RU4998U1 - ENERGY INSTALLATION - Google Patents

Abstract

1. A power plant comprising a tubular evaporator connected in a closed circulation loop located below the water level, a steam turbine connected to an electric generator, a tubular condenser, characterized in that the installation is equipped with a pump located in the circulation loop, the condenser is located below the water level below the evaporator, and the evaporator and condenser are made in the form of three-dimensional tubular gratings, while the gratings of the evaporator and condenser form a single floating platform equipped with propulsors. 2. Installation according to claim 1, characterized in that the evaporator and condenser gratings are made in the form of a set of modules, each of which contains a docking unit made in the form of a volumetric body with through intersecting channels located in three, for example, mutually perpendicular directions to which the tubes are connected gratings. 3. Installation according to claim 1, characterized in that, at least for the capacitor, the grating tubes contain thin spray tubes placed inside them with through holes made on their surface. Installation according to claim 1, characterized in that the evaporator and condenser gratings are connected into a closed circulation circuit by means of a collector pipe located on the central vertical axis of the floating platform with through holes, on the side of which are connected the tubes of the upper horizontal section of the evaporator and the condenser tube, a steam turbine is placed in the manifold pipe above the level of the condenser, and the pump to which the vertical pipe is connected is located at the bottom

Description

Power plant „

The invention relates to power engineering, in particular to power plants using the natural difference in ambient temperature for generating electric energy. A well-known oceanic thermal power plant (a.c.SSSR N1681 031, F01K 13 / ОО, ROZB7 / 04, publ. BI N36, 1991). The installation contains series-connected in a closed Kotfrype .eii | eHHbie

above water, condenser, hydraulic ...

a turbine, an underwater evaporator, a steam turbine,

when this capacitor is located in the wind tunnel, which is made in the form of a supersonic diffuser. The installation is equipped with a superheater for additional heating of the working fluid, which is used as a low-boiling liquid, for example. Freon. The vapor of the working fluid after the evaporator overheats in the superheater and

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they rotate the steam turbine, after which they fall into the condenser located inside the wind tunnel. Vapors of the working fluid are cooled by air and condense. After condensation, the working fluid flows down and rotates a hydraulic turbine due to pressure. Electric power generators are connected to the turbines. However, the operation of this installation is highly dependent on the presence of air currents above the ocean surface and wind strength, which reduces the stability of the operation of the installation and complicates its design. A well-known oceanic power plant using the natural temperature difference between the warm surface layers of the ocean and cold deep layers (EPO N01625799, F03G7 / 04, publ. 1985). The L / machine contains a closed-loop circulation system of the working fluid, including a condenser, an evaporator, a steam turbine associated with the electric generator, as well as the circulation system of warm and cold water, drawn using pumps from different depths of the ocean, respectively, for evaporating the working fluid in the evaporator and for cooling the vapor the working fluid in the condenser. The installation provides various modes of operation in the daytime and at night, which improves its efficiency. However, the presence of circulating coolant circuits requires the inclusion of additional circuits in the installation scheme, which complicate the installation. The closest to the claimed technical solution is the power plant (a.c.SSSR N1744276, F01K13 / 00, F03G7 / 04, item BIN24, 1992), which was selected by the author as a prototype. Installation contains

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a € 1in. steam tour connected in series with the closed circuit, connected to an electric generator, tubular condensers and an evaporator, while the evaporator is located below the ocean water level., and the condenser is placed above the water surface. D / installation is designed to work in the polar zones at an ambient temperature of no higher than -20 degrees C. Vapors of the working fluid, the quality of which is used low-boiling fluid, such as freon, are vaporized in an evaporator washed with ice-cold water with a temperature of about +4 degrees C, and enter the steam turbine connected to the electric generator through the steam line, after which they condense in a condenser cooled by atmospheric air with a temperature of no higher than -20 degrees C. The condensate formed by gravity flows through the connecting pipe to the evaporator located under the ice. This installation does not require the organization of forced circulation of the working fluid and coolant, which makes its work more economical. However, the installation can be used in limited geographical latitudes. The objective of the proposed technical solution is to create a powerful power plant with a wide Functional purpose, using the natural temperature difference in the ocean. The essence of the proposed technical solution lies in the fact that a power plant containing € 5 containing a tubular evaporator connected in a closed circulation circuit located below the water level, a steam turbine connected to

an electric generator, a tubular condenser, is also equipped with a pump located in the circulation circuit, the condenser is located below the water level below the evaporator, and the evaporator and condenser are made in the form of three-dimensional tubular gratings, while the evaporator and condenser gratings form a single floating platform) e “АУ {/ / h g /; tK / 77/7 / l / h, i:. - ..; ::; tep .. In addition, the evaporator and condenser gratings are made in the form of a set of modules, each of which contains a docking unit made in the form of a three-dimensional body with through intersecting channels located in three, for example, mutually perpendicular directions, to which are connected to the tube grille.

In addition, at least for the condenser, the tubes of the grate contain narrow spray tubes placed inside them with through holes made on their surface.

In addition, the evaporator and condenser gratings are connected into a closed circulation circuit by means of a collector pipe located on the central vertical axis of the platform with through holes on the side surface to which the tubes of the upper horizontal section of the evaporator and the condenser tube are connected, while the steam is placed above the condenser turbine, and in the lower part there is a pump to which a vertical tube is connected, installed inside the collector pipe and connected by cn a3 (eun (y U2OHTs fi / C € i o of the evaporator grating. New in comparison with the prototype.

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in the claimed invention is that the installation is equipped with a pump located in the circulation circuit, the condenser is placed below the water level of the evaporator, and the evaporator and condenser are made in the form of three-dimensional gratings, while the gratings of the evaporator and condenser form a single) oc / yH r & AfiM floating platform (J.

In addition, it is new that the gratings of the evaporator and condenser are made in the form of a set of modules, each of which contains a docking unit made in the form of a volumetric body with through intersecting channels located in three mutually beneficial directions that are connected to the tubes of the grate.

In addition, at least for the condenser, the tubes of the grate contain narrow spray tubes placed inside them with through holes made on their surface. The evaporator and condenser gratings are connected into a closed circulation circuit by means of a collector pipe located on the central vertical axis of the platform with through holes on the side surface. Placing a condenser below the water below the evaporator allows you to use the natural temperature difference of different layers of ocean water to generate electricity. In the condenser washed by relatively cold water of the deep layers of the ocean, the vapor of the working fluid is condensed, which is used as a low-boiling liquid, and in the evaporator washed by the relatively warm water of the surface of the ocean, the formation of working vapor

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liquids rotating a steam turbine. In this case, the placement of the pump in a closed circulation circuit ensures the circulation of the working fluid necessary for the operation of the installation. The implementation of the evaporator and condenser in the form of tubular structures, which are three-dimensional spatial lattices, increases the heat transfer surface of the working fluid and coolant, which increases the efficiency and allows you to create a high-power power plant, and also provides mechanical structural strength Combining the evaporator and condenser gratings into a single floating platform and supplying it with engines, for example, propellers, makes the installation design rational and also adapted to move in layers of ocean water. When the installation is stationary in the ocean, the temperature of the oceanic water gradually washing the evaporator and condenser occurs. To avoid equalization of the temperature of the energy carrier, the installation is moved, thereby ensuring the stability of the operating characteristics of the installation. In addition, the installation in the form of a single floating platform expands the functionality of its use. The floating platform can be used as a freight or passenger vehicle, it can be used for assembling nodes on its surface that ensure the organization of the process of converting the generated electricity into other types of energy or for

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useful work, for example, for the implementation of the process of electrolysis of ocean water, and may also find other useful applications. The implementation of the evaporator and condenser gratings in the form of a set of modules, each of which contains a docking unit, made in the form of a three-dimensional body with through intersecting channels located in three mutually perpendicular directions, to which the grating tubes are connected, for example, by means of a threaded connection, provides the convenience of manufacturing assembly assemblies from which the assembly is assembled, as well as ease of installation, dismantling of the installation and the possibility of manufacturing plants with various overall dimensions depending on the required capacity and functionality. The implementation, at least for the condenser, of the grating tubes with narrow spray tubes installed inside them, equipped with through holes on the side surface, allows the process of atomizing the working fluid inside the heat exchanger tubes of the condenser grating, which intensifies the process of condensation of the vapor of the working fluid and increases the efficiency of operation installation. At the same time, the installation of these spray tubes inside the tubes of the evaporator lattice also increases the intensity of the process of vapor formation of the working fluid in the evaporator to increase the surface area of the liquid phase of the working fluid. However, this complicates the design of the evaporator, although it reduces the required amount of working fluid. The connection of the evaporator and condenser gratings into a closed circulation circuit by means of

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™. 7 of the central vertical axis of the floating platform of the collector pipe with through holes on the side surface to which the tubes of the grilles are connected, as well as the installation of a steam turbine in the upper part of the specified collector pipe, and in the lower part of the pump, to which the vertically mounted inside the collector pipe is connected a tube connected to the lower horizontal section of the evaporator grate ensures the rationality of the arrangement of all units of the installation, the convenience of its installation, as well as its optimized hydrodynamic s characteristics. Figure 1 presents a drawing of the proposed installation. Figure 2 presents a drawing of a General view of the proposed installation. Fig. 3 shows a drawing of an evaporator grating module. The power plant contains a tubular evaporator 1 and a condenser 2, made in the form of spatial three-dimensional gratings. The evaporator 1 and the condenser 2 are connected in a single circulation circuit by means of a manifold pipe 3 located on the central vertical axis aa of the installation. A steam turbine 5 is installed on the upper part of the pipe 3, the output shaft 6 of which is connected to an electric generator (not shown in the drawing). The turbine x is attached to the walls of the pipe 3 with the help of brackets 7. E {a pump 8 is connected to the lower part of the pipe 3 horizontal tubular section 10 of the evaporator 1. Inside the heat exchanger tubes of the condenser 2, thin spray tubes 11 are installed with through holes 12 on the side surface, which are connected to the pipe 9. The gratings of the evaporator 1 and the condenser 2 are located one above

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friend 1G1Y respectively and combined into a single platform with buoyancy, through racks. 13, The floating platform has an upper deck 14, mounted on the grid of the evaporator 1 by means of struts. 15. Jt cTaHOBKa is equipped with propellers 16 (see Fig. 2). The gratings of the evaporator 1 and condenser 2 can be made of separate modules, each of which contains a volume element I, for example, a cube with through channels 18 intersecting in three mutually perpendicular directions to which the tubes 19 of the indicated lattices are connected (see Fig. H) The overall dimensions and weight of the installation are calculated from the condition of ensuring the required buoyancy and deepening of the evaporator to depths from O to 50 m, and the condenser to depths from 100 to 150 m. washing etsya with water of about 20 degrees C - 16 degrees C, and the condenser is washed by water to about 4 degrees C.

To ensure the necessary mechanical strength, the tube sheets of the evaporator and condenser can be made, for example, from gas pipes. The power plant operates as follows. Before start-up, the system is completely sealed, evacuated and charged with working fluid, for example, R-22 freon, while the condenser is filled with 10-20% free volume, and the evaporator with 89-90% free volume. At a temperature of +16 degrees C and above, in the tubes of the evaporator 1 located in the upper layers of the ocean, the process of evaporation of the working fluid begins, while its vapor passes through holes 4 on the side surface

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pipes 3 and with a pressure of 6 atm, rotate the blades of the steam turbine 5, from the output shaft of which the rotation is transmitted to the rotor of the generator. At the same time, the pump 8 delivers liquid refrigerant from the condenser 2 into the circulation circuit. After the turbine passes through, the pairs of the working fluid through the pipe 3 go down. In the tubes of the condenser 2, located in a layer of water with a temperature of +4 deg C, condensation of the working fluid occurs and the pressure decreases to 4 atm. The liquid refrigerant accumulates in the lower part of the pipe 3, from where it is pumped through the central tube 9 to the lower horizontal tubular section 10 of the evaporator 1, where the heating and evaporation of the working fluid begins. Thus, continuous circulation of the working fluid in a closed loop condenser-evaporator is organized with the simultaneous generation of electricity. To ensure the temperature gradient of the water washing the tubes of the gratings of the evaporator and condenser, with the help of propellers 16, for example, propellers, the power plant is moved at a speed of about 100 m / h or more, if the device is used as a vehicle. If there is a warm current in the ocean’s thickness and a cold stream crossing it at the corresponding depth of the cold current, the power plant can operate in a stationary mode without moving. By increasing the number of three-dimensional modules, the plant can easily be brought to a power of, for example, 50,000 kW. clean energy. Combining a large number of such installations under a single platform will have no practical limitations.

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Claims (4)

1. A power plant comprising a tubular evaporator connected in a closed circulation loop located below the water level, a steam turbine connected to an electric generator, a tubular condenser, characterized in that the installation is equipped with a pump located in the circulation loop, the condenser is located below the water level below the evaporator, and the evaporator and condenser are made in the form of three-dimensional tubular gratings, while the gratings of the evaporator and condenser form a single floating platform equipped with propulsion devices.  2. Installation according to claim 1, characterized in that the gratings of the evaporator and condenser are made in the form of a set of modules, each of which contains a docking unit made in the form of a volumetric body with through intersecting channels located in three, for example, mutually perpendicular directions to which connected tube grilles.  3. Installation according to claim 1, characterized in that, at least for the capacitor, the grating tubes contain thin spray tubes placed inside them with through holes made on their surface. 4. Installation according to claim 1, characterized in that the evaporator and condenser grids are connected in a closed circulation circuit through a collector pipe located on the central vertical axis of the floating platform with through holes, on the side of which are connected the tubes of the upper horizontal section of the evaporator and the condenser tube, at the same time, a steam turbine is placed in the manifold pipe above the level of the condenser, and a pump is installed in the lower part, to which a vertical pipe is connected, phenomenon inside the collector pipe and connected to the lower horizontal section of the evaporator lattice.