SU731180A1 - Feeding-water supply system for central heating and power plant - Google Patents

Description

and to power the peak mains heater 7 and the plant 8, coupled to the high pressure heaters 9 and 10 (LDPE).

After the turbines 3, the steam enters the condensers And connected to the deaerators 12 of the high pressure line 13 of the main condenser with the condenser pumps 14 installed on it, and the low pressure preheaters 15. The main condensate line 13 is connected to a pipeline 16 for supplying water to the cycle of a CHP plant with an installed rsgu; merging clan 17.

Said pipeline 16 is also connected via an adjusting valve 18 and a station heater 19 connected by a steam line 6 to a lean pressure de-aerator 20 connected to the steam de-aerator 12 through a pair 21, and to the main condensate 22, a steam 23 and a water line 24 equalizing lines.

Deaerators 12 and 20 of elevated pressure are connected by pipelines 25 and 26, connected by cross connection 27 to feed pumps 28 and 29. Pump 28 Emissions to the boiler Pipeline 30 through the LDPE group 31 of the turbine 3 and the regulating clanan 32 of the boiler feedwater. The feed pump 29 is connected to the boiler by a pipe 33, on which a valve 34 is installed with a regulator 35, to the inlet of which is connected a pressure sensor 36 in the feed line 37 of the feed line. After the valve 34, the water passes into the LDPE 9, connected in pairs with the DOW 8, and then enters the boiler.

The boilers are connected by a cross-link 38 for a couple, and the feed pumps 28 and 29 are connected by a cross-link 39 for water to the LDPE.

In modes of operation of CHP, in which the required steam capacity of boilers I can be provided with water flow, the passage W, through the steam turbine 3 LDPE 31 connected to the turbine 3, closes the valve 34 on the supply water line to the LDPE 9. In this case, the deaerators power 12 and 20 of the increased pressure is carried out via line 13 of the main condensate of the turbine 3 through low pressure heaters 15 with a microcircuit: through the supply of iodine water through the control valve 17. In modes where the required flowrate water is Exceeds the value determined by the low pressure preheaters, the excess make-up water is fed through the control valve 18 and the station preheater 19 to the pressure deaerator 20 connected by full cross-links and equalized with the deaerator 12.

The stream of deaerated water enters the feed pumps 28 and 29 and further through the LDPE 31 into the boilers. A decrease in the required water supply, determined by the operation of the clanan 32, will result in a decrease in the performance of pumps 28 and 29, an increase in the level of water in the deaerators and, consequently, a reduction in the supply of water flow through the control valves 18 and, when it is fully closed, 17.

When boilers 1 increase their heat production in excess of the limiting flow rate determined by the throughput of the LDPE 31, there will be a decrease in pressure in the cross-connection line 37. In this case, an increase in the feed water flow will be achieved when the valve 34, controlled by the regulator 35, is turned on, to the input of which pressure sensor 36 is connected. Opening the 34 will maintain the pressure in the cross-connection line 37 and, consequently, the required steam output of the boilers.

This system allows improving the technical and economic efficiency of CHP by increasing its electric power output per unit power consumption.

Form m y, 1 and inventions

The feedwater supply system at the heat and power plants containing low pressure heaters, deaerators, feed pumps connected through pipelines to high pressure heaters, one part of which is connected to the turbines a couple of times, and the other to reduced cooling and cooling, with 1 unit, and A cross-connection line at the feedwater inlet to the boilers, characterized in that, in order to improve efficiency and reduce the feedwater flow through high pressure heaters, a couple of steam to Duct cooling units, in each of the pipelines, connecting test pumps to these preheaters, are fitted with a valve, equipped with a regulator, the pressure sensor of which is installed on the cross connection line. Sources of information received by BHHMainre during the examination

1. Benenson, E.I., et al. Theilification steam turbines, M., “Energie, 1976, p. 127-131.

2. Automation of large thermal power plants, Moscow, Energia, 1974, p. 12.

Claims (1)

Claim A feed water supply system for a combined heat and power plant, comprising low-pressure heaters, deaerators, feed pumps connected via pipelines to high-pressure heaters, one part of which is connected in pairs to turbines, and the other to reduction and cooling plants, and a cross-section pipe at the inlet feed water to boilers, characterized in that, in order to increase efficiency by reducing the flow of feed water through high-pressure heaters, connected in pairs to a reducer A cooling valve, in each of the pipelines connecting the feed pumps to these heaters, is equipped with a valve equipped with a regulator, the pressure sensor of which is installed on the cross-connection line.