SU1112132A1 - Steam power plant - Google Patents

Abstract

I. A PAROSIL INSTALLATION, containing a turbine, the exhaust of which is connected to a condenser connected through cooling water with at least one waste and supply circuits to the cooling tower, a circulation pump with valves on the discharge and suction pipelines, installed on the supply pipe, a jumper with a valve , and pipelines with valves for supplying water to water treatment and watering, characterized in that, in order to increase its cost-effectiveness and maneuverability, a bridge with valve is connected at the inlet to the wastewater center The water supply to the valve, and the outlet to the suction pipe of the circulation pump after the valve along the cooling water flow, while the feed pipe is connected to the suction pipe, and the valve at the wastewater circulator pipe is equipped with a bypass line with a regulating valve. 2. Installation according to claim, characterized in that the circulation pump is provided with a by-pass line with an additional pump connected at the inlet to the suction line, and at the outlet to the pressure head JV line of the circulation pump after the valve.

Description

Invention () tn01: its i; a heat exchanger; and there can be:, and ba1 {o and thermal electrical energy (TE-) with circulating and circulating systems: circulating water.

The steam-powered unit is known; the turbine with its exhaust is connected to a condenser, the built-in beam is connected to the circulation, technological, and segmented pipelines. |, And circulation pumps 1.

However, with n (health in the embedded beams of the process water and the main beams disconnected, it is necessary to preserve 1 them, so that C) 1 man (the installation does not allow the electric load to be quickly gained by increasing the steam supply to the condenser. In addition, any preservation method leads to premature failure of tubes of gyu compared with the mode of operation of the main tube bundle with the normal flow of circulating water, in the case of parallel operation of the bundles of condit} tspor with heating; ogicheskoy water arise dopolnitelE1rpme heat loss in the cold source, and losses associated with high temperature pressure (subcooling).

Also known is the steam power plant, eoderzhapla turbine whose exhaust is communicated with a condenser, connected at the cooling water on menp she least one waste and PODVODYA1PIM tsirkovodovodami to the tower, circus and tsio1P1 l1Y pump with dampers on nadornom and vsaspiioschem pipelines mouth 1ovleiny for supplying a present closed circulation systems , jumper with gate valve and pipelines with gate valves for supplying water 1 (for water treatment and make-up (21.

However, circulating water (at the condenser in winter time has a relatively low temperature when using it to supply water to the water treatment (water purification)) additional heat sources are needed: use of vapor from the selection of turbines. Water is not used. with a circulating pi-ciopi water supply system, it requires a supplement of i te. ) The first | reagent consumption due to the high content of salts in the circulating water. When water is supplied to the water treatment from pipelines c) and the feed lines of the circulation system, additional gels1-, H, e, and low heat losses occur, increasing the flow rate and the selection of the turbine for heating this water.

The aim of the invention is to increase the efficiency and maneuverability of the installation.

This goal is achieved by the fact that in parosi. A device with a turbiich unit. the exhaust of which is in communication with the condenser connected to the cooling water, at least one waste and one two, chmm1pm G1: .- 1p1, () arguments to the radar, circ-. .liino 1i1Yi; ac (: - c with gate valves and head; fi: v: i; ias ;: your bilate pipelines installed by the | water supply cable of the circus driver,

1 (repair with gate valve and pipelines with pipe connections for supplying water to vodoproTOLiKv and make-up, jumper with valve on ;.plugged at the inlet to the discharge water circuit to the valve, and at the outlet

after passing the pump, cooling the pipeline of the circulating pump after it is cooled, it supplies water, while the supply pipe is connected to the suction pipe, and the valve of the waste water supply pipe is connected to

emulate the valve.

In this case, we supply the circulating pump with a bypass line with an additional pump, at the inlet to the suction pipe, and at the outlet to the discharge pipe of the shrunk pump after the valve.

1 and the drawing shows a schematic diagram of a steam-powered booster, a second installation.

Steam installation contains 2 high and low pressure

respectively (CVP and IND) with sensors 3 and 4 of temperature and pressure with regulating valves 5, equipped with isp. g1itely mechanism 6. Exhaust LPC 2

Q communicates with the coidepsy 7, which contains the main pipe bundles 8 and under the night iio cooling water and waste water and hydraulic circuits 9 and 10 to the cooling tower 1 i. The supply circuits 10 are equipped with circulation pumps 12 and

. valves 13 and 14. Jumpers 15 and 16 with valves 17 and 18 connect respectively the coupling and supply cables 9 and 0 to each other. A pipeline is connected to the suction pipe 19 of the circulation pump 12 after sliding 13; 20 make-up of circ. 1p, the ionic system, and to discharge the pyrkowater 9 - pipeline 21 for supplying water to water treatment. Discharge schrkvodovod 9 to the valve 22 is connected to

5 (pipe 19 after the back; 1 and 13 along the cooling software moving path. Jumper 23 with a valve 24 equipped with an electric drive 25. The valve 22 at the discharge circuit 9 is equipped with a bypass line 26 with an adjusting valve 27 and a floor mechanism 28, its connected to the sensor with 29 tem. temperatures of the .bi .bi supplied to the water treatment, and with an 11 mechanism of 51 m, the mechanism 30 controls the valve 31. The circulating pump 12

5 is equipped with a bypass line 32 with an additional; with | -; a pump 33 connected at the inlet to the suction pipe 19 and equipped with valves 34 and 35. A bypass 32 pa of the outlet is connected to the pressure

the pipeline 36 circulation pump 12 after the valve 14.

The water supply pipe 21 for water treatment is connected to a heater 37, combined with a steam extraction pipe 38 having a valve 39. The subteater 37 is equipped with a bypass pipe 40 with a valve 41. Contractor; the first mechanism 30 of the control valve 31 is connected to the pressure sensor 42 in the suction pipe of the circulation pump 12. Similar additional connections and elements can be equipped with other circulation pump 12, gate valve 22 and suction pipe 19.

The installation works as follows.

At low flow rates of steam into the condenser 7, for example, when heat turbines operate on thermal graphics with a closed control valve (regulating diaphragm) 5, they close the valves 13 and 22 and open the doors 24 on the bridge 23. This creates a closed water circuit in the main tube bundle 8 of condenser 7 with speeds ensuring the normal operation of tube bundle 8. The required amount of water for water treatment is supplied to the suction pipe 19 through the regulating valve 31 through pipeline 20 to feed water System, is heated in the main tube bundle 8 to the temperature of the water circulating in it and is fed through a pipeline 21 for supplying water to water treatment. Since the water is heated in the main tube bundle 8, and the water consumption is due to the circulation of the wells, the overall temperature increase of the circulating water is insignificant, therefore, the absolute underheating is small, and therefore the vacuum in the condenser 7 is much higher than when the water is heated in the embedded beam.

If the water temperature after the main tube bundle 8 is to be increased, a signal is given to the actuator .6 of the control valve 5, opening it slightly. Otherwise, the control valve 5 closes. If a mode occurs in which the control valve 5 is completely closed and the water temperature after the main tube bundle 8 rises above the required value, then part of the water is discharged into the cooling tower 11 through the bypass line 26. At the same time, the flow rate increases; i) o; nu) 4iir -) ii RO ;; I:, ii;). 4; i ow (MOII cp Bcaci) iH; i pipe trupygig.ch I). i; i (h (m ip g effect on laplesna 42 sensor).

If it is necessary to increase the size of the Mdiiinn turbine, due to the iovipioi rice-hall gyr to the condenser, l ohg gllkitsy flooring, which goes on voloiolotvoku. 11sl (kl. In person for the pair, opening the salvage 14 and 22 and zhkrapletts zllpizhk,) 2- or bridge 23.

In the case when the power of the circulating pump 12 is used to create circulating power 11, it is in the main bundle 8 (i.e., when one half of the co1 is turned on: the absorber 7)

an additional pump 33 is turned on. and a lower power consumption is required, and the circulation pump 12 is turned off. An additional pump provides the necessary rate of water circulation, which saves energy.

The steam-powered unit can work1 with 8 or one of the common main tube bundles included. in the latter case, valves 17 and 8 are closed at

5 jumpers 15 and 16.

If at the TPP there are significant fluctuations in the water consumption for water treatment, then to prevent the circulation pump 12 or the additional pump from breaking down along with the increase in the make-up Water flow rate, creating the necessary backwater at the suction of the pumps 12 and 33 can be done by supplying feed water from the tanks (not shown) installed on

5 required height.

Thus, the use of this plant allows to increase the efficiency by using the main beam to preheat the process water while increasing the circulation ratio. At the same time, waste heat is used, the conditions of heat exchange and the operation of the main tube bundles of the condenser are improved. Increased maneuverability reached-. The fact that a constant flow of cooling water is provided through the main tube bundles of the condenser, and if it is necessary to increase the flow of cooling water, no additional preparation is required, 1 operation (filling the pipe system of the condenser, turning on the circulating pump, etc.).

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Claims (2)

1. A STEAM POWER PLANT, comprising a turbine, the exhaust of which is connected to a condenser connected via cooling water to at least one discharge and supply circulating pipes to the cooling tower, a circulation pump with valves on the pressure and suction pipelines installed on the supply circulating pipe, a jumper with a valve. and pipelines with valves for supplying water for water treatment and make-up, characterized in that, in order to increase its economy and maneuverability, a jumper valves in the direction of cooling water, while the make-up pipe is connected to the suction pipe, and the valve on the discharge circulating conduit is equipped with a bypass line with a control valve. 2. Installation according to π. 1, characterized in that the circulation pump is equipped with a bypass line with an additional pump connected at the inlet to the suction pipe, and at the outlet to the pressure pipe of the circulation pump after the valve. >