KR101171052B1 - Hydroelectric power generator for nucler energy statin - Google Patents

Abstract

PURPOSE: A hydroelectric power generation facility using nuclear energy is provided to recycle energy using waste steam after first power generation. CONSTITUTION: A hydroelectric power generation facility using nuclear energy comprises an U-shaped vertical pipe(50), a nozzle(60), a turbine(70), a power generator(80), and a water supply pipe(90). The steam, which has driven the turbine is discharged through the nozzle from the U-shaped vertical pipe. Electricity is generated by rotating the turbine while the water is discharged by the pressure of the steam. The water discharged from a riser tube is collected in a recover pipe(52) of the U-shaped vertical pipe. The water is supplied to a steam generator(20) and the U-shaped vertical pipe.

Description

Hydroelectric power generator for nuclear power {Hydroelectric power generator for nucler energy statin}

The present invention relates to a power plant using a heavy water reactor, and relates to a hydroelectric generator using nuclear power to make secondary power generation by raising the water filled in the riser of the U-shaped vertical pipe with steam discarded after the first power generation. .

In general, a nuclear power plant is divided into a nuclear steam supply system (NSSS) centered on a nuclear reactor, a turbine and a generator system for driving a generator by receiving steam, and an auxiliary facility such as emergency water supply.

The nuclear steam supply system is installed inside the reactor, and is mainly composed of a heavy water reactor and a steam generator. In the heavy water reactor, the coolant for cooling the high heat from the nuclear fuel is heated, and the heated coolant is recovered to the steam generator. It generates steam by heating the water, and the generated steam drives the steam turbine to generate power in the generator.

Steam generation and electric power generation of such a nuclear power plant is known, but the steam driving the turbine is not recycled, there is a waste of steam heat.

The present invention is to solve the problem that could not be recycled after the first generation of steam generated by using nuclear nuclear energy in a nuclear power plant, the steam operated the turbine for the first power generation of the water filled intuition It is supplied to the bottom to make the secondary power generation by using the power overflowing the vertical pipe.

The present invention relates to a nuclear power plant in which a turbine is operated by rotating a turbine with steam generated from a light-water reactor, and the steam rotated by the turbine is supplied to a lower side of a rising pipe that forms a vertical pipe erected in a U-shape. It is made by overflowing the water filled in the pipe and operating the turbine with the water over the ascending pipe to make the secondary power generation.The water is heated by the steam discarded after the first power generation so that the water flows through the ascending pipe. The turbine is operated to generate power.

The present invention uses the steam discarded after the first generation of steam using nuclear energy in a nuclear power plant, so that the secondary power generation is made by using the force overflowing the water in the rising pipe forming a U-shaped vertical pipe It is effective to recycle.

Therefore, the present invention is compared with the case of the primary power generation using only the existing steam, the secondary power generation by the primary power generation by water and water, so the effect that can increase the power generation output using the same energy There is.

1 is a system configuration diagram of the present invention

The present invention relates to a power generation device for generating steam by using nuclear energy in a nuclear power plant and then rotating a turbine using the same, and driving a generator by raising water with steam after the first generation by steam generation. To make progress.

Generating power by driving a turbine with steam generated using nuclear power is a form of power generation of a general nuclear power plant. The present invention provides water filled in a rising pipe of a vertical pipe having a U-shape with steam driving the turbine. It is to increase the output of the power generation by making it generate power after overflowing.

The U-shaped vertical tube of the present invention consists of a high riser on one side, while the other side is made up of a low-rise recovery tube, allowing the overflowed water from the high riser to be recovered to the low-side recovery tube and driving the turbine. The steam is ejected through the nozzle to the lower side of the riser constituting the U-shaped vertical tube so that the water filled in the riser is ejected to the upper portion and generates power by using the water ejected through the riser.

The present invention is to install the turbine driven by the water flow to the upper side of the upper riser to generate power by the rotational force of the turbine, the second hydraulic power after the power generation using the primary steam turbine is made By generating electricity, a certain amount of nuclear energy can be used, but the power output can be obtained more than before.

In the present invention, the lower portion of the upper riser and the steam generator of the U-shaped vertical tube allows water to be replenished through a water supply pipe from the outside so that continuous power generation is performed unless the nuclear raw material of the heavy water reactor is removed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention includes a heavy water reactor (10) and a steam generator (20), but the coolant is heated by cooling the heat generated by using the nuclear material in the heavy water reactor (10) with a coolant, and the coolant is a steam generator (20). The steam is generated by heating the water supplied to the steam generator 20 while passing through the inside.

The steam generated by the steam generator 20 drives the turbine 30 to generate electricity while the generator 40 connected to the turbine 30 operates, and the steam driving the turbine 30 is a U-shaped vertical tube. It is discharged through the nozzle 60 installed in the lower portion of the rising pipe (51) of the 50, at this time, the vertical pipe (50) to ensure that a certain amount of water is always filled through the water supply pipe (90).

Here, the U-shaped vertical tube 50 forms a high side and a low side, but installs the turbine 70 on the upper side of the rising pipe 51 constituting the high side while operating by the rotational force of the turbine 70. And install a generator (80) for producing electricity, and the water discharged from the high side of the U-shaped vertical pipe (50) flows to the lower recovery pipe (52).

In addition, the nozzle 60 through which the steam is discharged is positioned below the upper upward tube 51 of the U-shaped vertical tube 50, and the steam discharged from the nozzle 60 is filled in the vertical tube 50. By heating the water at the same time to the upper portion to drive the turbine 70 while overflowing the water filled in the riser 51, the power generation is made in the generator 80 by the operation of the turbine 70.

The U-shaped vertical pipe 50 of the present invention is installed upright while one side is higher than the other to form a rising pipe 51 while the other side is installed with a low recovery pipe 52, the vertical pipe 50 is to discharge the water discharged from the riser 51 to the recovery pipe 52, the nozzle 60 is installed below the riser 51 to discharge the steam while the water supply pipe 90 Maintain a constant level.

Here, the rising pipe 51 constituting the U-shaped vertical pipe 50 is 61m, the recovery pipe 52 is 60m, but the rising pipe 51 is 1m higher than the recovery pipe 52 to the power generation effective.

In the present invention, the process of generating electricity by generating steam through the steam generator 20 in the heavy water reactor 10 and using the turbine 30 by using the same as the conventional facts in the art, a detailed description thereof. Is omitted.

According to the present invention, hydroelectric power is further generated by raising water filled in the rising pipe 51 of the U-shaped vertical pipe 50 by using the steam driving the turbine 30 and then rotating the turbine 70 using the same. When the turbine 30 is driven, the steam is blown out through the nozzle 60 installed below the rising pipe 51 of the U-shaped vertical pipe 50, and the steam is discharged through the nozzle 60. Water filled in the riser 51 is overflowed to the upper side due to the rising pressure of the steam.

That is, when the high-pressure steam is driven through the nozzle 60 installed upward from the lower part of the riser 51 after driving the turbine 30, the water filled in the riser 51 rises upwards to 61 m. It is discharged to the upper portion of the riser 51 having a, and at the same time the water filled in the riser 51 flows to the upper portion of the riser 51.

The steam discharged to the upper side of the riser 51 is externally discharged, and the water overflowing to the upper side of the riser 51 drives the turbine 70 to generate power in the generator 80 and then 60 m It is recovered to the interior of the U-shaped vertical pipe 50 through the recovery pipe 52 of the, the water recovered to the recovery pipe 52 is moved back to the rising pipe 51 as the steam is discharged from the nozzle (60) By repeating the process of overflowing the upper side of the riser 51 to produce electricity is made.

In the present invention, the U-shaped vertical pipe 50 is made of a rising pipe 51, which is 1 m higher than the recovery pipe 52 with a height of 61 m, and a recovery pipe 52 that is 1 m lower than the rising pipe 51 with a height of 60 m. Then, the water discharged from the riser 51 is recovered through the recovery pipe 52, and through the water supply pipe 90 to the riser 52 and the steam generator 20 of the U-shaped vertical pipe (50) Provide continuous water supply, but ensure that a certain amount of water is always filled.

The water supply pipe 90 is provided with a valve 91 for regulating the flow of water.

In the present invention, when the steam is discharged through the nozzle 60 installed in the rising pipe 51 of the U-shaped vertical pipe 50, the steam moves to the upper portion in the water, thereby the water to the upper portion of the rising pipe 51 By receiving the ejected force, power is generated by driving the turbine 70 using the ejection pressure of the riser 51.

The present invention is to increase the water by using the vertical pipe (50) standing vertically so that the power generation is made by using the force overflowing the raised water, the water flowing to the upper portion of the rising pipe (51) to raise the height If you drop it with you, it may cause the fall to develop.

10: heavy water reactor 20: steam generator
30 turbine 40 generator
50: U-shaped vertical tube 51: the rising tube
52: recovery pipe 60: nozzle
70: turbine 80: generator
90: water supply pipe

Claims (3)

In the nuclear power plant in which power is generated in the generator 40 by rotating the turbine 30 by the steam generated by the steam generator 20 using the cooling heat of the heavy water reactor 10,
The steam driving the turbine 30 is discharged through the nozzle 60 at the lower side of the rising pipe 51 constituting the U-shaped vertical pipe 50,
The power generated in the generator 80 by rotating the turbine 70 by ejecting the water filled in the riser 51 by the rising pressure of the steam discharged from the nozzle 60,
The water ejected from the riser 51 is recovered to the recovery pipe 52 of the U-shaped vertical pipe 50,
Hydroelectric power generation apparatus using nuclear power, characterized in that the water supply is made to the U-shaped vertical pipe 50 and the steam generator 20 through the water supply pipe (90). According to claim 1, the U-shaped vertical pipe 50 is composed of the rising pipe 51 and the recovery pipe 52, the water filled in the inner side to communicate with each other, the rising pipe 51 is 61m and recovery pipe 52 is 60m, but the rising pipe 51 is 1m higher than the height of the recovery pipe 52, while the nozzle 60 for ejecting the steam from the lower side to the top, characterized in that it is installed Hydroelectric power plant using nuclear power. The hydroelectric apparatus using nuclear power according to claim 1, wherein the U-shaped vertical pipe (50) is vertically erected.

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