SU1038497A1 - Steam-turbine plant - Google Patents

Abstract

A STEAM TURBINE INSTALLATION containing a turbine, a mains heater with supply and discharge lines, network hot water, and a cold battery connected to the supply line and a cold network de-aerator, in order to extend the adjustment range of the power for heat consumption during the hours of maximum electrical load of the power system in the summer, the installation is equipped with a free line relative to the network preheater, the cold water accumulator is connected to the bypass line and is connected to the supply line between the mains heater and the make-up deaerator, and the hot network water accumulator is connected to the drain line and an additional pipeline to the cold water accumulator. (L oo CX) 4 CO

Description

The invention relates to power engineering and can be used at thermal power plants (CHP).

A steam turbine installation is known, comprising turbines, a network heater with supply and discharge lines for network water, a hot water battery and cold and deaerator for make-up network water connected to the supply line. Such a scheme makes it possible to obtain additional power on the basis of the heat consumer during the hours of the system maximum of the heating season due to a decrease in power on the heat consumption during the hours of the failure of the electric load 1.

A disadvantage of the known installation is the small adjustment range of the generated power, which is caused by the constant supply of water from the deaerator of the make-up water of the heat network to the pipeline around -. Rational water network. Even more, the adjustment range of the output power is narrowed in summer, when the water is heated to the temperature of hot water distribution (about 60 ° C), and the water flow through the boiler is constant during the day and is equal to the water consumption for the hot water supply. The purpose of the invention is to expand the adjustment range of the power on the heat consumption during the hours of maximum electrical load of the power system in the summer.

The goal is achieved by the fact that the steam turbine plant, comprising a turbine, a network heater with supply and outlet lines, a hot water accumulator and a cold and deaerator of the make-up network water connected to the supply line, and the cold water battery is connected to the bypass line and connected to the supply line between the mains heater and the make-up deaerator, and the hot network water battery is connected line and additional discharge conduits - to a battery of cold water.

The drawing shows the scheme of the proposed steam turbine installation.

The steam turbine plant contains a turbine 1, to which a network heater 2 with lines 3 and 4 supply and outlet network water, respectively, a hot water accumulator 5 and pipes 8 and 7 connected to the supply line 3 battery 8 and a deaerator 9 are connected to the pair. make-up water network, respectively. The installation is equipped with a bypass with respect to the mains heater 2 by line 10, the cold water accumulator 8 being connected by pipeline 11 to the bypass line 10 and connected via conduit 6 to the supply line 3 between the preheater 2 and the make-up de-aerator 9, and hot water accumulator 5 pipeline 12 to the outlet 4 line and an additional pipeline 13 to the pipeline 6 of the cold water accumulator 8. The installation also contains valves 14-19.

Steam turbine installation works as follows.

A chemical water treatment (not shown) and a make-up de-aerator 9 operate with a constant capacity over the entire period under consideration (days).

During the failure of the daily electrical load schedule, the valves 15, 17 and 19 are open, the remaining valves 14, 16 and

5 18 closed. Part of the cold chemically treated water after deaerator 3 is directed from pipeline 7 through bypass line 10 to supply network supply line 4, where it is displaced from hot water coming here through pipe 12 from hot water storage 5 to the temperature and flow rate required by the hot water supply . The cold water accumulator 8 is filled by directing the remaining part of the water flow after deaerator 9 through line 6 into it. Water does not pass through the network heater 2 and the electric power of the turbine 1 is minimal or zero.

During the peak electrical load in the power system, the valves 14, 16, 18 and 19

0 is open and valves 15 and 17 are closed. All the water after the deaerator 9 flows through line 7 into the mains heater 2, where it is heated to the maximum possible temperature corresponding to the maximum generation of electric power at

5 to the turbine 1. From the mains heater 2, part of the hot water is directed to the heat consumer via the supply line 4, to which cold water from the accumulator 8 flows simultaneously through the bypass line 10. Excess hot water from the mains heater 2 is sent through the pipeline 12, in which it is displaced from cold water supplied to it from the battery 8 and through cold water through the additional pipe 13; after shifting the water through

5, the valve 19 enters the battery 8, where it accumulates during the entire time of the peak of the electrical load. Thus, the generation of maximum power at the heat consumption during the peak of the power system in the non-heating season is achieved, i.e. at the time when the heat load is equal to the load of the hot water supply.

The use of the proposed technical solution makes it possible to redistribute electricity generated by CHP on heat consumption from the base to the peak and half-peak zones of the electrical load and extend the adjustment range of such steam turbines from zero to the maximum possible power, which allows it to be used to replace low-cost peak sources of electricity and leads k reduction in specific fuel consumption.

Claims (1)

STEAM TURBINE INSTALLATION comprising a turbine, a network heater with mains for supplying and discharging network water, a hot water accumulator and a cold accumulator and a de-aerator of make-up network water connected to the supply line, characterized in that, in order to expand the control range of power for heat consumption during maximum electric hours the load of the power system in the summer, the installation is cleared with a free line relative to the network heater, and the cold water accumulator is connected to the bypass line and connected to the backbone network between the feed preheater and deaerator feed water and the hot water network is connected to the battery line and additional discharge pipe - to the accumulator of cold water.