SU80626A1 - Boiler room installation - Google Patents

Description

The subject of the invention is a boiler plant, short circuit condition of the electrode boiler and water supply devices with automatic control of the boiler load.

One of the drawbacks of electrode boilers is the need for the scientific adjustment of their power depending on the flow rate of the banks. A number of pre-molded automatic power control systems for electrode boilers turned out to be unacceptable in practice because of their great complexity.

In the proposed installation, when the steam electrode boiler is turned on in the water-intake network, the power is automatically regulated depending on the heat load. For this purpose, the electrode boiler equipped with vertical electrodes and the water-pressure feed tank are made as communicating vessels and are located relative to each other so that the hydrostatic pressure of the water column between the upper level in the tank and the lower edge of the electrodes is equal to the working pressure of the Vottle bottom.

The decrease in steam pressure in the boiler with such a device causes a rise in the level of water in it and, as a consequence, an increase in steam generation. When the steam pressure in the boiler increases, the reverse process takes place.

The supply of water from the tank to the boiler can be replaced by supplying water 1 to it directly from the water mains. A pump equipped with a discharge valve can also be used to power the boiler. FIG. Figure 1 shows a boiler plant for low pressure steam; in fig. 2 installation for producing high and medium pressure steam.

The composition of the boiler plant shown in FIG. 1, enters the electric: single boiler /, with vertically arranged electrodes 2 and 3. Electrode 2 is grounded, and to electrode 5 through the bushing insulator 4 under jYg 80626 --.- 2

YEARING IS CHARGED. Electrodshk.k boiler / Chere; -; the pipe 5 and the speck 6 are connected to the water tank 7, located by the boiler on the taco 11 iibi .-: vre. npi which is hydrost; T; 1 pressure P1e of the column of iodine between its level to the tank 7 and the downward edge of the electrode of the 5th eye: equalsHi) iiM | ja6o4fMy vapor pressure in the electrode boiler.

In the factory, there is a regulating device consisting of an valve and a valve, which ensures that the tank is permanently filled with water to a definite level from the water supply system; network 8.

From the top of the part of the electric boiler the steam is removed to the consumer of the pipe, which has a valve 10 in the immediate vicinity of the boiler. Condensate is returned to the tank 7 through the pipe //. Pipe / 5 and faucet 13 are designed to remove sludge discharged into the sewage pipe 14 from the boiler. .

Before starting the boiler, the cranks 6, 10, 13 and 16 must be closed. During start-up, the valves 6 and / 6 turn off, as a result of which 15 years begins to flow from tank 7 through pipe 5 through valve 6 to boiler 1.

 When a city begins to tap from crane 16, crane 6 will open. and after 2-3A ", the valve 16 is then closed. Then, a Podquite current is connected to the electrode 3. When the nominal vapor pressure indicated by the pressure gauge 17 is established in the boiler, valve 6 is opened. The level of mode in the boiler, npsi, will determine the heat loss of the boiler.

So, for example, if the boiler consumes more power than at idle, the steam pressure in the new 11 is less than one part of the water but is displaced 5 from the boiler into the tank 7. When the water level in the boiler decreases, the amount consumed power. If the distribution of the bottom 1 of the boiler turns out to be less than the pressure of water in the thread line, then the process will proceed in the opposite direction.

In order for the boiler irn l heat load, it is necessary to proceed to the gradual opening of the crane 10. The pressure of the nara in the boiler begins to fall accordingly, causing an increase in the water level in the boiler and, as a result, an increase in the working area of the electrodes. The latter circumstance is associated with an increase in power consumption, which is responsible for the growth of growth.

When the boiler is running, the power it consumes always corresponds to its maximum load, and is automatically regulated. If there is a water supply network, the pressure in KOTopoii corresponds to the nominal vapor pressure in the boiler, the boiler can be supplied with water directly from the water supply network 8, mine tank 7.

In FIG. 2, a medium and high pressure steam pump is additionally provided with a feed pump 18 and a relief valve 19 adjusted to the operating pressure of the electrode boiler.

Also, as in the first case, before starting the boiler, all the taps are closed, the tank 7 is filled with water and the feed pump 18 is put into operation. Water from the tank 7 is fed successively to the pump 18 and the feed pipe 5 and further, due to the fact that the valve 6 is closed, is discharged back to the tank 7 through an automatic relief valve 19.

After the start, taps 6 and 16 are opened to the operation of the pump 18, the boiler / is filled with water to the level of the valve 16, after which the valve 6 and 16 are closed. Current is supplied to the electrodes 3, as a result of which the water in the boiler heats up, boils and the steam pressure gradually rises to nominal, which is noted by the pressure gauge 17. Then the valve 6 slowly opens and the water pressure (in the feed pipe 5 and the vapor is electrode electrode / equilibrated. Turning on the boiler to the car load, as in the first case, should be done by slowly opening the valve 10.

The performance of the pump 18 should correspond to the maximum steam production of the boiler, and the pressure should be equal to the homogeneous steam pressure in the boiler.

When the boiler operates at maximum power, all the water from the pump enters the boiler. At a lower load, the pressure of the pressure in the boiler increases, the valve / 5 opens and part of the water is discharged into the tank 7.

Simultaneously with the automatic regulation of the electric power consumed by the boiler, it is possible to ensure the limitation of the maximum power value without the use of additional equipment. For this, it is sufficient that the capacity of the pump 18 is equal to the maximum steam output of the boiler; In this case, when the boiler heat increases above the set maximum, the water level in it will not rise, but the vapor pressure will fall. When the heat load decreases, the steam pressure in the boiler will again rise to the memorial and the boiler will again be automatically regulated.

The subject is invented and

Claims (3)

1.Kotel installation consisting of an electrode boiler with a vertical arrangement of electrodes and feeding devices with load control by changing the water level in the boiler, characterized in that, in order to automatically change the water level following the vapor pressure change, the feeding device is made in the form of a feed tank in such a way that the boiler and the tank form a system of communicating vessels in which the pressure of the people in the boiler and the hydrostatic pressure of the water column coming from the tank are mutually balanced. 2. The boiler installation, but clause 1, characterized in that it is equipped with a pump equipped with a relief valve for draining excess water at partial load of the boiler. 3. The boiler plant of claim 1, characterized in that the vapor pressure in it is balanced by the pressure of the water supply network. //; 8 2