RU2473816C1 - Method and device for energy generation - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: method for energy generation provides for harmonic combination of forces of different nature. Instead of a stationary generator and dynamics of "working medium", they use displacement in the "working medium", such as water, "converters-accumulators" (containers), in which as a result of their displacement - lowering to depth and lifting to surface, variable external power parameters of the medium are converted relative to the "inner" "converter - accumulator", and as a result, energy potential is accumulated and fixed, which is then realised when lifting the "converter - accumulator" to the surface. Also a device is proposed that realises the method.

EFFECT: invention makes it possible to produce energy by an environmentally pure method.

2 cl, 1 dwg

Description

The invention relates to the field of energy.

A known method of generating electricity based on the conversion of kinetic wind energy into electricity [German Heder. Design and calculations. Gosmashmetizdat. 1934. Moscow, (p. 499)]. The method is as follows. Air masses, moving, due to their pressure on the propeller blades, rotate them. Kinetic wind energy is converted into rotational propeller motion. The propeller axis is connected to an electric generator that converts rotational motion into electricity. The disadvantage of this method is the limited power, the dependence of the energy received on the natural and climatic conditions, geographical conditions, unpredictability for a long time, the need to occupy large areas.

Also known is a method of generating electricity based on the conversion of the kinetic energy of water in waterfalls into electricity [Herman Heder. Design and calculations. Gosmashmetizdat, 1934, Moscow, (p. 485)]. The method is as follows. Water falls from a certain height onto the turbine blades. The turbine converts the kinetic energy of the falling water into the rotational motion of the axis of the turbine, which is connected to an electric generator. An electric generator generates electricity. The disadvantages of this method are the need for binding to a specific place where there is a water drop in height or the need to build dams with complex and expensive hydraulic structures, occupation of large areas by reservoirs, the possibility of unforeseen environmental consequences, limited energy potential and capacity, dependence on natural and climatic conditions, the possibility catastrophic consequences during the destruction of hydraulic structures.

The closest in technical essence and the achieved positive effect to the claimed method and device for its implementation is the production of electricity by the method based on the difference in water level due to sea tides [German Heder. Design and calculations. Gosmashmetizdat, 1934, Moscow, (p. 486)]. The essence of the method is as follows. Special mines with turbines placed in them are being built. The turbine converts the kinetic energy of water movement, arising due to the difference in water level during high and low tides, into the rotational motion of the axial shaft of the turbine connected to the electric generator. An electric generator generates electricity.

The disadvantages of this method are:

- the need for reference to a specific coastal landscape, where significant changes in water level due to tides are possible;

- the need for complex coastal capital hydraulic communications, most exposed to the destructive effects of storms;

- limited opportunities for increasing potential energy and capacity;

- significant logistical difficulties in capacity building.

A feature of all three of the above methods is that the transformation of energy is carried out exclusively due to the kinetic energy of the "working fluid" of the environment. The “converter-generator" of energy is stationary in space, and also the fact that in the process of receiving energy in the device directly converts one type of energy to another, but does not use preliminary energy storage.

A common drawback of all the above methods is that the possibility of obtaining energy is available only in the case of the presence of kinetic energy of a natural energy carrier (water, wind). The disadvantage of the prototype is that although the gravitational force (tides, water weight) is used, this potential gravitational energy is used only partially.

Thus, the main disadvantages of the prototype are: the impossibility of generating electricity in the absence of kinetic energy of a natural energy carrier (water), as well as the insufficient full use of the potential energy of gravity to generate energy.

The aim of the invention is to solve the problem of realizing the possibility of generating electricity in the absence of kinetic energy of a natural energy carrier (water), as well as a more complete use of the potential energy of the Earth's gravity in combination with energy potentials of a different kind.

This goal is achieved by the fact that the rotor of an electric generator producing electric energy of a known method of generating energy is rotated by containers moving in a closed circuit, while the containers, at certain spatial intervals, are connected to each other and form a closed connected circuit from them, a load is attached to each container, sequentially , along the trajectory forming a closed loop, under load, lower containers with cargo to the depth of the reservoir, lift the containers from the depth of the reservoir under the action using the buoyancy force of water, at the same time, at a maximum depth from the containers, cargo is separated and dumped, and the volume of the containers is increased by chemically converting the solid into combustible gas in it, and at the minimum depth, the gas in the container is vented under pressure, while the gas rotates the rotor of an electric generator producing electricity, and then this gas is burned in a gas turbine, which also rotates the rotor of an electric generator producing electricity.

The proposed method of generating energy is as follows. In the sea or a fairly deep body of water from containers that can change their volume, form a closed loop. At the same time, adjacent containers are rigidly connected to each other through a certain distance between the containers. On the surface of the reservoir, or the minimum distance from the surface, a load is attached to the containers, the weight of which is several times greater than the buoyancy force of water. The container itself also weighs slightly more than the buoyancy of the container from the water. At the same time as the cargo is attached to the container, a solid chemical reagent is inserted into the container’s internal cavity, which, when interacting with a certain substance, is converted into a gaseous combustible state. The container is hermetically closed, and the volume of the container is fixed. Containers sequentially, as on a carousel, descend to depth. The maximum diving depth can be hundreds or thousands of meters. In the process of immersion, the chemicals react and the pressure inside the container rises. The volume of the container, due to the action of the clamps, does not change. At the maximum calculated depth, the cargo is separated from the containers, which then autonomously falls to the bottom. The latches also work, which prevented the increase in the volume of the container. The volume of the container increases, and the force of pushing the container out of the water becomes greater than the weight of the container. Thus, in one shoulder, a closed rigidly connected contour, forces directed downward, and in the other shoulder, forces directed upward. These forces do not oppose, and therefore add up. The entire closed loop with containers rotates. Rotating, this circuit rotates the generator, which is located on the surface. Flammable gas, which is under pressure, is vented from containers on the surface. In this case, the gas also rotates the rotor of the electric generator. Then this gas enters the gas turbine, where it is burned. The gas turbine also rotates the rotor of the generator. A side positive effect in the proposed method may be the disposal of garbage and waste. The expected average power of one closed loop is hundreds of kilowatts, megawatts.

To implement the method of generating electricity, a device is proposed that differs from the device used in the "Method of producing energy" - the prototype [German Heder. Design and calculations. Gosmashmetizdat, 1934, Moscow, (p. 486)]. This device does not allow to receive electricity in the absence of dynamics of the potential energy carrier of the external environment (water), and accordingly the insufficiency or absence of its kinetic energy, and it also excludes the possibility of sufficiently expanding the possibilities of more fully using the energy potential of the Earth's gravitational field.

In order to eliminate these drawbacks and implement the proposed method of generating electricity, a device is proposed that contains an electric generator, the output of which is the output of the device, characterized in that it additionally introduces a base platform, a set of cargo containers, chain link containers, N bundle containers - from the first bundle container to N ligament containers, securing the cargo of containers - from securing the first ligament container to securing the N ligament container attached to the corresponding container bundle container cargo - from the first freight container to the N freight container, internal volume clamps of each bundle container - from the first bundle container lock to the bundle container lock N, the shutter of each bundle container - from the shutter of the first bundle container to the shutter N of the bundle container, cartridge with chemical reagent of each ligament container - from the cartridge of the first ligament container to the cartridge N of the ligament container, the transmission mechanism of each ligament container - from the transmission mechanism of the first con the ligament trainer to the ligament of the ligament of the ligament container, the gas trigger of each ligament container - from the trigger of the first ligament container to the trigger of the l of the ligament container, wind turbine, thermal gas turbine, mechanical gearbox, while the generator is connected to the base platform, which is also connected with a set of freight containers and a container chain link that is connected to all bundle containers - from the first bundle container to N bundle container, each container is bundled The link is connected with the fastening of the cargo container - from the fastening of the first container of the bundle to the fastening of the N container of the bundle, each of which is also associated with a set of freight containers and each freight container attached to each container of the bundle - from the first freight container to the N freight container, which are also connected with a chain link of containers, each ligament container is connected to the latches of the internal volume of the container - from the latch of the first ligament container to the latch N of the ligament container, each latch is internal the container’s current volume is connected with the latch container shutter - from the shutter of the first bundle container to the shutter N of the bundle container, each shutter of the bundle container is connected with a chemical cartridge - from the cartridge of the first bundle container to the cartridge N of the bundle container, each shutter of the bundle container is also associated with the transfer ligament container mechanism - from the transmission mechanism of the first ligament container to the transmission mechanism N of the ligament container, with each transmission mechanism of the ligament container being associated with a fixed The internal volume of the container of the respective container of the bundle, each retainer of the internal volume of the container and each container of the bundle is connected with the trigger of the gas - from the trigger of the first container of the bundle to the trigger of the container N of the bundle, each trigger of the gas is also connected to the base platform, which is connected to the wind turbine , which is connected to a thermal gas turbine and a mechanical gearbox, which is also connected to a thermal gas turbine, a base platform and an electric generator torus.

The drawing shows the main constituent elements of a device that implements a method of generating electricity. In the drawing, the following are indicated: electric generator 1, base platform 2, set of cargo containers 3, chain connection of containers 4, N - bundle containers - from the first bundle container 5 to N - bundle container 6, fastening of container cargo - from fastening the first bundle container 7 to fastening N - container bundles 8, attached to each container bundles cargo container - from the first cargo container 9 to N - cargo container 10, the latches of the internal volume of each container bundles - from the clamp of the first container bundles 11 to the fix ora N - bundle container 12, the shutter of each bundle container - from the shutter of the first bundle container 13 to the shutter N - bundle container 14, the chemical reagent of each bundle container - from the cartridge of the first bundle container 15 to the cartridge N - bundle container 16, the transmission mechanism each bundle container - from the gear of the first bundle container 17 to the gear N - the bundle container 18, the gas trigger of each bundle container - from the trigger of the first bundle 19 container to the trigger m nisms N - ligament container 20, wind turbine 21, heat the gas turbine 22, mechanical gear box 23.

The device operates as follows. On the sea surface, over a deep hollow, is the base platform 2, the buoyancy of which can, for example, be ensured by air pontoons. The base platform 2 is connected to the chain link of the containers 4. The chain link of the containers 4 also connects N containers of a bundle of 5.6. Between adjacent ligament containers, a rigid connection is provided. N containers of bundles of 5.6 with a chain connection of containers 4 form a closed loop, similar to a vertically located "carousel". On the base platform 2 is a set of freight containers 3. This set of freight containers 3 should be periodically replenished. On the base platform 2, a cargo container 9.10 is attached to each container of the bundle 5.6 sequentially, by securing the cargo of containers 7.8. The density of the cargo container 9.10 is several times higher than the density of water. The bundle container 5.6 itself can change its volume. In the initial state, on the base platform 2, the density of the container bundle 5.6 is slightly higher than the density of water. Also, with the cargo container 9.10 attached to the bundle container 5.6 in the bundle container, a chemical reagent cartridge 15.16 is inserted through the shutter 13.14 of the bundle container. The initial volume of the container bundles of 5.6 is fixed by the clamp of the internal volume of 11.12. Containers bundles of 5.6 with cargo containers 9.10 sequentially on a chain connection of containers 4 are lowered down to the seabed. At the same time, the weight of the container bundle of 5.6 with the cargo container of 9.10 significantly exceeds the force of ejection of water. In the process of lowering the container of bundle 5.6 with the cargo container of 9.10 in the container of bundle 5.6, a chemical reaction of the cartridge with a chemical reagent 15.16 is carried out and the chemical reagent is successively converted from a solid state into a gaseous state. The pressure inside the bundle container 5.6 increases, but its volume does not change, since it is fixed by the internal volume retainer 11.12. When lowering the ligament container 5.6, the external pressure also increases. At a certain, predetermined depth H, the load securing of containers 7.8 is unlocked and the cargo container 9.10 is dumped. The cargo container 9.10 then independently falls to the bottom. At the same time, the latches of the inner volume of the ligament container trigger 11,12. At this point, the pressure inside the bundle container of 5.6 exceeds the external pressure. By means of a transmission mechanism 17.18 of the bundle container, the volume of the bundle container 5.6 is changed and its density becomes less than the density of water. The buoyancy of the water, in this case, exceeds the weight of the bundle container of 5.6. The ligament container 5.6 begins to rise to the surface. In this case, the weight force of the sequence of containers of the bundle of 5.6 with cargo containers 9.10 and the buoyancy force of the water of the containers of the bundle of 5.6 are organized in an organized manner. The chain connection of the containers 4, together with the containers of the bundle 5,6, carries out a rotational movement. On the base platform 2, the chain connection of the containers 4 rotates the rotor of the electric generator 1 through the gearbox 23, which generates electricity. Containers of ligament 5,6 rising, sequentially on the base platform 2, through the trigger mechanism of gas 19,20 relieve excess pressure that exists inside the container of the ligament 5,6. The gas escaping under pressure rotates the wind turbine 21, which, through the gearbox 23, rotates the rotor of the electric generator 1. Then, on the base platform 2, the initial volume is fixed sequentially for each bundle 5.6 bundle, a cargo container 9.10 is attached to it, inserted chemical reagent cartridge 15.16 and the cycle repeats. Thus, a continuous cyclic method of rotation of the chain connection of containers 4 with containers of bundles 5,6 is implemented. Electricity is generated by lowering containers of bundles of 5.6 with cargo containers of 9.10 under the influence of excess weight over the buoyancy force of water at the stage of lowering, the lifting force of containers of bundles of 5.6 due to the excess pushing force of containers of bundles over the weight of containers of bundles at the lifting stage, kinetic the energy of the bundle exiting the container under gas pressure, the kinetic energy of the gas of the cartridge with a chemical reagent due to its expansion during combustion in a thermal gas turbine.

Depending on the technologies used, an unlimited increase in capacity is possible and there is a significant potential energy source based on the Earth's gravity energy.

An approximate calculation of the generated energy by the device and the option of the possible average power of energy production based on the proposed method is as follows. At a depth of H ₁ = 10 m, the water pressure is 1 atm.

1 atm = 100,000 Pa = 100,000 ^N / _m ² .

At a depth of H ₂ = 1000 m, the water pressure is 100 atm.

100 atm = 10 ^{7 N} / _m ² .

If the stem area is 1 m ^2, then the pressure on the rod is F _{d =} 10 ⁷ N.

If the stroke is ∆ℓ = 1 m, then the potential energy of “compression” is

∆E = (F ∆ℓ) = 10 ⁷ J.

Denote: P _to - the weight of the container bundles; F _VK - the ejection force of the ligament container;

R _gr - the weight of the cargo; F _{in gr} - force pushing the load.

In step 1 (lowering): Downward force:

∆F ₁ = (P _to + P _gr ) - (F _VK1 + F _{in gr} )

In stage 2 (rise): Upward force:

ΔF ₂ = F _VK2 - P _to

Let: Н = 1000 m; P _to = 25000 N; P _gr = 30,000 N; F _VK1 = 20,000 N; F _{in g} = 10,000 N;

F _VK2 = 30000 N. Then ∆F ₁ = 25000 N. ∆F ₂ = 5000 N. It is necessary to change the volume of the bundle container - 1 m ³ . Consequently, the gas of one container must perform work of at least 10 ⁷ J. The work when lowering one container of the bundle with the load is equal to:

∆E ₁ = ∆F ₁ * N = 25 · 10 ⁶ J.

Work when lifting one container bundle is equal to:

∆E ₂ = ∆F2 * N = 5 · 10 ⁶ J.

Then the energy of one container bundle (without burning gas) is equal to:

ΔE _Σ1 = ΔE + ΔE ₁ + ΔE ₂ = 40 * 10 ⁶ J.

Let the length of the entire “roundabout” be 2200 m. The distance between the containers is 22 m. Then the number of containers is N = 100. The total energy of the "carousel" is 40 * 10 ⁸ J.

If the speed of the carousel is 2.2 m / s, then the time of one cycle is 1000 s, and the average power of the carousel (excluding gas burning) is 4 * 10 ⁶ W.

Claims (2)

1. A method of generating electricity based on the use of the energy potential of the natural environment by combining and converting the forces of an external natural energy carrier into electrical energy, which consists in the fact that the electric generator generates electricity due to the action of external forces, characterized in that the moving rotor of the electric generator rotates in a closed loop containers, while containers at certain spatial intervals are connected to each other and form their closed connected circuit, load is attached to each container, sequentially, along the path forming a closed circuit, containers with cargo are lowered by weight to the depth of the reservoir, the containers are lifted from the depth of the reservoir under the action of the buoyancy force of water, while at the maximum depth from the containers separation and discharge of cargo, and the volume of containers is increased by chemical conversion of a solid substance into a combustible gas in it; gas is etched at a minimum depth, finding pressure in the container, while the gas rotates the rotor of the electric generator generating electricity, and then this gas is burned in a gas turbine, which also rotates the rotor of the electric generator generating electricity. 2. The device for implementing the method according to claim 1, containing an electric generator, the output of which is the output of the device, characterized in that it additionally introduces a base platform, a set of freight containers, chain link containers, N bundle containers - from the first bundle container to N bundle container, securing cargo containers - from securing the first ligament container to securing the N ligament container attached to the corresponding ligament container; cargo container - from the first cargo container to N cargo Nteiner, latches of the internal volume of each bundle container - from the clamp of the first bundle container to the clamp N of the bundle container, the shutter of each bundle container - from the shutter of the first bundle container to the shutter N of the bundle container, the chemical reagent of each bundle container - from the cartridge of the first bundle container to cartridge N of the bundle container, the gear mechanism of each bundle container - from the gear of the first bundle container to the gear mechanism of the N bundle container, the trigger the basics of each bundle container - from the trigger mechanism of the first bundle container to the trigger mechanism N of the bundle container, a wind turbine, a thermal gas turbine, a mechanical gearbox, the generator being connected to a base platform, which is also connected to a set of cargo containers and a chain chain of containers, which is connected with all bundle containers - from the first bundle container to N bundle container, each bundle container is associated with the fastening of the cargo container - from the fastening of the first bundle container ki for fastening N bundle containers, each of which is also associated with a set of freight containers and each freight container attached to each bundle container - from the first freight container to N freight containers, which are also associated with the chain link of the containers, each bundle container is associated with latches the internal volume of the container - from the latch of the first ligament container to the latch N of the ligament container, each latch of the internal volume of the container is associated with the shutter of the ligament container - from the shutter of the first ligament containers to shutter N of the ligament container, each latch of the ligament container connected to a cartridge with a chemical reagent - from the cartridge of the first ligament container to cartridge N of the ligament container, each shutter of the ligament container also connected to the transmission mechanism of the ligament container - from the transmission mechanism of the first ligament container to the transfer mechanism N of the bundle container, wherein each gear mechanism of the bundle container is associated with a latch of the internal volume of the container of the corresponding bundle container, each fix the ator of the internal volume of the container and each container of the bundle are connected to the trigger of the gas - from the trigger of the first container of the bundle to the trigger of the container N of the bundle, each trigger of the gas is also connected to the base platform, which is connected to the wind turbine, which is connected to the thermal gas turbine and the box mechanical gears, which is also connected to a thermal gas turbine, a base platform and an electric generator.

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