RU1817516C - Boiler furnace - Google Patents

Abstract

FIELD: fuel combustion. SUBSTANCE: fuel is fed to combustion chamber 1 wherein small particles burn out in torch and large ones, on grate 6. Combustible loss together with products of combustion goes to afterburner 2 through upper bypass opening and moves over curvilinear path towards outlet windows 9; they are separated on bottom 7 and are returned through lower opening 17 to combustion chamber 1 by secondary air and burn out there. EFFECT: improved economic efficiency due to combustible loss burning. 3 dwg

Description

 The invention relates to the combustion of fuel and can be used in thermal power plants.

 The aim of the invention is to increase efficiency by reducing burnout.

 In FIG. 1 shows a boiler furnace, a longitudinal section; in FIG. 2, section AA in FIG. 1; in FIG. 3 section BB in FIG. 1.

 The boiler furnace contains a combustion chamber 1 and an afterburner 2, separated by a common vertical partition made in the form of a pair of double-screen screens 3 and 4, located relative to each other at an obtuse angle directed by the apex towards the afterburner 2. The combustion chamber 1 is equipped with a fuel supply device 5 and an air distribution grill 6 located below the inclined hearth 7 and connected to the duct 8. The afterburner 2 is provided with a main and additional exit windows 9 located on two opposite side walls 10 and 11, and secondary blast nozzles 12 . The walls of chambers 1 and 2 and their common vault 13 and under 7 are shielded. The windows 9 are interconnected by gas ducts 14, 15. Double-screen screens 3 and 4 with a vault 13 and a hearth 7 form the upper bypass opening 16 and the lower bypass opening 17. The upper bypass opening 16 is made of a triangular shape with the top pointing down. Nozzles 12 are connected to the duct 18 and directed into the lower bypass opening 17.

 The boiler furnace works as follows.

 Through the input device 5, fuel is supplied to the combustion chamber 1, and air is supplied through the air ducts 8 and 18 through the air distribution grill 6 and the nozzle 12. Large pieces of fuel fall on the grill 6, where they partially burn, and the remaining pieces burn in a torch. They are picked up by gases and through the upper opening 16 from the combustion chamber 1 fall into the afterburning chamber 2, where they continue to move along with the gases down a curved path.

 Due to the rotation of the flow in the area of the vault 13, the concentration of particles occurs near the rear wall of the chamber 2. At the second rotation of the flow in the hearth zone 7, the particles are separated into the under 7 and roll through it through the lower opening 17 into the combustion chamber 1. Gases are removed through windows 9 and chambers 2, and then through the flues 14 and 15 enter the convection part of the boiler. Focal residues are removed with the air distribution grid 6 into the ash removal system. Most of the heat is transferred to water to generate steam, water and steam circulate in the pipe system, including double-light screens 3 and 4.

Claims (1)

 A BOILER BOILER containing combustion and afterburning chambers, separated by a common vertical partition, forming upper and lower bypass openings with a common chamber and hearth of chambers, the combustion chamber provided with a fuel input device and an air distribution grill located below its hearth, and the afterburner is made with an exit window and nozzles of secondary air, characterized in that, in order to increase efficiency by reducing underburning, the exit window of the afterburner is made in one of its side walls, and in the opposite an additional exit window is made on the side wall, the partition is made in the form of double-screened screens located relative to each other at an obtuse angle directed by the apex towards the afterburner, and with the formation of the upper sections of a triangular shape of the upper opening.