SU1728579A1 - Heating-system water heater - Google Patents

Abstract

Invention b. used in steam turbine installations of thermal and nuclear power plants. SUMMARY OF THE INVENTION: The preheater comprises a housing with nozzles for supplying steam and condensate. Inside the case there is a two-way pipe system with the first and second passages and with horizontal partitions. The pipe system is connected to the upper chamber and the lower dome. The heater is equipped with differential thermocouples and shell, which is mounted on the tube plate of the rotating chamber. The cold junctions of the thermocouple are installed inside the shell, and the hot ones are above its upper edge. The ends of the thermocouples are connected to the control system. Obtaining a leading pulse in terms of breaking the tubes allows timely disconnection of the pipelines of the network water and steam. 2 hp f-ly, 2 ill. with s

Description

The invention relates to a power system and can be used in steam turbine installations of thermal and nuclear power plants.

A water supply heater with overflow protection is known, which is designed as an electrically operated shut-off valve, a level sensor and an acoustic sensor, secondary devices, a time relay.

This solution has insufficient reliability due to the false operation of the protection during abrupt load drops of the turbine unit.

The closest in technical essence and the achieved result is a network water heater, comprising a housing with a steam supply and condensate discharge pipe, placed inside its two-way horizontal pipe system, which is connected to the upper chamber with the network water supply and drain nozzles and the lower rotating chamber with a tube plate, while the heater is equipped with pipelines for supplying steam, supplying and discharging network water and a bypass pipeline, which is fitted with regulating valves Second, the last control system, wherein the protective GO 00

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The unit operates at two limits of the emergency level.

A disadvantage of the known technical solution is insufficient reliability. This is due to the fact that during abrupt load shedding of the turbine unit, condensate boiling up in the bottom of the preheater occurs. The resulting reverse flow of steam leads to a pressure differential between the points of selection of pressure pulses on the protection differential pressure gauges, which leads to its false triggering.

The purpose of the invention is to increase the reliability of work.

This goal is achieved by the fact that the well-known network water heater, comprising a housing with nozzles for supplying steam and condensate, a two-way pipe system with horizontal partitions, is located inside the case, while the pipe system is connected to the upper chamber with the outlet and outlet water pipes and the bottom rotary chamber with a tube plate, provided with pipelines for supplying steam, supplying and discharging network water and a bypass pipeline, on which the control valve is installed, and its control system, And so differential thermocouples and sides with vertical slots are installed in the heater, the shell is fixed on the tube plate of the rotating chamber, inside the shell there are cold junctions of thermocouples, and the hot junctions are above its upper edge. Differential thermocouples are connected to the control system. Additionally, between the pipes of the first and second pass, a vertical partition is installed, on both sides of which thermocouples are placed. A perforated sheet is attached to the housing under the PTZ camera.

FIG. Figure 1 shows a network water heater with a control system and sections A-A, BB, B-B; in fig. 2 - control circuit with control valves.

The heater comprises a housing 1. a two-way pipe system 2 and 3 placed inside the housing with horizontal partitions 4, connected to the upper 5 and lower 6 pipe plates and connected to the inlet 7 and the outlet 8 with water chambers through the rotating chamber 9, the steam inlet pipe 10, placed under the tube plate 5, inlet pipes 11 and outlet 12 of network water, condensate collector 13, condensate outlet nozzle 14, differential thermocouples 15, whose cold junctions are located inside the shell 16 with vertical slots 17 around the perimeter, tightly rikreplennoy to the flange 18, the rotary chamber 9, and the hot junctions are disposed over the upper edge of the sleeve 16. Between the rotary cam 9 and the condensate trap 13 is placed a perforated sheet 20 supported on brackets 21 attached to the housing 1.

On pipelines for steam supply, supply and removal of network water (not shown) on

Bypass pipe 22 has electrified valves, 23-26, respectively; differential thermocouples 15 are connected to a control system consisting of a secondary device 27 that amplifies the signal of thermocouple 15 to a certain level, at which the relays entering secondary devices 27 and 28, giving the command on the gate control circuit 29.

The heater works as follows.

When the tubes rupture, the level of condensate and network water in the shell 16 increases. The vertical partition 19 contributes to the level increase. As a result

The cold junctions of thermocouples 15 are below the level of the mixture. The temperature of the mixture at the same time decreases due to the cooling by the walls of the tubes and the surface of the lower tube plate 6. As the temperature decreases

cold junctions of thermocouples 15, thermopower arises, the magnitude of which is amplified by the secondary device 27. When the thermopower reaches a given setpoint, a pulse is given to trigger the system

29 control, as a result of which the adjustable valve of the preheater is disconnected through mains water and steam.

The cooling of the mixture is accompanied by the dissolution of gases in it. To ensure

degassing is provided for installation in the heater perforated sheet 20.

Thus, obtaining a leading pulse in terms of level and timely protection of the heater from overflow allows it to be protected in a timely manner from network water entering the steam line and further into the turbine and, as a result, to prevent the turbine from shutting down.

Claims (3)

1. Heater network water; comprising a housing with nozzles for supplying steam and condensate; a two-way pipe system with horizontal partitions inside the case; water and bypass pipe with the control valves installed on them and the control system of the latter, which also, in order to increase the reliability of operation, it The thermocouples are equipped with differential thermocouples and a shell with vertical slots attached to the tube plate of the rotating chamber, the cold junctions of these thermocouples are installed inside the shell, and the hot junctions are above its upper edge, and the diff / f Potential thermocouples are connected to the control system. 2. The heater according to claim 1, excluding the fact that a vertical partition is additionally installed between the pipes of the first and second passages, on either side of which differential thermocouples are placed. 3. The heater according to claim 1, in which it is additionally provided with a perforated sheet fixed to the housing under the rotating chamber. FIG. 2