SU1216381A1 - Arrangement for regenerating preheating of turboplant condensate - Google Patents

Description

2, a device according to claim 1, characterized in that the upper perforated plate of the preheater has a vertical partition separating the part of the plate above which the additional pipe is located, from the water chamber,

Claims (3)

I The invention relates to the field of power engineering and can be applied in steam turbine regeneration systems. The aim of the invention is to increase reliability by automatically changing the flow rate of the vapor-air mixture when the load of the turbo-unit is changed. FIG. Figure 1 shows a diagram of a device with heaters placed one above the other (gravitational on a diagram); in Fig.2, one of the heaters of the device in which the heaters are placed at the same height (diagram with pumps). The device contains sequentially connected by condensate mixing heaters 1 and 2, connected to the nozzles 3 of regenerative sampling. In the case of heaters 1. and 2, water chambers 4 and perforated plates 5 are located. Nozzles 6 serve to supply condensate, and nozzles 7 - to drain it. Heaters 1 and 2 are connected between the condensate pipe by the Pipe 8. The vapor space of the heater 1 above the top perforated plate 5 communicates with the napOBblM volume of the heater 2 pipe 9 to discharge the air-steam mixture and the additional pipe 10. The inlet of the pipe 10 is located below the condensate level 11 on the top perforated plate 5 preheater 1 at nominal mode. The latter has a partition C separating the part of the plate 5, above which the pipe 10 is located from the water chamber 4. The outlet opening of the additional pipe 10 is placed the outlet of the additional pipe is located below the upper edge of the partition. 3. A device according to claim 1, characterized in that the additional pipe is made with a water seal. 0 five 0 below the upper edge of the septum 12. The nozzle 13 serves to drain the vapor-air mixture from the preheater 2. The first in the course of the condensate, the heater is connected to the condenser (not shown) by pipes for discharging the vapor-air mixture. When the heaters are located at the same height, the additional pipe 10 connected to the lower pressure heater or condenser (not shown) is equipped with a hydraulic lock 14. The device works as follows. The condensate is fed to the heaters 1 and 2 through the pipes 6, and the steam through the pipes 3. The condensate is drained through perforated plates 5, is heated with steam and discharged through nozzles 7 with a gravity circuit to the downstream heater 2 via line 8 (Fig. 1), and with a pump circuit into a heater located at the same height (not shown ). The steam-air mixture is discharged from heater 1 through pipe 9 to heater 2 of a lower pressure, and from heater 2 through pipe 13 to the condenser. At rated load, the water level above the top perforated plate 5 is located at the top of the partition 12, which leads to flooding of the inlet of the additional pipe 10, in which a water column is installed, balancing the pressure difference in the heaters 1 and 2. As the turbine load decreases, the proportional load decreases water consumption, which leads to a decrease in the level of condensate on the plates 5. With a decrease in the level of 5 n below the partition 12, the pipe 11 / is emptied due to the emptying of the part of the perforated plate separated from the water chamber 4, after which the vapor-air mixture is discharged through the pipe 10. Thus, when the load changes, it automatically changes. 1216381 steam-air mixture consumption from the preheater, which eliminates hydraulic shocks and erosion of the inlet section of pipe 9 at a nominal load 5 and also eliminates the possibility of oxygen in water and deterioration of heat exchange during operation of the turbo-unit at reduced loads. yv Editor L. Gratilllo Order 975/38 Circulation 501 Subscription VNISHI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Branch ShSh Patent, Uzhgorod, st. Project, 4 Fig .. 2 Compiled by I. Lapina Tehred 3.Paly Proofreader. Cherni