WO2013157989A1 - System of leakage drains for a main circulating pump assembly - Google Patents

Abstract

The invention relates to systems of leakage drains with a radial-axial bearing for a main circulating pump assembly (1) which is contained in power-generating units of nuclear power stations. The system of leakage drains with a water-cooled radial-axial bearing comprises a gravity pipeline (2) for the discharge of the leakage drains, and a circuit for collecting and returning leaks from the radial-axial bearing to the industrial circuit of a reactor plant. The circuit comprises a tank (7) for collecting the leaks with a level sensor (8). The gravity pipeline (2) is connected to the tank (7) via a hydraulic seal (6). Pipelines (9, 10), for drainage of the tank (7) and for overflow respectively, and intake pipelines (11) with pumps (12) for the return of leakage drains are passed out of the working space of the tank (7). Each pump (12) is equipped with a pipeline (13) for recirculating leakage drains to the tank (7). Delivery pipelines (15) of the pumps (12) are connected to the discharge pipeline of the system of the industrial circuit via a shutoff valve (16). All the pipelines in the system are equipped with a regulating, shutoff and monitoring and measuring apparatus. The invention is directed to reducing losses of fluid in an industrial circuit by virtue of collecting and returning leaks to the industrial circuit.

Description

 DRAINAGE SYSTEM AND DRAINAGE OF THE MAIN CIRCULATION

 PUMP UNIT

Technical field

 The utility model relates to power engineering, its scope is water-cooled reactor units of the power units of nuclear power plants (NPPs), which include the main circulation pumping units (GTsNA) of the GNTSA-1391, GTsNA-171 type with water-cooled radial axial bearings ( ROP) and leakage drainage system with ROP.

 State of the art

 As a prototype, a pump has been adopted for pumping liquid in a high-pressure circuit (patent RFM.2190127, class F04D29 / 04, published September 27, 2002), which is included in the main circulation pump unit of the reactor plant of the water-water type of a nuclear power unit and includes a cooling circuit and lubrication of the radial-axial bearing, which includes a discharge pipe with a throttle and a vertical expansion chamber, which in its upper part communicates with a retaining tank, and in the lower part with a supply pipe of this circuit. The lower part of the ROP has openings designed to drain leaks from it. The system of drainage leaks with ROP is carried out by dumping the drains into the special sewage system for further purification and processing. In this case, there is a need to replenish the industrial circuit with distillate by the amount of leakage discharged by the drainage.

 Disclosure of invention

 The problem solved by the proposed utility model is to reduce the losses of the industrial circuit environment during the operation of the reactor installation by collecting drainage leaks from the RSC of the SSC and returning them to the industrial circuit.

As a solution to the problem, a leakage drainage system from the main circulation pumping unit (GCPA) with a water-cooled radial-axial bearing (ROP) and a pressureless drainage pipe for drainage of leakage drainage with a ROP, equipped with a collection and return circuit for leakage from the ROP to the industrial circuit of the reactor unit containing a collection tank is proposed leaks to which a pressureless drainage pipe for drainage of leaks with ROP is connected through a hydraulic lock, and from the working space of which tank and overflow drainage pipelines and suction pipelines with leakage drainage return pumps with RPD, each pump is equipped with a leakage drainage recirculation pipeline to the leakage collection tank, and the leakage drainage return pump discharge pipe is connected to the drain circuit of the industrial circuit through the shut-off valve, while the leakage collection tank equipped with a level sensor, and all pipelines of the system are equipped with adjusting, shut-off and control and measuring equipment. The height of the water trap is 1, 0 - 1, 5 m. Drainage and overflow of the leakage collection tank is carried out in a station-wide system for collecting leakages of boron-containing water. The leakage drainage system with MCP contains at least two return pumps for leakage drainage with ROP.

 Brief Description of the Drawings

 The drawing shows a diagram of a system of drainage of leaks from a radial-axial bearing (ROP) of the main circulation pump unit (GTsNA).

 An example embodiment of the invention

 The system contains several (for example, four) SSCs 1 with a water-cooled ROP (not shown in the drawing), a pressureless pipe 2 for draining drainage drains with a ROP with a flow meter 3, a funnel 4, into which drainage drains with ROP are collected, localizing group 5 with an electrically conductive shutoff valve , a water seal 6, having a height of 1, 0 - 1, 5 m, a leakage drainage collection tank 7 with a level sensor 8, equipped with a drainage pipe 9 and an overflow pipe 10, suction pipelines 1 1, leakage drainage return pumps with ROP 12 with recirculation 13 drain lines even leaks into the leak collection tank 7, the control valve 14. One of the pumps 12 is a backup. The pressure line 15 of the pump 12 for returning the drainage of leaks from the ROP is connected to the discharge line of the industrial circuit through the shut-off valve 16. The tank 7 for collecting leaks is connected through the pipe 17 to the pressure pipe 15 through the shut-off and shut-off valve 18.

 The system operates as follows.

Through non-pressure pipelines 2, drain drainage of leakages with ROP separately for each of the four SSCs 1, in order to avoid mutual influence, drainage of leakages with ROP is collected in a funnel 4 made with a height of ~ 1 m, while pipelines descend into it at half the height of the funnel. Through a special hermetic penetration, at the inlet and outlet of which there is a special protective armature - localizing group 5 with electrically conductive shutoff armature, the drainage flows from the hermetic part of the reactor compartment to the unpressurized one. Then through the hydraulic lock 6 merge into the tank 7 collecting drainage leaks. The purpose of the water trap 6 is to exclude air from the leaky part of the reactor compartment into the airtight during operation of the system, on this basis, the height of the water trap 1, 0--1.5 m is selected. From the working space of the tank 7 for collecting drainage of leaks, drainage pipelines 9 and overflow 10 are removed. The drainage of the system and the overflow of the leakage collection tank 7 are carried out in a plant-wide leakage collection system for boron-containing water. From tank 7, drainage pipes with ROP through the suction pipe 1 1 by the pump 12 return drainage leaks through the pressure pipe 15 are fed into the drain pipe of the industrial circuit through the shut-off valve 16, which allows you to disconnect from the industrial circuit the entire system for returning the drainage of leaks. For the purpose of redundancy, two pumps 12 for returning drainage drains with ROPs were installed, each with its own shutoff valves and pipelines 13 for recirculating drainage of leaks with ROPs to the leakage collection tank 7. The type of pump 12 is a vortex. Part of the medium pumped by the pump 12 is returned to the tank 7 through the recirculation pipe 13. The pressure of the pump 12 is determined by the back pressure in the industrial circuit system, equal to ~ 300 kPa and the hydraulic resistance of the route, including control valves with a throughput of K = 1 m / h. Shut-off valves on the suction pipes 1 and pressure 15 allow any pump 12 to be repaired normal operation time of the system. The initial filling of the pressure pipe 15 and the leak collection tank 7 is carried out from the industrial circuit system through the pipeline 1 7 with shut-off and shut-off valves 18. The following parameters are monitored during the operation of the leak return system with RPM of each MCP 1: pressure at the pump head 12, level in the collection tank 7 drainage of leaks, flow rate of drainage of leaks from the ROP of each MCPA 1, total flow rate of return of leaks to the industrial circuit. The leak return system with ROP GTsNA 1 is fully automated. It is possible to pre-select the first switch-on pump 12. An emergency reserve input (ATS) is provided in the event of a pressure drop on the pressure of a running pump 12 to 0.02 Pa or less and a level in tank 7 of more than 0.75 m. After turning on one of the pumps 12, the control valves 14, the level controller 8 are included in the automatic mode of operation. After turning off the last pump 12, the level 8 controller switches to remote control mode. Both pumps 12 are turned off when the level of distillate in the tank 7 decreases below 0.2 m.

 The value of leaks from the ROP of one MCPA is ~ 0.1 m / h. Accordingly, for a company of 1.5 years, the total value of drainage of leaks can be estimated at 5200 tons. The economic effect of introducing a system for returning drainage of drains from ROP of MCPA is expressed in the absence of the need to produce distillate for replenishment of the industrial circuit system and the absence of the need to process additional amount of special sewage water.

Claims

Utility Model Formula

 1. A system of leakage drains from the radial-axial bearing of the main circulation pump unit (GTsNA) with a water-cooled radial-axial bearing (ROP) and a pressureless drainage pipe for drainage of leaks from the ROP, characterized in that it is equipped with a circuit for collecting and returning leaks from the ROP to the reactor loop installation containing a leakage collection tank, to which a pressureless drainage pipe for drainage of leaks with ROP is connected through a hydraulic lock, and from the working space of which the drainage pipes of the tank and overflow are removed suction pipelines with leakage drainage return pumps with ROP, each pump is equipped with a leakage drainage recirculation pipeline to the leakage collection tank, and the leakage drainage return pumps of the leakage drainage pipes are connected to the drain circuit of the industrial circuit through the shut-off valve, while the leakage recovery tank is equipped with a level sensor, and all pipelines of the system are equipped with adjusting, shut-off and control and measuring equipment.

2. The drainage system of leaks from the radial-axial bearing of the main circulation pumping unit (GTsNA) according to claim 1, characterized in that the height of the water seal is 1, 0-1.5 m.

 3. The drainage system of leaks from the radial-axial bearing of the main circulation pumping unit (GTsNA) according to claim 1, characterized in that the drainage of the system and the overflow of the leakage collection tank are carried out in a station-wide leakage collection system for boron-containing water.

 4. The system of leakage drains from the radial-axial bearing of the main circulation pumping unit (GTsNA) according to claim 1, characterized in that it contains at least two leakage drainage return pumps with ROP.