SU1372071A1 - System for regulating feed turbo-pumps - Google Patents

Abstract

The invention allows to simplify the system and increase the efficiency of the feed pumps, which are connected in parallel to the common feed line of the steam generator. The regulation system includes stat

Description

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6 and 7 pressure regulators for each turbopump with a bellows meter. The corrector 30 load made in the form of a meter 31 of the pressure difference of steam in front of the nozzles of the turbopumps, the output element 35 in the form of a jet amplifier. The receiving nozzles of the latter are connected by pipelines with repeaters 44 and 45. The latter contain membranes 46, 47 and 48, 49, rigidly connected by means of rods 50, 51 and 52, 53 attached to the bellows 54, 55. Membranes and bellows attached at the perimeter to the housing 56, 57 repeaters. Cavities 58, 59 of repeaters are connected by pipelines 60, 61 to supply line 3 behind regulating body 5. Cavities 62, 63 of repeater are connected to pipelines to bellows 8 and 9 and filled with water. Repeaters measure the magnitude of a portion of the pressure drop across the organ 5. When this pressure drops in one direction or the other, the force transmitted by the membranes 46 and 47 to the membranes 48 and 49 changes. As a result, the amount of steam supplied to the turbopumps and to the organ changes. 5, the predetermined difference is restored. 1 il.

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The invention relates to a power system and can be used in the automation of nutrient turbopumps of steam generators.

The purpose of the invention is to simplify the system and increase the efficiency of the feed pumps.

The drawing shows a diagram of the proposed control system.

Nutritional turbopumps 1 and 2 are connected in parallel to the common supply line 3 of the steam generator 4, in which the regulator 5 of the power regulator is installed. Static regulators 6 and 7 of the pressure of each turbopump have bellows 8 and 9 measuring and water amplifiers 10 and 11 of jet type, containing reflective valves 12 and 13 fixed between pressure and receiving nozzles, fixed on summing levers 14 and 15. Amplifiers 10 and 11 controls the operation of the servomotors 16 and 17, which mix the steam valves 18 and 19 of the turbopumps. The levers 14 and 15 are affected by feedback devices consisting of curves 20 and 21 and springs 22 and 23. The necessary differential is adjusted by varying the amount of compression of the springs 24 and 25. Fresh steam is supplied to the differential regulators through pipelines 26 and 27. Pipelines 28 and 29 steam enters the turbopumps.

The load offset 30 is made in the form of a vapor pressure difference meter 31 in front of the turbopump nozzles with a membrane 32, a spring 33 and a lever 34, and an output element 35 in the form of a water jet amplifier, on the lever 36 of which is rigidly connected to the shaft 34 and having a fixed the axis of rotation, the reflection flap 37 is fixed. The amplifier has pressure nozzles 38, the water supply to which is carried out via pipeline 39. Receiving nozzles 40 and 41 of the amplifier are connected by pipes 42 and 43 with repeaters 4 4 and 4 5. Repeaters 44 and 45 of the differential pressures contain a meme The brackets 46-49 are rigidly connected to each other by the rods 50-53 attached to the bellows 54 and 55. The membranes 46-49 are fixed along the perimeter to the repeaters 56 and 57. The bellows 54 and 55 are also attached to the latter. The cavities 58 and 59 of the repeaters are connected by pipelines 60 and 61 to the supply line 3 behind the regulator 5. The cavities 62 and 63 of the repeater are connected by pipelines 64 and 65, respectively, to the bellows 8 and 9. These cavities, pipe pipelines 64 and 65 and bellows 8 and 9 are filled with water.

Drainage of water from the booster of the load corrector 30 was carried out via pipeline 66. Pulse lines 67 and 68

The pressure difference meter 31 by the nozzles of the turbo pumps 1 and 2 is connected to the latter.

The system works as follows.

The regulator 5 of the steam generator power regulator is automatically maintained at a predetermined pressure drop by means of regulators 6 and 7, which change the steam supply to turbopumps 1 and 2 when the differential deviates from the set value. With equal loads of turbopumps, corrector 30 does not affect the control process — damper 37 is in the middle position. The repeaters AA and 45 using membranes 46 and 47 measure the difference between the pressure in the nozzles 40 and 41 and the pressure in the supply line downstream of the regulator 5 of the power regulator, i.e. an amount proportional to the pressure drop across the regulator 5. Due to the presence of a rigid connection between the membranes 46, 48 and 47, 49, cavities 62 and 63 generate a pressure proportional to the pressure drop across the regulator 5. This pressure is sensed by the bellows 8 and 9 of the regulators 6 and 7, dosing steam supply to the turbopumps.

When the differential on the regulating body 5 deviates from a predetermined value in the direction of an increase, the force transmitted by the membranes 46 and 47 to the membranes 48 and 49 increases. As a result, the pressure in cavities 62 and 63 also increases. The levers 14 and 15 of the regulators 6 and 7 are rotated clockwise, while the pistons of the servomotors 16 and 17 move downward, closing valves 18 and 19 and reducing the amount of steam supplied to the turbopumps, thereby restoring the predetermined difference on the regulator 5.

When lowering the differential on the regulator 5, the pressure applied to the regulators 6 and 7 decreases. The amount of steam supplied to the turbopumps increases, which leads to the restoration of the differential pressure on the regulator 5.

The load corrector 30 measures the vapor pressure in front of the combustion I of the turbopumps, compares these pressures with each other and, with the difference between them, produces a signal in

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in the form of a change in impulse pressure applied to repeaters 44 and 45 and, thus, equalizing the load of the turbopumps. If, for example, the vapor pressure in front of the turbopump 1 nozzles is greater than the vapor pressure in front of the turbopump 2 nozzles, the equalizer membrane 32 bends down, the levers 34 and 36 are rotated counterclockwise, and the valve 37 is moved to the right. As a result, the pressure applied to the repeater 44 increases and the pressure decreases, my feed to the repeater 45. The lever 14 of the regulator 6 rotates clockwise and the servomotor 16 receives a command to close the valve 18. The lever 15 rotates counterclockwise and the servomotor 17 receives the command the opening of the valve 19. The load of the turbopump 1 decreases, and the turbopump 2 increases. The load difference approaches zero.

If the turbopump 2 is more loaded, the membrane 32 of the equalizer bends upwards, the levers 34 and 36 turn clockwise and the shutter 37 moves to the left. The load of the turbopump 2 decreases, and the turbopump 1 increases. The load difference also approaches zero.

Claims (1)

Invention Formula five Nutrient Management System turbopumps, connected in parallel to the common supply line of the steam generator, with 0 on it by the regulator of the feedwater supply, containing static regulators of each turbopump with a bellows meter, a load balancer of the turbopumps, made 5 in the form of a vapor pressure difference meter in front of the turbopump nozzles connected to an output element made in the form of a jet amplifier with a damper connected with a measuring device located between the pressure and receiving nozzles, and a differential pressure controller, characterized in that, in order to simplify the system and increase the economy, for each pump, each repeater is made in the form of two membranes with a rigid center, fixed in the housing and interconnected by a separating bellows, fixed 0 513720716 with a fixed end in the housing, l, formed by a second membrane, the other is connected to the center of each body and the separating bellows, membranes, the cavity of each repeat-associated with the atmosphere, the cavity of each 1 | 1, formed by the first membrane of the yoke, repeater, formed by the second housing, associated with the corresponding 5-membrane and housing, connected with the receiver syringe amplifier of the corrective-phono meter of static load regulation, the cavity of each repeater of the corresponding turbopump, l, formed by the first membrane, and this cavity, pini connection and the housing and the separating bellows, the bellows meter is filled with the feed pipe, 0 minutes, and the static regulator of each The regulator of the feeder-turbopump supply is made in the form of a regular water, the cavity of each repeater pressure.