SU1643795A1 - Method of starting pumping plant of condenser cooling system - Google Patents

Abstract

The invention improves the reliability of the method by reducing dynamic loads. The cooling system of the condenser (K) 6 contains a pump 1 with a pressure conduit (HB) 2. The latter contains horizontal sections (PG) 4 and 5 and a break 3 between them. PG 4 communicates with the outlet of pump 1, and PG 5 with K 6. At K 6, an air discharge valve 7 and an ejector 8 are installed. Before starting the system, some of the water is drained from PG 5 to form the required value of the air cavity. The ejector 8 is turned on and air is removed from K 6 and HB 2. Water enters HB 2 through pump 1 and fills PG 4. After the air cavity on PG 4 reaches the value (0.25 ... 2)% of The cross-sectional areas HB 2 at PG 4 switch on pump 1. K 6 is filled with water, while the air is removed by the ejector 8 and through the air exhaust valve 7. The system goes to nominal mode of operation. 1 il. C / s

Description

The invention relates to energy and can be used in cooling systems of condensers of TPPs and NPPs.

The purpose of the invention is to increase reliability by reducing dynamic loads.

'' The drawing shows a condenser with a cooling system.

The cooling system contains a pump 1 with a pressure head conduit 2. The latter has a kink 3 in the vertical plane and horizontal sections 4 and 5. The condenser 6 is equipped with an air release valve 7, an ejector 8 and is connected to a drain conduit 9. The inlet of pump 1 is connected to the downstream 10, and the outlet of the drainage conduit is with an upstream 11. In the area 5 of the discharge conduit 2 between the break 3 and the condenser 6, a device 12 is installed for draining the water.

The method of starting the pumping unit of the condenser cooling system is as follows.

Before starting, using the device 12, water is drained from the discharge conduit 2 in the area 5 between the fracture 3 and the condenser 6 and the water level is established with the formation of the required air cavity.

The starting ejector 8 is turned on and a vacuum is created in the condenser 6 and the pressure pipe 2, while air is removed from it in section 4 between the pump 1 and the fracture 3 through the air cavity of section 5. The water level in section 4 rises and sets so that under pressure the vacuum the air cavity of section 4 was equal in area to (0.25-2)% of the cross-sectional area of the water conduit in section 4. The water level of section 5 remains constant and does not depend on the vacuum in the condenser 6. Then, pump 1 is turned on.

Due to the specified choice of the value of the air cavity, the pressure of the pump 1 is maintained in the working area of the characteristic. After filling the discharge conduit 2 with water from the downstream 10, air is removed through the valve 7. The condenser 6 is filled with water. The system reaches the nominal mode of pumping pump 1 of water from the downstream 10 through a condenser 6 and a discharge conduit 9 into the upstream 11.

Thus, by maintaining the pump head in the working area of the characteristic, a reduction in dynamic loads is achieved.

Claims (1)

Claim A method of starting a pumping unit of a condenser cooling system, including draining a liquid from a pressure conduit penstock and control of liquid level increase and the pump includes the air cavity when the area of the horizontal section to fracture values _h 0.25-2.0% by area transverse cross section of the water conduit. Compiled by K. Staroverov Editor O. Golovach Tehred M. Morgenthal Corrector L. Pilipenko Order 1227 Circulation 374 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35,. Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhhorod, st., Gagarina, 101