SU127205A1 - Device for artificial cooling of electric generators - Google Patents

Description

The present invention relates to apparatuses for artificial cooling of electrically driven generators containing a gas cooler in a generator with a circulating fluid in the cooler.

The proposed device differs from that known by using a steam jet cooling machine with an evaporator attached to a steam turbine condenser and a steam jet device that creates a vacuum in the evaporator to enhance evaporation of condensate sent to one of the two sections of the cooled pelvis and returned to the evaporator through an auxiliary heat exchanger .

This embodiment of the device makes the cooling system more economical to operate.

Pa drawing shows a diagram of the proposed device.

The heat released in the generator / is discharged by a cooling gas circulating but closed circuit 2 through cooler 3. Cooler 5 is divided into two sections 4 and 5. Fresh water is circulated through section 4 and condensate through section 5. Water enters the system through line 6 and through the inlet valve 7 enters the auxiliary heat exchanger 8, where it cools the condensate coming from section 5 of chiller 3. The water then leaves section 4 of the cooler through section 4.

The condensate enters section 5 of the cooler through line 9 from the evaporator 10 of the steam-jet cooling maschine. It passes through the memory number 127205

A heat exchanger is transferred back to the evaporator 10. The condensate circulates between the evaporator 10 and cooler 3 by means of a circulating pump 11. Section 5 of cooler 3, through which the cooled condensate passes, removes 25-45% of the total amount of heat that comes from generator.

The chiller is equipped with a steam jet apparatus 12, which sucks the vapor-air mixture from the evaporator and creates conditions for enhanced evaporation of the condensate. The working steam is supplied to the steam-jet apparatus from any place where the steam turbine is selected.

If the temperature of the gas filling the generator becomes higher than acceptable (due to an increase in load or due to an increase in the temperature of the cooling water), the system is switched to artificial cooling. For this purpose, the inlet valve 7 is closed to stop the access of cooling water to the auxiliary heat exchanger 8, and the valve 13 is opened on the bypass line. The cooling water, having an initial temperature, bypasses the auxiliary heat exchanger and enters section 4 of the cooler 3. The circulating condensate passes through the auxiliary heat exchanger 8, not cooled in it, and is sent to the evaporator 10 of the refrigerating machine. At the same time, open the valve 14 of the steam jet pump (or steam jet pumps) on the steam extraction line from the turbine, which sucks the vapor from the evaporator, compresses them and throws them into the condenser 15 of the steam turbpp. Thus, part of the circulating condensate is evaporated, the condensate itself is cooled to the desired temperature and again enters section 5 of the cooler 5.

To replenish the condensate evaporating from the evaporator 10, it is supplied with an additional amount of condensate from the condenser 15 of the steam turbine through the valve} 16. The valve is controlled from the condensate level regulator, which is placed in the evaporator 10. in the air, on the return line 17, supplying condensate to the evaporator, install the throttle valve 18 or other appropriate device so that the pressure in any place between the discharge port of the circulator wow pump // and throttle washer 18 was somewhat atmospheric.

Prevention Invention

Claims (5)

1. A device for artecuty cooling of electric generators containing a gas cooler in a generator with a circulating fluid 1, in its cooler liquid:;, characterized by the use of a steam jet cooling machine with an evaporator attached to a steam condenser. and with a steam jet apparatus that creates a vacuum in the evaporator for enhanced evaporation of the condensate sent to one of the two sections of the gas cooler and returned to the evaporator through an auxiliary heat exchanger. 2. Device According to claim 1, characterized in that the second section of the gas cooler is included in the common with an auxiliary heat exchanger. Highway fed by water. 3. A device according to claim 2, characterized in that the auxiliary heat exchanger has a by-pass linp in the line through which fresh water flows. 4. In the device according to claims. 1-3 application of a throttle washer in the line, supplying the exhaust condensate to the evaporator. 5.In the device. According to paragraphs. 1-4 Application of a condensate level regulator in an evaporator.