JP2505579Y2 - Blowdown heat recovery device for steam generator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a blowdown heat recovery device for a steam generator of a nuclear power plant or the like.

[Conventional technology]

Conventionally, blowdown water from a steam generator is introduced into a blowdown flash tank, and steam generated in the blowdown flash tank is sent to a deaerator to recover heat.
The liquid phase part of the blowdown flash tank is connected to a condenser to collect water.

Alternatively, the blowdown water is directly led from the steam generator to the condenser to recover the water.

That is, as shown in FIG. 3, the turbine 2 connected to the generator 2a, the condenser 3, the pump 4a, the low pressure feed water heater 5a, the deaerator 8,
A steam generator 1, such as a steam generator or a boiler, is provided in a circulation path composed of a pump 4 and a high-pressure feed water heater 5.

The blowdown water of the steam generator 1 is introduced into the blowdown flash tank 7 through the line 6, and the steam generated in the blowdown flash tank 7 is supplied to the deaerator 8 to be collected and The heat is recovered by means of heat, and the liquid phase portion of the blowdown flash tank 7 is guided to the condenser 3 to recover it.

Further, as shown in FIG. 4, the turbine 2, the condenser 3, the pump 4a, the low-pressure feed water heater 5a, and the pump 4 connected to the generator 2a.
Similarly, the steam generator 1 is provided in the circulation path composed of the high-pressure feed water heater 5, and the blowdown water thereof is directly supplied to the condenser 3 via the line 6 to be recovered.

[Problems to be solved by the device]

In the conventional apparatus shown in FIG. 3, the thermal energy of the steam generated from the blowdown water in the blowdown flash tank is recovered, but the liquid phase part is connected to the condenser and the thermal energy Has not been recovered. Further, in the conventional device shown in FIG. 4, since all the blowdown water is supplied to the condenser, its thermal energy is not recovered.

The present invention is intended to solve the above problems of the conventional device and improve the thermal efficiency of the plant.

[Means for solving the problem]

According to the present invention, a blowdown flash tank is installed in a blowdown system of a steam generator installed in a circulation path consisting of a turbine, a condenser, a feed water heater and a deaerator, and steam generated in the blowdown flash tank is installed in the blowdown flash tank. In the blowdown heat recovery device of the steam generator that was supplied to the deaerator, connect the flash tank of the heat recovery equipment that uses the steam generated in the flash tank as a heating source in the liquid phase part of the blowdown flash tank. The drain part of the flash tank of the heat recovery equipment was connected to the feed water heater provided in the circulation path.

[Action]

In the present invention, the flash tank of the heat recovery equipment is connected to the liquid phase part of the blowdown flash tank to which the blowdown water of the steam generator is supplied, and the thermal energy of the liquid phase part is used as the heating source of the heat recovery equipment. Be recovered. Furthermore, by connecting the drain part of the flash tank of the heat recovery equipment to the feed water heater, the thermal energy of the drain of the flash tank of the heat recovery equipment is recovered in the feed water in the feed water heater.

In this way, the thermal energy of the liquid phase portion of the blowdown flash tank, which has not been recovered conventionally, is effectively recovered.

Further, the blowdown water of the steam generator is returned to the system through the blowdown flash tank, the flash tank of the heat recovery equipment, and the feed water heater, so that the amount of makeup water and the amount of drainage can be reduced.

Furthermore, clean steam generated in the flash tank is used as the heat source of the heat recovery equipment, and impurities in the drain are prevented from adhering to the equipment of the heat recovery equipment.

〔Example〕

An embodiment of the present invention will be described with reference to FIGS. 1 and 2.

The steam generator 1 shown in FIG. 1, the turbine 2 connected to the generator 2a, the condenser 3, the pump 4a, the low pressure feed water heater 5a, the deaerator 8, the pump 4, the high pressure feed water heater 5, and The circulation path composed of these has the same structure as the conventional device shown in FIG. The blowdown water of the steam generator 1 is supplied to the blowdown flash tank 7, and the steam generated in the blowdown flash tank 7 is supplied to the deaerator 8. The liquid phase part of the blowdown flash tank 7 (when the steam generator 1 is a steam generator of a nuclear power plant, saturated water of about 10ata, temperature of about 180 ° C.) is connected to the heat recovery system 9 and the heat recovery part is connected. The drain part of 9 is connected to the low-pressure feed water heater 5a for returning the recovered water to the condenser 3.

As shown in FIG. 2, the heat recovery system 9 includes a flash tank 10 connected to the liquid phase portion of the blowdown flash tank 7, and flash vapor generated in the flash tank 10 is an absorption type as a heating source. It is supplied to the air conditioner 11 and the flash tank 10
And the drain part of the absorption type air conditioner 11 are the low-pressure feed water heater 5a.
It is connected to the.

In this embodiment, the blowdown water of the steam generator 1 is guided to a blowdown flash tank 7, and the steam flushed there is sent to a deaerator 8 as in the conventional device shown in FIG. It is guided and recovered, and its heat is also recovered. On the other hand, the liquid phase portion of the same tank 7 is guided to the flash tank 10 of the heat recovery system 9 and separated again into the vapor and the liquid phase in the flash tank 10. The heat of the steam is recovered for heating the regenerator of the absorption type air conditioner 11 and used for cooling and heating. The drain is recovered to the condenser 3 via the low pressure feed water heater 5a and the heat is also applied to the low pressure feed water. Vessel 5a
Will be collected at. Further, the drain in the flash tank 10 is also recovered by the condenser 3 via the low pressure feed water heater 5a, and its heat is also recovered by the low pressure feed water heater 5a.

Therefore, in the present embodiment, the heat of the liquid phase portion of the blowdown flash tank 7, which has not been conventionally recovered, is recovered in the absorption type cooling / heating machine 11 to which the steam of the flash tank 10 is guided, and further, the flash tank 10. And low-pressure feed water heater 5a connected to the drain part of the absorption-type air conditioner 11
Be recovered by. As a result, in this embodiment, the heat of the blowdown water can be effectively recovered.

In addition to this, it is possible to recover all the blowdown water discharged from the steam generator 1 to the plant,
A low source of makeup water and drainage can be achieved.

Furthermore, the absorption type air conditioner 11 of the heat recovery system 9 may be supplied with clean flash vapor from the flash tank 10, and impurities contained in the drain in the flash tank 10 may adhere to the absorption type air conditioner 11 and the like. Absent.

An example of heat utilization efficiency in this embodiment is as follows.

When the present embodiment is applied to the blowdown water amount 100,000 kg / h from the steam generator in the electric output 1100 MW class nuclear power plant and the liquid condition 67 kg / cm ² abs saturated water of the blowdown water, (1) Turbine cycle efficiency improvement by heat recovery in the deaerator 8 is about 0.28% (2) Turbine cycle efficiency improvement by heat recovery in the low-pressure feed water heater 5a is about 0.04% (3) Drain heat quantity of the blowdown flash tank 7 When the heat utilization rate in the heat recovery system 9 is 47%, the cooling capacity of the absorption type air conditioner 11 is 1300RT.

[Effect of device]

As described above, conventionally, a blowdown flash tank is installed, and of the heat held by the blowdown water of the steam generator, only the steam generated in the blowdown flash tank is degassed in the turbine heat cycle. However, in the present invention, the heat of the liquid phase part of this blowdown flash tank is further recovered in the heat recovery equipment equipped with the flash tank, and the heat of the drain is also turbine heat cycled. Heat can be recovered in the feed water heater inside. Therefore, the present invention can contribute to the improvement of turbine cycle efficiency and the heat balance in the power plant.

In addition, all blowdown water of the steam generator is collected in the system, and it is possible to reduce the amount of replenishment water and the amount of drainage, and clean steam generated in the flash tank is used as the heat source of the heat recovery equipment. It is possible to prevent the impurities contained in the drain from adhering to the device.

[Brief description of drawings]

FIG. 1 is a system diagram of an embodiment of the present invention, FIG. 2 is an explanatory diagram of a heat recovery system of the same embodiment, and FIGS. 3 and 4 are views of a conventional blowdown heat recovery device of a steam generator. It is a system diagram. 1 ... Steam generator, 2 ... Turbine, 3 ... Condenser,
5 ... High-pressure feed water heater, 5a ... Low-pressure feed water heater, 7 ...
Blow-down flash tank, 9 ... Heat recovery system, 10 ... Heat recovery system flash tank, 11 ...
Absorption type air conditioner.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Hiromi Kumazaki, 2-5-1, Marunouchi, Chiyoda-ku, Tokyo Mitsubishi Heavy Industries, Ltd. (72) Masahiko Kinoshita 2-1-1, Niihama, Arai-cho, Takasago, Hyogo Prefecture Mitsubishi Takasago Research Institute, Heavy Industry Co., Ltd. (72) Kaname Iwafuji, 2-1-1, Niihama, Arai-cho, Takasago, Hyogo Prefecture Mitsubishi Heavy Industries, Ltd. Takasago Research Laboratories (56) Reference JP-A-58-95102 (JP, A) JP-A-57-204705 (JP, A)

Claims (1)

(57) [Scope of utility model registration request] 1. A blowdown flash tank is installed in a blowdown system of a steam generator provided in a circulation path composed of a turbine, a condenser, a feed water heater, and a deaerator, and the blowdown flash tank is generated. In a blowdown heat recovery device of a steam generator that supplies steam to a deaerator, a flash tank of a heat recovery facility that uses the steam generated in the flash tank as a heating source in the liquid phase part of the blowdown flash tank. A blowdown heat recovery device for a steam generator, wherein the drain part of the flash tank of the heat recovery equipment is connected to a feed water heater provided in the circulation path.