SU1209991A2 - Steam boiler - Google Patents

Description

The invention relates to energy, can be used in steam boilers of powerful blocks and is an improvement of the invention according to the author. St. No. 781491.

The aim of the invention is to increase operational reliability by reducing slagging when operating in transient conditions.

The drawing schematically shows a steam boiler.

The steam boiler contains a furnace 1, which is connected to the gas duct with transitional and rotating chambers 2 and 3, respectively. The transition chamber 2 is provided with heat exchange hinges 4, and the rotary chamber 3 is connected to an outlet shaft 5 equipped with convective heating surfaces 6. The steam boiler also has a gas recirculation channel, equipped with an ejector 7, made in the form of confused air and diffuser sections 8 and 9, which suction and pressure ends of which are connected respectively to the turning chamber 3 and the furnace 1. The ejector nozzle 7 is connected to the pressure head the duct 10 of the exhaust fan 11, the suction duct 12 of which is connected to the discharge shaft 5 in the zone located behind the convection heating surfaces 6 along the flue gases. The diffuser section 9 of the recirculation channel is connected to the furnace 1 in its upper part, and in the confusing section 8 there is an ejector nozzle 7. The pressure box iO of the ejector nozzle 7 is equipped with a regulating body 13, for example, a valve installed behind the additional exhauster 11 but the gas flow. The recirculation channel is also provided by the regulatory authority 14, for example, a flap installed in its confused section 8 in front of the ejector nozzle 7 along the gas path. In the transition chamber 2 installed

thermocouples 15 connected to control device 16, which, in turn, is connected to regulatory bodies 13 and 14.

Steam boiler works as follows.

Combustion products successively pass the furnace 1, the transition chamber 2, the turning chamber 3 and the lowering pad 5 and are cooled on the heating surfaces 6 and the screen 4. Due to an increase in the gas velocity, the static pressure in the upper part of the furnace 1 drops and an ejection effect occurs, providing gas leaks from pivoting chamber 3 through a recycle channel. To increase the penetrating power of the recirculated gases and their better movement with flue gases, as well as to regulate the amount of their gases recirculated to the confused area 8, through the nozzle of the ejector 7, additional flue gas m 11 is fed away flue gases taken from convective surfaces 6 heating. The cooled recirculation gases that are sucked into the upper part of the furnace 1 are mixed with the flue gases, reducing their temperature in the area of the screens 4 to a value that prevents slagging of these screens 4. The temperature in the area of the screens 4 is controlled by means of thermocouples 15. During transient conditions, the flow rate of gases is controlled the recirculation is carried out with the help of regulators 13 and 14, the control signals to which are received from thermocouples 15 through the control device 16.

Thus, maintaining the required temperature in the area of the screen 4 in all modes of operation of the steam boiler prevents slagging of these screens 4.

Claims (2)

1. STEAM BOILER by ed. St. No. 781491, characterized in that, in order to increase operational reliability by reducing slag during transient operation, the recirculation channel is made in the form of clamped confuser and diffuser sections, the last of which is connected to the furnace in its upper part, and the nozzle is located in the first ejector, and the pressure box of the latter is equipped with a regulatory body installed behind the additional exhaust fan along the gases. 2. The boiler according to π. 1, characterized in that the recirculation channel is equipped with a regulatory body installed in its confuser area in front of the ejector nozzle along the gases. >