SU909406A1 - Boiler - Google Patents

Description

The invention relates to steam boilers with natural and forced circulation, designed to burn solid, liquid and gaseous fuels.

A boiler is known that contains a vertical ring fire chamber formed by coaxially placed equilateral prisms with screen heating surfaces installed in the lower part of the outer prism of the fire chamber by tangential burners and uniformly arranged around the perimeter of its inner prism by recirculating gas nozzles, as well as convective flues symmetrically connected to the fire chamber through its outer prism flj.

The disadvantages of the device are increased aerodynamic drag, inefficient use of heating surfaces and increased temperature unevenness of the flow of flue gases in front of them.

The purpose of the invention is to increase the reliability of the boiler

The goal is achieved in that the convective flues connected tangentially, with one of the lateral walls of each O ^s gas flue is a continuation of the outer faces of the prism furnace.

In addition, the screen heating surfaces are placed evenly and tangentially to the angular circle with a diameter of 0.75 “0.3 of the diameter of the circle inscribed in the outer prism of the furnace.

The recirculation gas supply nozzles of the ^15th gas are mounted radially.

The drawing shows a boiler.

The boiler contains a vertical ring firebox ²⁰ 3 formed by coaxially placed equilateral prisms 1 and 2 with screen heating surfaces 4 installed in the lower part of the outer prism 1 of the firebox 3 by tangential burners 5 and evenly distributed 909406 nozzles 6 of recirculating gases along the perimeter of its inner prism 2, as well as convective flues 7, symmetrically connected to the furnace 3 through its outer prism 1. ₅

Convective flues are connected tangentially to the furnace 3, moreover, one of the side walls of each gas duct 7 is a continuation of the face of the outer prism 1 of the furnace 3. into the outer prism of 1 firebox

3. The nozzles 6 of the recirculating gases are mounted radially.

When the boiler through the fuel-air mixture tangentially raspolozhen- _m nye burner 5 enters 8 annular furnace 3, where the vortex is combusted in the flare, and the flue gases are discharged _on che Res bulkhead heating surface 4 serving as the guides in the convective flues 7 · to reduce the temperature flue gases and leveling the temperature field through the nozzle 6 are fed recirculation gases.

The use of the boiler will reduce the aerodynamic drag of the gas path, increase the reliability of operation,

Claims (2)

one This invention relates to steam boilers with natural and forced circulation, intended for burning solid, liquid and gaseous fuels. A boiler is known that contains a vertical annular furnace formed with coaxially-spaced equilateral prisms with heated heating surfaces, tangential burners installed in the lower part of the outer prism of the firebox and uniformly placed around its perimeter of the inner prism of recirculating gas nozzles, as well as convective gas ducts symmetrically connected to the furnace through it outer prism flj. The drawbacks of the device are increased aerodynamic resistance, inefficient use of heating surfaces and increased temperature irregularity of the flow of flue gases in front of them. The purpose of the invention is to increase the reliability of the boiler, The goal is achieved by the fact that convective gas ducts are connected tangentially, one of the side walls of each gas duct being a continuation of the edge of the outer prism of the firebox. In addition, the screen heating surfaces are evenly spaced and tangent to an angular circle with a diameter of 0,, 8 of the diameter of the circle inscribed in the outer prism of the firebox. The nozzles for feeding recirculated gas lines are installed radially. The drawing shows the boiler. The boiler contains a vertical annular furnace formed by coaxially placed equilateral prisms 1 and 2 20 3 with screen heating surfaces k installed in the lower part of the outer prism 1 of the furnace 3 with tangential burners 5 and 39 uniformly placed around the perimeter of its inner prism 2 by nozzles 6 of recirculated gases, as well as convective gas ducts 7 symmetrically connected to the furnace 3 through its outer prism 1. Convective gas ducts are connected tangentially to the furnace 3, with one of the side walls of each gas duct 7 being a continuation of the face of the external prism 1 of the furnace 3- The heating heating surfaces k are evenly spaced and tangentially inclined to the conditional circle with a diameter of 0, .8 from the diameter of the circle inscribed in the outer prism 1 of the firebox 3. The nozzles 6 of the recirculated gases are installed radially. When the boiler operates, the air-fuel mixture through tangentially located burners 5 enters the annular furnace 3, where it burns in a vortex flare, and the flue gases are discharged through the heating surfaces k, which play the role of guides, to convective flue gas ducts 7- To reduce the temperature of the flue gases and leveling the temperature field through the nozzles 6 is fed recirculation gases. The use of the boiler will reduce. sew the azo-dynamic resistance of the gas path, improve the reliability of work. NOIs in the outer prism of the firebox. 3. The boiler according to claim. Characterized in that the nozzles for the supply of recirculating gases are installed radially. Sources of information taken into account in the examination 1. USSR author's certificate No. 658358, cl. F 22 V 3VOO,. 6 Claims 1. A boiler containing a vertical annular furnace formed with coaxially placed equilateral prisms with heated heating surfaces, tangential burners installed in the lower part of the outer prism of the firebox and evenly placed around the perimeter of its inner prism recirculating gas nozzles, as well as convective gas ducts , symmetrically connected to the furnace through its loading prism, characterized in that, in order to increase reliability, convective gas ducts are connected tangentially, than one of the sidewalls of each duct is a continuation of the outer faces of the prism furnace. 2. The boiler according to Claim 1, characterized in that the heating surfaces are evenly spaced and tangential to a conventional circle with a diameter of 0.75 0.8 from the diameter of the circle — inscribed