SU1753053A1 - Centrifugal multistage two-circuit pump with intermediate water heat - Google Patents

Abstract

use: in power system. The essence of the invention: improving reliability by ensuring uniform heating of the pump at elevated fluid temperatures in the second circuit of the pump The pump contains impellers of the circuits, facing inlets in opposite directions, and a discharge device, including a discharge disk. The contours are communicated by means of an end slot, an intermediate pressure chamber and a labyrinth-screw stage installed on the inter-contour partition. The outlet pipe of the primary circuit with a low temperature and the inlet branch pipe of the secondary circuit with an elevated temperature are connected by a line with a heater. 5 hp f-ly, 1 ill.

Description

The invention relates to pump construction, namely, to designs of centrifugal multistage by-pass pumps with intermediate heating of water used in power system.

The purpose of the invention is to increase reliability by ensuring uniform heating of the pump at elevated fluid temperatures in the second circuit of the pump.

The drawing shows a centrifugal multistage bypass pump with intermediate heated water.

The centrifugal pump comprises bodies 1 and 2 circuits with suction chambers 3 and 4 and pressures 5 and 6, inlet 7 and 8, and output 9 and 10 nozzles. On a common shaft 11, installed impellers 12 and 13 of the first and second interconnected circuits, respectively, with low and high fluid temperature. In general

the shaft is also provided with a discharge disk 14, which forms with the housing and the shaft an unloading chamber 15 connected to the injection chamber 6 of the second loop by a cylindrical throttling gap 16, and an intermediate pressure chamber 17 connected to the discharge chamber through the throttling end slot 18 contour — by means of a hydraulic line 19. The pump also contains shaft supports 20, an inter-contour partition 21, an inter-contour line 22, a recirculation line 23 with a valve 24 and end seals 25. At the same time, the output The primary circuit pipe 9 and the inlet pipe 8 of the second circuit are connected by line 26 with heaters 27. The pump is equipped with a labyrinth-screw stage 28 installed on an inter-contour partition 21, impellers 12 and 13 contours

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The first and second ports are facing 29 liters 30 in opposite directions, and the contours are communicated by means of an end slot 18, an intermediate pressure chamber 17 and a labyrinth screw stage 28. The pump can be equipped with a common body 31 with a pressure connection 10, body 1 and 2 contours installed in the General case, and the discharge pipe 10 is made in the area of the first stage 32 of the second circuit. The pump may be provided with a regulator 33, an additional inter-loop line 34 with a valve 35 communicating the outlet port 9 of the primary circuit and the inlet port 3 of the second circuit, and a pressure sensor 36 at the outlet of the primary circuit connected to the valve by means of the regulator. The inlet 7 of the first circuit can be made axial, having a length I greater than the length L of the pump shaft. In the case of the second circuit, the chamber 37 can be sealed to the primary circuit suction chamber 3, and the end seal 25 can be equipped with a labyrinth-screw stage 38 located between the second circuit suction chamber 4 and the sealing chamber 37. The pump can be equipped with a choke 39 installed on the recirculation line 23, a line 40 with a choke 41. communicating the chamber 5 to: the primary circuit with the recirculation line behind the valve 24 and the choke 39.

Centrifugal multistage pump operates as follows.

The liquid enters the suction chamber 3 in the primary circuit housing 1, where by dynamic action of the impeller 12, the flow is supplied to the injection chamber 5 and the outlet 9. Then the flow through line 26 passes through the heaters 27, where the inlet 8 and the suction chamber 4 rise, and Finally, the flow, receiving additional energy in the impellers 13, enters the discharge chamber G and the outlet 10 of the second circuit. With valve 24 open, fluid enters recirculation line 23. A portion of the liquid with elevated temperature enters the discharge chamber 15 along the cylindrical throttling gap 16 and from there, through the end throttling gap 18, enters the intermediate pressure chamber 17.

Mazine-screw stage 28 delivers a fluid with a reduced temperature from the primary circuit to the intermediate pressure chamber 17, lowering the temperature of the fluid in this chamber and the temperature difference on the inter-contour partition 21. Then the fluid enters the primary circuit pressure chamber 5, where, mixing cushioning the flow of the primary circuit again lowers its temperature, ensuring uniform heating of the pump casing at elevated liquid temperatures in the secondary circuit,

Due to the fact that the impellers of the contours are turned by the inputs 29 and 30 in opposite directions, and the contours are communicated

through the end slit 18, the intermediate pressure chamber 17, and the labyrinth screw stage 28, the temperature of the fluid is gradually reduced when the circuits are separated from

high fluid temperature and thereby increase the reliability of the pump.

The presence of a common casing 31c with an injection nozzle 10, where enclosures 1 and 2 are installed in a common enclosure, and the discharge nozzle is made around the first stage of the second circuit, which improves the uniformity of the heated bodies when the liquid flows from the suction chamber 3 to the discharge chamber 6.

The presence of an additional inter-loop line 34 with a valve 35 and a regulator 33, communicating the outlet of the first circuit 9 and the inlet of the second circuit 8, and an output pressure sensor 36

The first circuit connected to valve 35 by means of the regulator-33 eliminates the sharp increase in pressure in the pipe 9 and the lines 22 and 26 and aligns the pressure and the temperature in the suction chamber A.

The implementation of the inlet pipe 7 of the primary circuit axial, having a length exceeding the length of the pump shaft L, improves the maintainability of the pump.

Thanks to the fact that in the case of the second

Komtur made sealing chamber 37, communicated with the chamber 3 of the primary circuit suction, and the end seal 25 is equipped with a labyrinth-screw stage

38, located between the secondary circuit suction chamber 4 and the sealing chamber 37, the sealing of hot water in the suction chamber 4 is improved.

The presence of a line 40 with a choke 41 connecting the primary pump chamber 5 with the recirculation line behind the valve 24 and the choke 39 protects the pump from damage and overheating in start-up modes.

Formula of invention

Claims (6)

1. A centrifugal multistage double-circuit pump with an intermediate heated water, containing the enclosures of pumps with suction and discharge chambers and inlet and outlet connections installed on the common shaft of the impellers of the first and second circuits interconnected with, respectively, low and elevated fluid temperatures, and a unloading device including a discharge disk forming a discharge chamber with the housing and shaft pumping a second circuit with a cylindrical throttling gap, and an intermediate pressure chamber in communication with the discharge chamber through a hydraulic line, as well as a shaft support, inter-circuit reheat the backbone, the inter-contour line, the recirculation line with a valve and end seals, while the outlet of the primary circuit and the inlet of the secondary circuit are communicated with a line with preheaters, characterized in that, in order to increase reliability by ensuring uniform heating pump at elevated fluid temperature in the second circuit of the pump, the latter is equipped with a labyrinth-screw stage installed on the inter-contour partition, the impellers of the contours are facing the opposite sides, and the contours are communicated by means of an end slot, an intermediate pressure chamber and a labyrinth-screw stage. 2. A pump according to claim 1, characterized by the fact that it is provided with a common body with a discharge nozzle, the body of the circuits are installed in a common case, and the pressure nozzle is made in the region of the first stage of the second circuit. 3. Pump popp. 1 and 2, characterized in that it is equipped with a regulator, an additional inter-contour line with a valve, communicating the outlet of the primary circuit and the inlet of the secondary circuit, and a pressure sensor at the outlet of the primary circuit connected to the valve Torah. 4. Pump according to claims 1-3, characterized in that the inlet of the first circuit is axial, having a length exceeding the length of the pump shaft. 5. Pump according to PP, 1-4, characterized in that a sealing chamber is made in the body of the second circuit and communicates with the suction chamber of the first loop; the end seal is provided with a labyrinth-but-screw stage located between the suction chamber of the second loop and the sealing camera, 6. Pump according to claims 1-5, characterized in that it is equipped with a throttle installed in the recirculation line and a line with a throttle connecting the chamber to the injection of the primary circuit with the recirculation line behind the valve and throttle.  ir - ft I  $ Vi