SU1160169A1 - Boiler unit - Google Patents

Abstract

1. BOILER INSTALLATION, containing a cyclone separator with water and steam volumes, connected respectively through the standpipe and the riser to the heating surface heated by gases, bypass pipe connecting the riser to the separator's water volume through the flow regulator associated with the sensor water level in the separator, as well as a feed line with a power regulator, characterized in that, in order to increase the degree of heat utilization of heating gases, the standpipe is equipped with an ejector, the nozzle of which It is connected to the feed pipe, and the cyclone seperator is equipped with a steam flow regulator and a pressure sensor connected respectively to a water level sensor and a power regulator. 2. Installation according to claim 1, characterized in that the standpipe in front of the ejector is equipped with a check valve downstream. (L / 7 O5 “O5; o

Description

The invention relates to a power system and can be used to dispose of waste gases from metallurgical and other furnaces.

A known boiler plant containing a cyclone separator with water and steam volumes connected, respectively, through an overhead pipe and a riser to the heating surface heated by gases 1.

The disadvantage of this installation is reduced reliability with variable thermal loads, caused by sharp level fluctuations in the separator, leading to hydraulic shocks and vibrations in the circulation circuit.

A known boiler plant comprising a cyclone separator with water and steam volumes connected respectively through a standpipe and a riser to the heating surface heated by gases, a bypass pipe, casing the riser pipe with a separator's water volume through a flow regulator connected to the sensor the water level in the separator, as well as the feed line with the power regulator 2.

The disadvantage of such an installation is the low degree of heat utilization of the heating gases, especially when the temperature of the gases is below 200 ° C.

The purpose of the invention is to increase the degree of heat utilization of heating gases.

The goal is achieved by the fact that in a boiler plant containing a cyclone separator with water and steam volumes, connected respectively through a standpipe and a lifting pipe to the heating surface, heated by gases, a bypass pipe connecting the riser pipe to the separator's water volume the flow rate associated with the water level sensor in the separator, as well as the supply pipe with the power regulator, the descending pipe is equipped with an ejector, the nozzle of which is connected to the supply pipe and the cyclone The steam separator is equipped with a steam flow regulator and a pressure sensor connected respectively to the water level and power regulator.

Moreover, the downcomer in front of the ejector downstream can be equipped with a check valve.

The drawing shows a diagram of the boiler plant.

The boiler plant contains a cyclone separator 1 with water 2 and steam 3 volumes connected, respectively, through an outlet 4 and lifting 5 pipes to the heating surface 6 heated by gases, bypass pipeline 7 connecting the lifting pipe 5 with a water volume 2 separators 1 through the regulator 8 flow rate associated with the water level sensor 9 in the separator 1, as well as the supply line 10 with the supply regulator 11, the standpipe 4 provided with an ejector 12, the nozzle 13 of which is connected to the supply line 10. Cyclone separator 1 nabzhen flow regulator 14 and sensor 15 couple pressure, associated respectively with a water level sensor 9 and a power regulator 11. The downcomer 4 in front of the ejector 12 in the direction of flow is equipped with a check valve 16.

5 The cyclone separator 1 is also provided with a steam discharge pipe 17 with a pressure regulator 18, a drainage pipe 19, a purge line 20, a safety valve 21 and a level control line 22.

Q During operation of the boiler plant, the feed water is supplied to the standpipe pipe 4 through the ejector 12, thereby lowering the water temperature at the inlet to the heating surface 6 and increasing the temperature difference between gases and water.

5 When the unit is operating in steam mode, the drain pipe 19 is closed. If the feedwater flow rate exceeds the steam flow rate, the level in the separator 1 increases and the steam flow controller 14 connected to the water level sensor 9 decreases

 steam consumption, which leads to an increase in pressure

in the separator 1. The signal from the sensor 15

pressure regulator 11 power reduces

feed water consumption.

5 With a sharp increase in heat generation in the heating surface 6, the pressure in the separator 1 increases to the setpoint of the operation of the safety valve 21, which leads to the release of part of the water from the separator 1, a decrease in level and an increase in the steam flow regulator 14 through the steam removal pipe 17 to consumers. separator 1 is reduced and normal power is restored.

When opening the drainage pipe 19

Level 5 and pressure in the separator 1 fall, which leads to an increase in feed water consumption. If sufficient heat is supplied through the heating surface 6 to evaporate a part of the water, the installation will operate in a combined mode of generating steam and hot water. If the amount of heat is not enough to form steam, then the separator 1 will fill up all the water with water and the unit will switch to a hot-water mode, which will make it possible to fully utilize the heat of the gas.

The boiler room installation, thanks to the supply of feed water to the standpipe and easy adjustable transition from steam to room 3, 1160169.d

Binirovanny or hot-water modes with an increase in temperature

conversely, it provides an increase in the steppe-heating surface, and also increases the utilization of the heat of heating gases by ensuring installation in transient conditions.

Claims (2)

1. BOILER PLANT, comprising a cyclone separator with water and steam volumes connected respectively through a drain and a lift pipe to a gas-heated heating surface, a bypass pipe connecting a lift pipe with a separator water volume through a flow regulator connected to a water level sensor in the separator as well as a feed pipe with a power regulator, characterized in that, in order to increase the degree of use of heat from the heating gases, the downcomer is equipped with an ejector, the nozzle of which is connected but to the feed conduit and the cyclone is provided with a seperator steam flow regulator and a pressure sensor respectively associated with a water level sensor and power controller. 2. Installation according to π. 1, characterized in that the lowering pipe in front of the ejector upstream is equipped with a check valve.