SU1665179A1 - Power plant - Google Patents

Abstract

The invention relates to energy and can be used in heat supply systems with hot water boilers. The purpose of the invention is to increase reliability by reducing stresses and corrosion therein. For this, the pressure compensator is made in the form of a deaerator connected in series in a closed loop, a make-up pump and a control valve, and the energy circuit is connected to a pressure compensator in the zone between the make-up pump and the control valve along the make-up medium, which allows to maintain a constant pressure in the installation all modes of operation and feed it with high quality water. 1 il.

Description

The invention relates to energy and can be used in heat supply systems with hot water boilers.

The aim of the invention is to improve the reliability of a power plant by reducing stresses and corrosion therein.

The drawing shows schematically the energy installation.

The power plant contains a power circuit 1 with series-connected heating water boiler 2, a network heat exchanger 3 and a circulation pump 4. Circuit 1 is connected via feed line 5 to a pressure compensator connected in series with the deaerator 6, the make-up pump 7 and a control valve 8. In a pressure compensator between

The regulator, valve 8 and deaerator 6 turn on bypass line 9 to form a closed circuit of make-up water in the pressure compensator. Deaerator 6 is equipped with a make-up pipeline 10 and a supply medium 11. Energy circuit 1 is connected to a pressure compensator in the zone between the booster pump 7 and the control valve 8 along the make-up water flow, while the supply line 5 to the energy loop 1 can be connected in the zone before or after the circulation pump 4 along the heated water flow circuit 1 and can be provided with shut-off valves 12.

The heat exchanger 3 is equipped with a bypass pipe 13 with a control valve 14. The deaerator 6 has a waste pipe 15 The pipelines 10, 11 and 15 are equipped with valves 16-18, respectively.

 About SP

“H O

The power plant works as follows.

With open valves 12 through pipeline 10, the power plant is filled with desalted water. The pumps 4 and 7 are turned on, the load is raised in the boiler 2 and the network heat exchanger 3 is put into operation. Water that circulates in circuit 1 through the pump 4, heats up in the boiler 2 and releases heat through the heat exchanger 3 to the network water. Excess or shortage of water in circuit 1 is compensated for by its discharge into the pressure compensator or by supplying it from the pressure compensator through pipeline 5. When there is a shortage of water in the installation, deaerator 6 is fed through pipe 10, and if there is an excess of medium in the installation, water is removed from the deaerator through the pipeline 15. In all modes of operation of the installation, the control valve 8 maintains a constant predetermined pressure in the installation to the boiler 2, which eliminates the increase in pressure above the permissible value and thereby reduces the voltage in the equipment installation. The make-up of circuit 1 with high quality water reduces the corrosion of the plant equipment.

Claims (1)

An energy installation comprising an energy loop and a pressure compensator, the first of which is connected to the second by means of a make-up pipeline, and the second is made in the form of a deaerator, a make-up pump and a control valve connected in series along the make-up medium, which, in order to increase reliability by reducing stress and corrosion, it additionally contains a bypass line connected into the pressure compensator between the regulating valve and the deaerator, and the energy circuit is connected to the pressure compensator in the zone between the booster pump and the regulating valve along the environment.