SU48334A1 - Device to prevent burnout of coil-mounted boilers - Google Patents

Description

In recirculation boilers of all existing types, the operation of the feed pump must be completely continuous, since the water supply in the boiler coil is negligible. The shortest interruption in the pump operation leads to h & slowly forced stopping of the boiler or to a sharp rise in steam temperature and pressure, with all the ensuing consequences, such as: burnout of heat pipe, explosion, etc.

Monitoring the continuous operation of the feed pump and the process of moving the water in the coils is possible only with the help of quite complex and expensive control and signaling devices. However, signaling problems in the power supply of the boiler solves only one task — to avoid an accident with the boiler; it is not possible to continue the operation of the boiler without stopping, as it takes time to inspect and reorder the feed pump or to switch to another standby pump.

In the proposed device, to prevent the burnout of the coils of the continuous boilers, a water battery connected in the upper part about the end of economizing coils is used,

and in the lower part, with the beginning of the steam generating coils.

When the feed pump stops, water from the accumulator is supplied to supply the vaporization part of the coils under the pressure of steam formed in the economizer coils.

During normal operation of the boiler, the steam and the basins that collect in the upper part of the battery are transferred from the latter through the spool valve.

In FIG. 1 shows a feeding system for a rotary boiler with a device for preventing burnout of its coils and FIG. 2-vertical section of the spool valve.

To install the device into the nutrient system, the coil of the flow boiler is broken at the point where approximately, according to the thermal calculation of the krtl, the economizer (heating) part 2 of the boiler ends and the boiler itself begins, i.e. the evaporating part 2.

Accurately determining the indicated dividing point between the economiser and the boiler house itself is difficult, but the accuracy is

case and is not required; However, for reliability, the coil should be broken in the place where evaporation is not knowingly starting yet, i.e. where the water temperature at full (calculated) boiler load is 10-20 ° below the boiling point

A closed vessel-water accumulator 15 equipped with water-measuring glass 18 is inserted into the rupture of coils. Water from the economizer part 2 of the coils located above the furnace is introduced into the accumulator 15 from the top and drained from the bottom into the evaporating (boiler) part 2 of the coils.

During normal operation of the feed pump 5, equipped with a supply regulator 4, the accumulator 15 is full of water at a temperature close to boiling; in this case, it is only the broadening of the water (economizer) part of the coils. In the event that the water supply from the tank 10 is stopped by the feed pump 5, the movement of water in the economizer part of the boiler is stopped, and as the gases continue to heat this part of the boiler, evaporation will begin in it. The appearance of steam will occur almost immediately after cessation of power, since at the end of the economizer part the water has a temperature close to boiling; However, in the subsequent minutes, the vaporization will not take on a violent character, but will flow gradually and consistently, since the water temperature in the coils to the extent that the economizer part starts to move away from the boiling temperature.

The vapor generated in the economizer coils has a volume that is many times greater than the volume of water from which it is derived. Consequently, having no access, steam begins to increase the pressure in the coils, as a result of which the water from the accumulator to the evaporating (boiler) part of the coils will be aggravated. In this way, despite the termination of the feed pump, the evaporating part 2 of the coils and the superheater 3, i.e. the boiler parts exposed to the highest temperatures, will continue to be fed uninterruptedly until the supply of water in the accumulator 15 or before starting the backup pump.

Consequently, in terms of reliability, the flow boiler will be placed under conditions similar to those for conventional drum boilers, where also in the event of a pump accident, you can continue to work no more than until the water in the drum is depleted.

After starting the feed pump, the battery is immediately filled with water, as the steam in the battery condenses and the process can be repeated as many times as desired.

The operation of the recirculating boiler with the described battery will be accompanied by one phenomenon: in the upper part of the battery 15, gases (air, carbon dioxide, etc.) gradually released from the water will be accelerated. Also, if there are deviations from the normal mode of the furnace, for example, after burning gases between the coil pipes, steam may appear in the economizer part, which will begin to collect in the upper part of the batteries. The level of water in the glass will begin to fall, although the operation of the feed pump is proceeding normally.

Taking into account this circumstance, the battery through the hole in the lid and the bypass valve must be connected to the evaporating part of 2 coils, where the pressure is lower (due to pressure loss).

If the fireman notices that the level in glass is reduced very slowly or even motionless, he releases the upper part of the accumulator 15 from gases or steam (if not, the condenser itself) through the overflow valve and this fills the accumulator with water to the top.

To automate the described process of bypassing gases and air, there is a spool bypass valve 16, which consists of a float 17 carrying a round spool 22 with openings 20 on the spindle 24. There are also openings 20 in the round mirror 23 of the spool.

Gases and vapors can pass through the cavity 19 and the holes 20 in the mirror and the valve, as indicated by the dotted line (Fig. 2), and exit from the battery 15