SU419632A1 - ENERGY INSTALLATION - Google Patents

Description

one

The invention relates to a power system and can be used in thermal circuits of steam turbine plants equipped with a steam turbine condensing turbo drive auxiliary mechanisms, such as feed pumps.

Power plants are known that contain a main turbine with a condenser and a regeneration system, in which a feed pump with a turbine is provided as a drive, steam extraction from which is used to heat the condensate of the main turbine. Preheating of the condensate in front of the heater occurs in tube bundles embedded in regenerative heaters. In some schemes, the auxiliary turbine steam take-off pipeline is connected to a contact heat exchanger.

However, the known plants have low cost and insufficient reliability, since it uses high-grade steam from the main turbine for heating the air, and the built-in low-pressure heaters, which heat the condensate before it goes to the radiator, operate with significant temperature pressures, and in addition, the equipment and circuitry are complicated and reduce its reliability.

In order to increase the efficiency and reliability of operation and ensure the required condensate temperature when the heater mode changes, a heater is included in the condensate duct of the contact heat exchanger of the proposed power plant, and an additional tube bundle is integrated into the auxiliary turbine condenser, the inlet of which is connected to

heater, and the output - with the pipeline supplying condensate to the contact heat exchanger; between the supply and exhaust pipelines of the contact heat exchanger, a bypass pipeline is made; auxiliary turbine condenser waves combined, m and connected along the supply line n outlet

condensate with regenerative main system

turbines.

The drawing shows the scheme of the proposed energy installation.

The installation consists of a main turbine 1 with a condenser 2, a pump 3 of the main condensate, behind which regenerative heaters 4 are installed, a nitration pump 5 with a driving turbine 6 connected in pairs with a selection of the main turbine and an auxiliary condenser 7, in the last-minute a bundle 8 is allocated. the beam is connected in series with a contact heat exchanger 9, a pumping pump 10 and a heater I.

The contact heat exchanger 9 has a condensate bypass 12 and a cascade condensate drain 13 to the auxiliary turbine condenser, to which the main turbine condensate 14 is fed and the 15 mixed drains discharge to the main turbine regenerative heaters 16.

After heating the air in the heater 11, the condensate enters the selected bundle 8 of the condenser 5 of the turbine 6, where it is preheated by spent steam, then enters the contact heat exchanger 9, which is heated to the required temperature by selected steam from the drive turbine 6. The desired condensate temperature at various loads and ambient temperatures are produced by means of buy | pass 12.

From the mixing heat exchanger 9, the condensate is pumped back to the heater 11 by the pumping pump 10. The excess condensate from the heating steam from the contact heat exchanger 9 is discharged into the auxiliary condenser 7 from the heat exchanger 9, from which the mixed drains return to the main condensate line 15 to drain regenerative node heaters 4 fed by steam from the main turbine 1.

| As the heat load of the heater 11 increases, condenser 7 is successively supplied: condensate after heaters 11 in

the selected bundle 8, the condensate of the main turbine 14 and, if necessary, circulating water can be supplied.

Subject invention

Claims (3)

1. An energy installation comprising a main turbine with a condenser and a regenerant system, a walkie-talkie and an all-condensing condensing turbine, the steam extraction line of which is connected to a contact heat exchanger, which is included in the condensate path of the contact heat exchanger to increase efficiency and reliability the heater, and an additional tube bundle is built into the auxiliary turbine condenser, the inlet of which is connected to the heater, and the outlet is connected to the condensate supply pipe to ploo1bmenniku. 2. The installation of claim 1, wherein THAT, for the purpose of security. required condensate temperature when changing the mode of operation of the heater, between the pipe (wires supply and removal of condensate contact heat exchanger included bypass pipe. 3. Installation of clause 1, characterized in that the auxiliary turbine condenser is combined and connected along the supply line of the condensate condenser to the main turbine regeneration system.