UA69297A - Reactor-utilizer - Google Patents

Abstract

Reactor-utilizer, -like in shape, has frame, evaporation surfaces arranged as vertical zig-zag like screens with natural circulation, steam overheating unit, economizer and air heater, those are placed in the lowering gas duct; drum-separator and pipelines. The evaporation surfaces of heating and steam overheating unit are arranged as sections, each of those includes at least two vertical zig-zag like screens with natural circulation and cooling of the walls and the ceiling arranged as a pipe screen. The pipes of the screens and the enclosure of each section are connected by inlet and outlet collectors.

Description

Description of the invention

The invention relates to the technology of cooling flue gases before gas treatment with heat utilization and can be used in ferrous and non-ferrous metallurgy and other industries.

Known convective water-tube boilers-utilizers of the KU series (Voinov A.P., Kuperman P.I., Suchon S.P. Steam boiler--utilizers on waste gases, K. Higher school, 1983, pp. 24-35)3. The heating surfaces of such boilers-utilizers are made in the form of coiled evaporative, superheater and economizer packages.

Evaporative surfaces work with multiple forced circulation, which is provided by special 70 circulation pumps. The walls and ceiling are lined with fire-resistant materials. The boiler-utilizer includes a metal frame with a drum-separator installed on it, which is connected by pipelines to heating surfaces and circulation pumps.

The disadvantage of such a design is the need for forced circulation, which requires the use of special circulation pumps with electricity consumption and heavy refractory masonry of the walls and ceiling of the boiler-utilizer 72.

The closest to the claimed invention in terms of technical essence and the result that can be obtained when using it is the boiler-utilizer of the PKK series (Voinov A.P., Kuperman P.I., Sushon S.P. Steam boiler-utilizer! on exhaust Gazakh, K.: Higher School, 1983, pp. 70-72). Such a recovery boiler has a U-shaped shape. Evaporative surfaces in the form of vertical zigzag screens with natural circulation and a steam superheater are installed in the rising gas duct of such a boiler, and an economizer and air heater are located in the descending gas duct. The boiler-utilizer includes a frame on which a drum-separator is installed, connected by pipelines to the heating surfaces, and the walls and ceiling are lined with refractory materials.

The disadvantage of this design is the need to use heavy refractory lining, as well as the difficulty of replacing vapor screens during repair work. 29 The basis of the claimed invention is the task of creating an improved boiler-utilizer, which, due to the implementation of evaporative heating surfaces and a steam superheater in the form of sections, each of which includes at least two vertical zigzag screens with natural circulation and wall and ceiling enclosures, made in the form of a tubular screen, the connection of screen pipes and the enclosure of each section with inlet and outlet collectors, makes it possible to facilitate the repair and replacement of evaporative heating surfaces and the superheater. In addition, the use of the declared design of the boiler-utilizer allows you to abandon Ge"! heavy refractory lining of the riser gas duct, which not only increases the heat exchange surface, but also reduces the weight of the boiler and its cost. with

The problem is solved by the fact that in the well-known U-shaped recovery boiler, which consists of a frame, evaporative heating surfaces in the form of vertical zigzag screens with natural 3o circulation, a superheater, an economizer and an air heater located in the downpipe, ee, drum-separator and pipelines, according to the invention, the evaporative heating surfaces and the superheater are made in the form of sections, each of which includes at least two vertical zigzag screens with natural circulation and wall and ceiling enclosures made in the form of a tubular screen, and the pipes of the screens and The enclosures of each section are connected by inlet and outlet collectors. C 70 Due to the protection of the walls and ceiling of the proposed boiler-utilizer, in the form of a tubular screen, it becomes possible to abandon the heavy refractory walling of the riser gas duct, which allows to increase the heat exchange surface, reduce the weight of the boiler and its cost.

Execution of evaporative heating surfaces and superheater in the form of sections, each of which includes at least two vertical zigzag-shaped screens with natural circulation and wall and ceiling protection, 49 made in the form of a tubular screen, connection of the screen pipe and protection of each section with inlet and outlet b collectors makes it easier to repair and replace the evaporative heating surfaces and the superheater, as well as (Te) to abandon the heavy refractory walling of the rising gas duct, which not only increases the heat exchange surface, but also reduces the weight of the boiler and its cost. д In view of the above and taking into account the revealed cause-and-effect relationship between the set of signs

20 of the claimed invention and the technical result obtained with their help, it can be stated that the task set as the basis for the creation of an improved boiler-utilizer has been completely solved, because the use of the invention facilitates the repair and replacement of the evaporative heating surfaces and the superheater . In addition, the use of the declared design of the boiler-utilizer allows you to abandon the heavy refractory walling of the riser gas duct, which not only increases the heat exchange surface, but also reduces the weight of the boiler and its cost. in. The essence of the claimed invention is explained by the drawings, which show: - Fig. 1 - a general view of the boiler-utilizer in section; - Fig. 2 - boiler-utilizer, view from the end of the lifting gas pipe; - Fig. 3 - the evaporative or superheated section, side view; 60 - fig. 4 - evaporative or superheated section, end view (external cladding and insulation are not shown in the drawing); - Fig. 5 - section A-A of Fig. 3; - fig. 6 - section B-B of fig. 3; - Fig. 7 - section B-B of Fig. 3. The U-shaped recovery boiler is mounted on the frame 1. Evaporating sections C and superheater sections 4 are located in the rising gas duct 2. The economizer 6 and the air heater 7 are located in the descending gas duct 5. The separator drum 8 is installed on the frame 1, which is connected circulation pipelines 9 with evaporation sections 3, steam pipeline 10 with steam superheating sections 4 and water pipeline 11 with an economizer 6.

Each evaporative section C or superheated section 4 consists of pipes 12 of convective heating surfaces and pipes 13, which with an outer sheath of steel sheet 14 and insulation 15 form the walls and ceiling of the boiler-utilizer. Pipes 12 form vertical zigzag screens, and each section includes at least two such screens. Pipes 13 form the enclosure of each section. The pipes 12 of the screens and the pipes 13 of the enclosure of each section are connected by the inlet manifold 16 and the outlet manifold 17. The walls of the lifting gas duct 7/0 2, with the exception of the wall closed by the enclosure of each section, are closed by tubular screens 18 with an outer sheath of steel sheet 14 and insulation 15. When making enclosure structures from membrane pipes, the need for sheathing from steel sheet 14 is eliminated. The enclosing structures of the lower gas duct are covered with heat-insulating gas-tight shields 19. The recovery boiler contains an inlet chimney 20, an outlet chimney 21 and a superheated steam pipe 22.

The recovery boiler works as follows.

Flue gases with a temperature of 800-1300"С enter the recovery boiler through the inlet flue 20. Rising in the riser gas flue 2, the flue gases give off heat to the pipes 12 of the evaporating section З and steam superheater sections 4, as well as to the tubular screens 18. Gas tightness of the enclosing structures of the riser gas flue 2 provided by a steel sheet cladding 14, and insulation 15 prevents heat loss. Steam formation in pipes 12 of evaporation sections C and tubular screens 18 ensures natural circulation of water. The steam-water mixture enters through circulation pipelines 9 in the drum-separator 8, the separated steam is overheated in the steam superheating sections 4 and is sent to the consumer through the steam pipe 22. The water that feeds the recovery boiler from the economizer 6 through the water pipe 11 enters the drum-separator 8. In the downpipe, the flue gases give off heat to the economizer 6 and the air heater 7, which heats the air for the technological unit, and, if necessary , for the afterburner of waste gases with a temperature of 100-2507С, through the outlet chimney 21, they are sent (depending on the composition) to the gas treatment or to the smoke pipe. "

When carrying out repair work, the replacement of the evaporative section C or the superheated section 4 is performed by disconnecting the supply pipe of the circulation pipeline 9 from the inlet manifold 16 of the section and the outlet pipe of the circulation pipeline 9 from the outlet manifold 17 of the section, cutting the insulation 15 and sheathing with M

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Claims (1)

The formula of the invention se) "M U-shaped recovery boiler, which includes a frame, evaporative heating surfaces in the form of vertical zigzag screens with natural circulation, a superheater, an economizer and an air heater located in the downcomer, a drum-separator and pipelines, which is distinguished by the fact that the evaporative heating surfaces and the steam superheater are made in the form of sections, each of which includes at least two vertical zigzag screens with natural circulation and wall and ceiling enclosures made in the form of a tubular screen, and the screen pipes and enclosures of each section from connected by input and output collectors. in the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. b5