CN112344757A

CN112344757A - An anti-water accumulation device for vacuuming the condenser of a power plant

Info

Publication number: CN112344757A
Application number: CN202011362516.2A
Authority: CN
Inventors: 郑超
Original assignee: Shenzhen Energy Environmental Engineering Co Ltd; Guilin Shenneng Environmental Protection Co Ltd; Shanxian Shenzhen Energy Environment Co Ltd; Shenzhen Energy Environment Eastern Co Ltd; Wuhan Shenneng Environmental Protection Xingou Waste Power Generation Co Ltd; Chaozhou Shenneng Environmental Protection Co Ltd; Shenzhen Energy and Urban Environmental Services Co Ltd
Current assignee: Shenzhen Energy Environmental Engineering Co Ltd; Guilin Shenneng Environmental Protection Co Ltd; Shanxian Shenzhen Energy Environment Co Ltd; Shenzhen Energy Environment Eastern Co Ltd; Wuhan Shenneng Environmental Protection Xingou Waste Power Generation Co Ltd; Chaozhou Shenneng Environmental Protection Co Ltd; Shenzhen Energy and Urban Environmental Services Co Ltd
Priority date: 2020-11-28
Filing date: 2020-11-28
Publication date: 2021-02-09
Also published as: WO2022110831A1

Abstract

An anti-water accumulation device for evacuating a condenser of a power plant, comprising an evacuation parent tube and two independent evacuation systems for evacuation of the evacuation parent tube. During normal operation, one of the vacuum evacuation systems use, the other set is spare. Since the connection drain pipeline is set after the inlet manual isolation valve of the two sets of vacuum systems and before the inlet absolute pressure gauge, a valve is also arranged on the connection drain pipeline. After setting up the connecting drainage pipeline, the water accumulated in the inlet section of the standby vacuum pumping system will be sucked away by the vacuum pumping system in use, so that the standby pump pipe section will not accumulate water due to the continuous condensation of the non-condensable gas in the pipeline, and completely solve the problem of water accumulation in the inlet section. , to ensure the normal operation of the power plant.

Description

Power plant condenser evacuation prevent ponding device

Technical Field

The invention relates to a power plant condenser vacuumizing system, in particular to a water accumulation preventing device for vacuumizing of a power plant condenser.

Background

At present, in a condenser vacuum pumping system of a power plant, a water ring vacuum pump is selected to pump the system, generally two water ring vacuum pumps are used and prepared, and a main pipe system is adopted. The two water ring vacuum pumps are arranged below the main pipe so as to pump out condensed water generated by non-condensable gas pumped from the condenser in the main pipe. The running water ring vacuum pump can discharge non-condensed gas and water to the steam-water separation tank, the gas is discharged, and the condensed water overflows. In the standby state, because the pneumatic butterfly valve at the inlet of the water pump is in a closed state, water can be accumulated in a section of pipeline from the pneumatic butterfly valve at the inlet of the standby water ring vacuum pump to the main pipe (the condensed water generated by the gas in the main pipe is accumulated).

This results in: 1. when the standby pump is started, the starting power is high due to a large amount of accumulated water at the inlet section, pump tripping can be caused, and the blades of the water pump can be seriously damaged; 2. for system reasons, the backup pump is jointly started when an absolute pressure gauge reaches a certain pressure before a backup pump inlet starts a butterfly valve. But because the pipeline is accumulated with water, the pipeline has a certain height. The height is typically 60-80CM, so the absolute pressure gauge pressure is consequently 6-8KPa higher, which results in the absolute pressure gauge pressure varying with the level of the condensate at the inlet. If the joint starting condition of the absolute pressure gauge is set unreasonably, the standby pump can be started frequently, the service life of the water pump is influenced on the one hand, and the normal operation of a condenser vacuum pumping system is influenced simultaneously.

Disclosure of Invention

In order to solve the technical problem, the invention provides a water accumulation prevention device for vacuumizing a condenser of a power plant, which comprises a vacuumizing main pipe and two independent vacuumizing systems for vacuumizing the vacuumizing main pipe. Set up behind the intercommunication drain line, reserve evacuation system entry section ponding can be siphoned away by using evacuation system to can not make reserve pump pipe section ponding because of the continuous condensation of the noncondensable gas in the pipeline, thoroughly solve entry section ponding problem, ensure the normal operating of power plant.

The technical scheme adopted by the invention for solving the technical problem is as follows: the utility model provides a power plant's condenser evacuation prevent ponding device, including the female pipe of evacuation and right the female pipe of evacuation carries out two sets of independent evacuation systems of evacuation, evacuation system includes respectively: the pipeline connected with the vacuumizing main pipe is also sequentially provided with an inlet manual isolating valve, an inlet absolute pressure gauge, an inlet pneumatic butterfly valve, an inlet check valve and a vacuum pump according to the direction of air flow; the inlet of the differential pressure transmitter is connected to the inlet of the inlet pneumatic butterfly valve, and the outlet of the differential pressure transmitter is connected to the outlet of the inlet check valve;

the device is characterized in that a communicated drain pipeline is arranged behind the inlet manual isolation valves of the two sets of vacuum pumping systems and in front of the inlet absolute pressure gauge, and a valve is further arranged on the communicated drain pipeline.

Preferably, the vacuum pump is a water ring vacuum pump.

The invention has the beneficial effects that: the invention provides a water accumulation prevention device for vacuumizing a condenser of a power plant, which comprises a vacuumizing main pipe and two independent vacuumizing systems for vacuumizing the vacuumizing main pipe. Set up behind the intercommunication drain line, reserve evacuation system entry section ponding can be siphoned away by using evacuation system to can not make reserve pump pipe section ponding because of the continuous condensation of the noncondensable gas in the pipeline, thoroughly solve entry section ponding problem. The problems of the prior art can be effectively solved. Ensuring the normal operation of the power plant.

Drawings

Fig. 1 is a schematic diagram of a setup arrangement of one embodiment of the prior art.

Fig. 2 is a schematic diagram of the arrangement of the apparatus according to the first embodiment of the present invention.

In the figure, the position of the upper end of the main shaft,

a is in a vacuum-pumping system, B is a standby vacuum-pumping system,

A1. the inlet is provided with a manual isolating valve,

A2. a communicated drain pipeline, A21 and A21 valves are additionally arranged,

A3. an inlet absolute pressure gauge is arranged on the inlet of the pressure gauge,

A4. an inlet pneumatic butterfly valve is arranged on the shell,

A5. an inlet check valve is arranged on the outer side of the shell,

A6. a vacuum pump is arranged on the vacuum pump,

A7. a differential pressure transmitter is arranged on the base plate,

A8. and (5) vacuumizing the main pipe.

Detailed Description

Fig. 1 is a schematic diagram of a setup arrangement of one embodiment of the prior art. The drawing shows that in the prior art, the water accumulation prevention device for vacuumizing the condenser of the power plant comprises a vacuumizing main pipe A8 and two independent vacuumizing systems A and B for vacuumizing the vacuumizing main pipe, wherein A is an in-use vacuumizing system, and B is a standby vacuumizing system.

The vacuum-pumping systems A and B are connected to the vacuum-pumping main pipe A8 to pump vacuum, and the vacuum-pumping system A comprises: the pipeline connected with the vacuumizing main pipe A8 is also sequentially provided with an inlet manual isolating valve A1, an inlet absolute pressure gauge A3, an inlet pneumatic butterfly valve A4, an inlet check valve A5 and a vacuum pump A6 according to the direction of air flow; a pressure difference transmitter A7 is further arranged, the inlet of the pressure difference transmitter A7 is connected to the inlet of the inlet pneumatic butterfly valve A4, and the outlet of the pressure difference transmitter A7 is connected to the outlet of the inlet check valve A5. In this example, vacuum pump a6 is a water ring vacuum pump. The configuration of the vacuum-pumping system B is the same as that of the vacuum-pumping system A.

In the prior art, two independent vacuum pumping systems a and B are both arranged below a vacuum pumping main pipe A8 so as to pump away condensed water generated by non-condensable gas pumped from a condenser in the vacuum pumping main pipe A8. Vacuum system B under the standby state is because of water pump entry pneumatic butterfly valve is closed state, so reserve water ring vacuum pump entry pneumatic butterfly valve preceding to this section pipeline of female pipe can ponding (the condensate accumulation that the gas in the female pipe produced), because of at normal operating condition, water ring vacuum pump entry section is the negative pressure, can't discharge the intraductal condensate through conventional method. When the standby pump is started, the starting power is high due to a large amount of accumulated water at the inlet section, pump tripping can be caused, and the blades of the water pump are seriously damaged; resulting in frequent restart of the backup pump. And hidden troubles are brought to the safe operation of the whole system.

Fig. 2 is a schematic diagram of the arrangement of the apparatus according to the first embodiment of the present invention. In contrast to the prior art, in this example, a communicating drain line a2 is provided after the inlet manual isolation valve a1 and before the inlet absolute pressure gauge A3 of the two vacuum pumping systems a and B, and valves a21 and a22 are also provided on the communicating drain line a2.

Set up behind the intercommunication drain line A2, reserve evacuation system B entry section ponding can be siphoned away by using evacuation system A to can not make reserve pump pipe section ponding because of the continuous condensation of the incondensable gas in the pipeline, thoroughly solve entry section ponding problem, ensure the normal operating of power plant.

Claims

1. an anti-water accumulation device for vacuuming a condenser of a power plant, comprising a vacuuming parent pipe and two independent vacuuming systems for evacuating the vacuuming parent pipe, and the vacuuming system respectively comprises: and According to the direction of the air flow, the pipeline connected to the vacuum main pipe is also provided with an inlet manual isolation valve, an inlet absolute pressure gauge, an inlet pneumatic butterfly valve, an inlet check valve, and a vacuum pump; and a differential pressure transmission is also arranged. The inlet of the differential pressure transmitter is connected to the inlet of the inlet pneumatic butterfly valve, and the outlet of the differential pressure transmitter is connected to the outlet of the inlet check valve;

It is characterized in that a communication drain pipeline is arranged after the inlet manual isolation valve of the two sets of vacuuming systems and before the inlet absolute pressure gauge, and a valve is also arranged on the communication drain pipeline.

2 . The device for preventing water accumulation for vacuuming a power plant condenser according to claim 1 , wherein the vacuum pump is a water ring vacuum pump. 3 .