SU757771A1 - Apparatus for preventing feeding pump damage - Google Patents

Description

The invention relates to heat and heat engineering and can be used to protect the feed pumps of thermal power plants from disruption *

The known device to prevent the breakdown of the feed pump connected to the suction pipe to the deaerator, containing a pressure sensor in the suction pipe connected to the actuator of the locking member mounted on the bypass pipeline supplying condensate to the suction pipe [1]. In these devices, the moment of the start of boiling water is determined by comparing the actual pressure and saturation pressure in the suction pipe, which complicates the design and leads to a decrease in accuracy and reliability. 2θ

It is also known a device for preventing a feed pump from breaking down, connected by a suction pipe to a deaerator, containing a date of ~ 25 pins of pressure in the deaerator connected to a drive of a locking member mounted on a bypass pipe for supplying condensate to the suction pipe [2],

2

The moment of the start of boiling water is determined by the pressure drop in the vertical section of the suction pipe, i.e. to reduce the proportion of water at the inlet to the pump.

This device is the closest to this technical essence and the achieved result.

A disadvantage of the known device should be considered somewhat lower reliability in some modes of operation.

The purpose of this invention is to increase reliability.

To achieve this goal, a differentiator is introduced into the line connecting the pressure sensor to the valve actuator.

The drawing shows a diagram of the device. The feed pump 2 is connected to the deaerator 1 by its suction pipe 3. The main condensate pipe 4 is connected to the condensate supply pipe 5 to the suction pipe 3. On the bypass pipe 5, a stop valve b is installed, controlled by a signal from the pressure sensor 7 in the deaerator 1 through differentiator 8, analogors3

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A transducer 9 with a setting device 10 and a signal element 11, an amplifier 12 and a drive 13. A differentiator 8, an analogue converter 9 and an amplifier 12 form a line 14 connecting pressure sensor 7 with a shut-off element 6.

With a drop in pressure in the deaerator, cavitation of the feed pump is possible if the lowering of the feed water temperature in the suction pipe lags behind the pressure change in the deaerator. It is determined by time.

complete replacement of water in the suction pipe taking into account the additional geometric pump support, which is determined by the pump height H ^N suction required by the hydraulic losses lN ^g in the suction pipe during normal operation and the actual suction height Η that occurs in real conditions.

Submission of the main condensate through the bypass pipe 5 into the intake pipe 3 there is provided, if the current rate of change of pressure in the deaerator is less than zero (i.e., the pressure decreases) and the absolute value exceeds the permissible speed, opreN ^ _ _n "_.ts ^g

shared as a relation - The device works as follows.

Pressure sensor 7 gives a signal of the current pressure value p in deaerator 1, differentiator 8 generates a signal according to the rate of change of pressure

analog relay converter 9 generates a discrete signal to open the valve 6, if

-.N H ⁿ '

(The corresponding setting is entered using the dial 10). At the same time, an alarm signal is sent to the signal element 11. The closing of the locking member 6 is carried out by the operator of the control panel after the disappearance of the signal about the unacceptable speed

reduce pressure in the deaerator.

This device meets the physical nature of the cavitation process in a transitional mode and allows you to increase the reliability of protection of the feed pump from cavitation, as well as to expand the range of working pressures of the deaerator.

The economic effect is determined by “the possibility of expanding the range of pressure of the deaerator, which is necessary at the electropower station in many transient conditions. its work. When increasing the load on the deaerator, the gain is obtained from an increase in more than 15 temperature steam extraction to the deaerator, compared to steam extraction to high-pressure heaters, which are correspondingly reduced, as well as from higher efficiency

20 heat exchange in the deaerator compared to high pressure heaters. For power plants that do not have high pressure heaters, this device allows

25 to influence the power of the steam generating plant by varying the temperature of the feed water.

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Claims (1)

Claim. Device for preventing breakdown of the feed pump, connected by a suction pipe to a deaerator) containing a pressure sensor in the deaerator connected to a drive of a closure member installed on the bypass pipe for supplying condensate to the suction pipe, in order to improve reliability , a differentiator is inserted into the line of connection of the pressure sensor with the actuator of the closure member.