the nozzle that takes out a part of this huge amount of energy. A windmill is installed in the vacuum and the exhaust pipe between the two to convey a part of the energy to the windmill, and the working fluid is discharged into the original container again using the remaining energy left as the working energy taken out as energy such as electric energy. An energy jet generator that circulates a working fluid and is used to create a permanent energy jet generator. It is a rugie jet generator