RU2075008C1 - Steel steam boiler - Google Patents

Abstract

FIELD: heat-power engineering; generation of saturated and superheated steam used for production processes and heat supply. SUBSTANCE: upper drum 1 passes above furnace chamber 3, lower drum 2 is shortened as compared with upper one; end of drum 2 is connected with additional central header 9 located in lower portion of furnace 3. Central header 9 is connected with front headers 10 and rear headers 11 which are connected in their turn with front screen 4 and rear screen 8 which are connected in upper portion with upper drum 1 of boiler. Front screen 4 is single-row; hearth screen 7, lateral vertical screen 5, ceiling screen 6 and rear screen 8 are double-row; they are located on either side of central header 9. Furnace 3 of boiler is symmetrical relative to convective bundle of tubes 12 and drums 1 and 2; tubes 12 of bundle connect upper and lower drums over entire length; tubes 12 are located in staggered order. Hearth screen 7 is connected at the bottom with central header 9 and with ceiling screen 6 through lateral screen 5; screen 6 is connected with upper drum 1 of boiler. Make-up water is fed from lower drum 2 and central header 9 connected with upper drum 1 by means of screen tubes before lower drum 2. Several versions for manufacture of boiler are proposed; each version is characterized by high efficiency, up to 94 percent. EFFECT: enhanced efficiency, low aerodynamic resistance; reduced usage of metal per unit of head delivered. 27 cl, 3 dwg

Description

 The invention relates to the field of power engineering, in particular, to the design of a steam boiler using steam generated by it in technological production and heat supply of industrial and rural facilities.

 A well-known steam boiler of the DKVR type (V. M. Chepel, I. A. Schur. Combustion of gases in the furnaces of boilers and furnaces and maintenance of the gas facilities of enterprises, L. Nedra, 1969, p. 240), which is a vertically water-tube double-drum boiler having a shielded firebox. The boiler consists of two drums located along it, of which the upper one is longer than the lower one, a bundle of boiling (convective) pipes connecting the upper and lower drum, two collectors of the furnace screens and two side screens connecting the collectors with the front of the upper drum. In the rear part, the upper drum is connected to the short lower drum by a bundle of boiler (convective) pipes forming the convective heating surface of the boiler. In the upper drum is a vapor separating and nourishing device. The boiler pipe system consists of screen tubes and a bundle of convective pipes ⌀ 51 mm, two front lowering pipes with a diameter of 127 mm and lower supply pipes for the screen collectors from the lower drum with a diameter of 76 mm. The front lowering pipes connecting the upper drum to the collectors of the screens are located in the lining and are an additional support for the front end of the upper drum. The ends of these pipes are welded to the upper drum and the collectors of the screens. Convective pipes are connected to flare drums. The upper end of the screen tubes is rolled up by the upper drum, and the lower is welded to the screen collectors. One transverse row of convective handle, separated from the remaining rows by a chamotte partition, forms the rear screen of the furnace. The boiler furnace has two side screens, the collectors of which are equipped with end hatches on the front side of the boiler. The screen collectors are supplied with water both from the upper drum through the front lower pipes and from the lower pipe through o 76 mm. The ends of these pipes are connected to the lower drum and the screen chambers by welding.

 The closest technical solution to the proposed device is a DE type steam boiler (E. F. Buznikov, K. F. Roddatis, E. Ya. Berzins. Production and heating boilers ". M. Energoizdat, 1984, p. 24 28), which has two drums located along the entire length of the boiler. The combustion chamber is located on the side of the convective beam formed by corridor-spaced vertical pipes flared in the upper and lower drums. The furnace chamber is separated from the convective beam by a gas-tight partition made of pipes o 51x2.5 mm, delivered 55 mm pitch and welded together. The ends of the pipes are cased to a diameter of 38 mm. At the rear of the partition there is a window for the entry of gases into the convection beam. The partition at the drums at the place of pipe casing is sealed by the installation of cast-iron combs adjacent to the pipes and drum. o 51x2.5 mm of the right side screen, covering also under and the ceiling of the combustion chamber, installed in increments of 55 mm and inserted directly into the upper and lower drums and connected to them by rolling. Rear screen pipes o 51x2.5 mm do not have casing ends and are welded to the upper and lower manifolds o 159x6 mm connected by an unheated recirculation pipe o 76x3.5 mm. Collectors are welded to the upper and lower drums. The front (front) screen of the boiler has a similar design and differs from the rear only in the absence of a part of the pipes, which allows you to place a burner embrasure and an explosion valve on the front (front) wall. The boiler has longitudinal baffles in convective beams, which ensures a turn of the gases in the beam and the exit of gases through the rear wall of the boiler.

 The disadvantages of the well-known DE type boiler are its low efficiency due to the asymmetry of the combustion chamber and the corridor arrangement of the pipes in the convection beam, the high metal consumption due to the presence of two drums of the same length and, as a result, the large boiler water capacity, the complexity of the repair due to casing pipes and the high aerodynamic resistance of the boiler for due to the installation of gas guide (s) partitions (partitions).

 The purpose of the invention is to increase the efficiency of the boiler by increasing heat removal in the furnace chamber of the boiler and its convective part while reducing the metal consumption of the boiler and the volume of boiler water, reducing the aerodynamic resistance of the boiler.

 The goal is achieved in that the steel steam boiler with a central additional manifold in the combustion chamber (hereinafter the central collector) contains a shielded combustion chamber symmetrical to the convective bundle of pipes and drums that are located along the longitudinal axis of the boiler, one of which is lower, is shortened compared to the upper the drum and the bottom is connected to the central collector, which passes below through the entire firebox. Front and rear lower collectors connected to the front and rear double screens are connected to the central collector on both sides, while the bottom screens are connected to the central collector and the vertical side screens from the bottom, and the latter are connected to the ceiling screens, which in turn are connected to the upper drum the boiler, and the hearth, side and ceiling screens are double-row and lie on both sides of the central manifold, and convective pipes connected to the upper and lower drums are placed in a checkerboard m, like the pipes of the rear, bottom, side and ceiling screens, and in front of the lower drum there are screen pipes connecting the central collector and the upper drum of the boiler, and the central collector, front and rear lower collectors, the lower drum and part of the upper drum are heated elements of the boiler .

 In the above-described variant of the steam boiler, the diameter of the part of the upper drum located above the furnace can be reduced relative to the part of this drum located in the convective part of the boiler.

 The upper drum of the boiler may have collectors for the front and / or rear screens, which are installed perpendicular to the upper drum or inclined to it in any plane.

 The front furnace screen can be made with a lower vertical collector directed upward to the drum and connected at the beginning of the furnace to the central collector, and on both sides of the lower vertical collector are connected screen pipes to form a place for installing the burner device above the vertical lower collector, with screen pipes at the top connected to the upper drum, forming a front furnace screen.

 The inner row of pipes of the rear screen can be omitted from the first row of the convective bundle of the upper drum of the boiler.

 The boiler can have two front collectors from the upper drum and two front collectors from the central collector, to which pipes of the front combustion screen are connected.

 The boiler may also optionally have a riser.

 The arrangement of the vertical pipes in the convective handle of the boiler can be performed by the corridor. In the convective bundle of the boiler, gas guide baffles can be installed or can be installed.

 the end face of the lower drum of the boiler emerging into the furnace can be shielded by pipes connecting the end of the lower drum to the upper drum.

 The second row of side and front screen tubes of the boiler furnace can be made in the form of welded panels with spacers connected between the pipes. A superheater can be mounted in the boiler.

 The boiler may also have two central manifolds in the furnace connected to the lower drum. The central collector of the boiler can be connected to the lower drum by a pipe system.

 The boiler may have two rear collectors connected to the upper drum and two rear collectors connected to the central collector to form a rear screen, and the collectors can be mounted perpendicular to the drum and the central collector or inclined in any plane relative to the upper drum and the central collector.

 The front screen tubes connecting the two front collectors and the upper drum of the boiler can be installed perpendicular to them and are located in the same plane.

 The central collector of the boiler may have front and rear headers mounted perpendicularly or inclined relative to it in any plane.

 Pipes connecting the central collector of the boiler with the upper drum can be arranged in two rows.

 The extreme side pipes of the convection part of the boiler are installed and made in the form of welded panels with metal spacers connected between the pipes.

 The diameter of the upper drum of the boiler above the furnace can be reduced relative to its diameter in the convective part, while the upper drum is connected at the beginning of the furnace to the upper vertical collector, directed downward to the central furnace collector, and the lower vertical return manifold is withdrawn from the bottom of the furnace at the beginning of the furnace, directed upward to the collector, directed downward, and between the vertical collectors a burner device is installed, while on both sides the upper and lower collectors are connected pipes forming the front combustion screen.

 Two burner devices can be placed on the front (frontal) part of the boiler, the front screen pipes are divorced to form two windows for the burner devices, and a double-screen screen of vertical pipes connecting the central collector along the entire length of the furnace with the upper drum is located in the center of the furnace.

 The upper front and rear headers connected to the upper drum of the boiler and the lower front and rear headers connected to the central collector can be made with different diameters.

 Steel steam boiler according to the second independent option, characterized in that the rear screen is single-row.

 According to the third independent steel boiler, it differs in that the first row of convective beam tubes is the rear screen of the combustion chamber.

 Steel steam boiler according to the fourth independent option, characterized in that the hearth, side, ceiling, rear screens consist of one row of pipes.

 The steel steam boiler according to the fifth independent variant is characterized in that the rear screen is single-row and consists of pipes lowered from the upper drum into the rear collectors of the central collector from the first row of the convective beam.

 According to the sixth independent variant, the steel steam boiler contains a shielded firebox with a hearth, vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear headers, and pipes the bottom side of the side screen are connected to the bottom screen tubes and the lower drum of the boiler, and the top side side pipes are in turn connected to the ceiling screen pipes connected to the top drum the boiler, the front screen pipes are connected to the lower front collector, and the rear screen pipes are connected to the lower rear collectors, characterized in that the boiler furnace is symmetric to the convective bundle of pipes and drums, of which the lower drum is shortened compared to the upper drum and connected to an additional central collector located at the bottom of the furnace and connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum, and the hearth, side, sweat the fuel burner screens are double-row and are located on both sides of the central collector, and the convective beam pipes are staggered, with screen pipes installed in front of the lower drum connecting the central collector to the upper drum, the central collector being extended to a vertical position and connected on both sides the front screen with the upper drum, with the rear screen is the first row of convection pipes, and the feed pipes are introduced into the lower drum and the central furnace collector op.

 In FIG. 1 shows a part of the front screen, the hearth, side, and ceiling screens of the firebox, as well as the pipes connecting the upper drum to the central manifold in front of the lower drum; in FIG. 2 side view of the boiler; in FIG. 3 one of the options for the front screen.

 The steel steam boiler contains two drums located along the longitudinal axis of the boiler, the upper drum 1 is extended to the entire length of the boiler, the lower drum 2 is shortened, located vertically below the upper drum 1. The boiler has a combustion chamber 3 with a front single row 4, vertical side 5, ceiling 6, hearth 7, rear 8 double-row screens. The central manifold 9 is connected to the end of the lower drum and is located in the lower part of the combustion chamber 3 of the boiler. Collectors front 10 (two) and rear 11 (two) are connected to the central collector 9 on both sides in its front and rear parts.

 The central manifold 9 in front of the lower drum 2 has vertical pipes connecting the upper drum with it. (In Fig. Not indicated), and the front 4, side 5, ceiling 6, hearth 7 and rear 8 screens are located on both sides of the central manifold. The convective part of the boiler consists of a convective bundle of vertical pipes 12 placed in a checkerboard pattern and connecting the upper drum 1 with the lower drum 2 along its entire length. The pipes of the front 4 and rear 8 screens from the bottom are connected to the front 10 and rear 11 headers, and at the top to the top drum 1 of the boiler. The feed water is introduced into the boiler by two perforated pipes 13 passing through the lower drum and the central manifold.

 Steel steam boiler operates as follows.

 Feed water is introduced into the boiler into the lower drum 2 and the central manifold 9 with two perforated pipes 13. Water boiling and vaporization takes place in all screen tubes 4, 5, 6, 7, 8 and the pipes connecting the central collector 9 to the upper drum 1 of the boiler ( in Fig. is not indicated), as well as in the convection beam 12 of the boiler. Steam is taken from the boiler from the upper drum 1 through a separation device (not shown in FIG.). The boiler water is sampled for continuous purging from the upper drum 1 of the boiler, and the periodic purging of the boiler is organized from the lower drum 2 of the central manifold 9 and the collectors 10 connected to it 11. The products of fuel combustion from the furnace 3 pass to the convection part 12 of the boiler, where, in a straight line, come to the economizer.

Claims (27)

 1. A steel steam boiler containing a shielded firebox with a hearth, side vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear headers, and side pipes the bottom of the screen are connected to the pipes of the bottom screen and the lower drum of the boiler, and the top of the side screen pipes are in turn connected to the pipes of the ceiling screen connected to the upper drum of the boiler to the lower front front screen pipes are connected to the lecturers, and rear screen pipes are connected to the lower rear collectors, characterized in that the boiler furnace is symmetrical to the convective bundle of pipes and drums, of which the lower drum is shortened compared to the upper drum, the lower drum is shortened compared to the upper drum and connected with an additional central collector located at the bottom of the furnace and connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum , the central collector is connected to the lower front and rear headers, forming the front and rear furnace screens connected to the upper drum of the boiler, and the hearth, side, ceiling and rear furnace screens are double-row and are located on both sides of the central collector, and the convection beam tubes are placed in in a checkerboard pattern, with front screen tubes installed in front of the lower drum connecting the central manifold with the upper drum, and the feed pipes introduced into the lower drum and the central furnace th collector.  2. The boiler according to claim 1, characterized in that the diameter of the part of the upper drum located above the firebox is reduced relative to the part of this drum located in the convective part of the boiler.  3. The boiler according to paragraphs. 1 and 3, characterized in that the upper drum has collectors for the front and / or rear screens, which are mounted perpendicular to the upper drum or inclined to it in any plane.  4. The boiler according to paragraphs. 1 to 3, characterized in that the front furnace screen is made with a lower vertical manifold directed upward to the drum and connected at the beginning of the furnace to the central manifold, and screen tubes are connected on both sides of the lower vertical collector to form a place for installing the burner device above the vertical lower collector moreover, the upper screen tubes are connected to the upper drum, forming a front furnace screen.  5. The boiler according to paragraphs 1 to 4, characterized in that the inner row of tubes of the rear screen is omitted from the first row of the convective beam of the upper drum.  6. The boiler according to paragraphs 1 to 5, characterized in that it has two front collectors from the upper drum and two front collectors from the central collector, to which are connected the pipes of the front combustion screen.  7. The boiler according to paragraphs 1 to 6, characterized in that it has an additional lowering pipe.  8. The boiler according to paragraphs. 1 7, characterized in that the location of the vertical pipes in the convection beam is made corridor.  9. The boiler according to paragraphs 1 to 8, characterized in that in the convective beam installed or installed gas guide walls.  10. The boiler according to paragraphs. 1 to 9, characterized in that the end of the lower drum extending into the furnace is shielded by pipes connecting the end of the lower drum to the upper drum.  11. The boiler according to paragraphs 1 to 10, characterized in that the second row of side and front screen tubes of the furnace is made in the form of welded panels with spacers connected between the pipes.  12. The boiler according to paragraphs 1 11, characterized in that a superheater is mounted in it.  13. The boiler according to paragraphs 1 to 12, characterized in that it has two central collectors in the furnace connected to the lower drum.  14. The boiler according to paragraphs 1 to 13, characterized in that the central manifold is connected to the lower drum by a pipe system.  15. The boiler according to paragraphs 1 to 14, characterized in that it has two rear collectors connected to the upper drum, and two rear collectors connected to the central manifold, for the formation of the rear screen, and the collectors are installed perpendicular to the drum and the central manifold or obliquely in any plane relative to the upper drum and central collector.  16. The boiler according to paragraphs 1 to 15, characterized in that the front screen tubes connecting the two front collectors and the upper drum are installed perpendicular to them and are located in the same plane.  17. The boiler according to paragraphs 1 16, characterized in that the central manifold has front and rear manifolds mounted perpendicularly or inclined relative to it in any plane.  18. The boiler according to paragraphs 1 17, characterized in that on its front part there are two burner devices, the front screen pipes are installed with the formation of two windows for the burners, and in the center of the furnace there is a double-screen of vertical pipes connecting the central manifold along the entire length of the furnace with the upper drum.  19. The boiler according to paragraphs 1 18, characterized in that the vertical pipes connecting the central manifold to the upper drum are arranged in two rows.  20. The boiler according to paragraphs 1 to 19, characterized in that the extreme side pipes of its convective part are made in the form of welded panels with metal spacers connected between the pipes.  21. The boiler according to paragraphs 1 20, characterized in that the diameter of the upper drum above the furnace is reduced relative to its diameter in the convective part of the boiler, while the upper drum is connected at the beginning of the furnace with the upper vertical collector, directed downward to the central furnace collector, and removed from the bottom of the furnace at the beginning of the furnace lower vertical counter-collector directed upward to the collector, directed downward, and a burner device is installed between the vertical collectors, with upper and lower collectors on both sides oedineny waterwall tubes forming the furnace front screen.  22. The boiler according to paragraphs 1 to 21, characterized in that the upper front and rear headers connected to the upper drum, and the lower front and rear headers connected to the central collector, are made with different diameters.  23. A steel steam boiler containing a shielded firebox with a hearth, side vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear headers, and side pipes the bottom of the screen are connected to the pipes of the bottom screen and the lower drum of the boiler, and on top of the side screen pipes are connected in turn with the pipes of the ceiling screen connected to the upper drum of the boiler to the lower front front screen pipes are connected to the lecturers, and rear screen pipes are connected to the lower rear collectors, characterized in that the boiler furnace is symmetrical to the convective bundle of pipes and drums, of which the lower drum is shortened compared to the upper drum and connected to an additional central collector located at the bottom of the furnace connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum, the central collector is connected to the lower front and the rear headers, forming the front and rear furnace screens, connected to the upper drum of the boiler, the rear screen being single-row, and the hearth, side, and ceiling furnace screens being double-row and located on both sides of the central collector, and the convective beam pipes are staggered In this case, screen tubes are installed in front of the lower drum connecting the central manifold with the upper drum, and the feed pipes are introduced into the lower drum and the central combustion manifold.  24. A steel steam boiler containing a shielded firebox with a hearth, side vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear manifolds, and side pipes the bottom of the screen are connected to the pipes of the hearth screen and the lower drum of the boiler, the top of the side screen pipes are in turn connected to the pipes of the ceiling screen connected to the upper drum of the boiler, and to the lower front lecturers are connected to the front screen tubes, characterized in that the boiler furnace is symmetrical to the convective tube bundle and drums, of which the lower drum is shortened compared to the upper drum and connected to an additional central collector located at the bottom of the furnace and connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum of the boiler, and the hearth, side, and ceiling furnace screens are double-row and are located on both sides of the central of the collector, and the back row of the combustion chamber is the first row of convective beam pipes, while the convective beam pipes are staggered, screen pipes are installed in front of the lower drum connecting the central manifold with the upper drum, and the feed pipes are introduced into the lower drum and the central combustion manifold .  25. Steel steam boiler containing a shielded firebox with a hearth, vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear manifolds, and side pipes the bottom of the screen are connected to the pipes of the bottom screen and the lower drum of the boiler, and on top of the side screen pipes are connected in turn with the pipes of the ceiling screen connected to the upper drum of the boiler to the lower front front screen pipes are connected to the lecturers, and rear screen pipes are connected to the lower rear collectors, characterized in that the boiler furnace is symmetrical to the convective bundle of pipes and drums, of which the lower drum is shortened compared to the upper drum and connected to an additional central collector located at the bottom of the furnace connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum, the central collector is connected to the lower front and the bottom collectors forming the front and rear furnace screens connected to the upper drum of the boiler, the hearth, side, ceiling, front and rear furnace screens being single-row and located on both sides of the central collector, and the convective beam pipes are staggered, with the lower drum has screen tubes connecting the central manifold to the upper drum, and the feed pipes are introduced into the lower drum and the central combustion manifold.  26. A steel steam boiler containing a shielded firebox with a hearth, side vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear headers, and side pipes the bottom of the screen are connected to the pipes of the bottom screen and the lower drum of the boiler, and on top of the side screen pipes are connected in turn with the pipes of the ceiling screen connected to the upper drum of the boiler to the lower front front screen pipes are connected to the lecturers, and rear screen pipes are connected to the lower rear collectors, characterized in that the boiler furnace is symmetrical to the convective bundle of pipes and drums, of which the lower drum is shortened compared to the upper drum and connected to an additional central collector located at the bottom of the furnace connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum, the central collector is connected to the lower front and the bottom collectors forming the front and rear furnace screens connected to the upper drum of the boiler, the hearth, side, and ceiling furnace screens are double-row and the rear screen is single-row and consists of pipes of the first row of the convective bundle connected to the lower rear collector, and the screens are located along both sides of the central manifold, and the convective beam tubes are staggered, with screen tubes in front of the lower drum connecting the central collector to the upper drum, and the feed pipes are introduced into the lower drum and the central combustion manifold.  27. A steel steam boiler containing a shielded firebox with a hearth, side vertical, ceiling, rear and front furnace screens, lower and upper drums connected by a convective bundle of pipes and located along the longitudinal axis of the boiler, lower front and rear manifolds, and side pipes the bottom of the screen are connected to the pipes of the hearth screen and the lower drum of the boiler, and the top of the side screen pipe is connected in turn to the pipes of the ceiling screen connected to the upper drum of the boiler, characterized in that pipes of the front screen are connected to the upper drum, coming out of a vertical collector, first connected to the furnace with an additional central collector, located at the bottom of the furnace and connected in turn with a hearth, side vertical and ceiling screens, of which the ceiling screen is connected to the upper drum, and the hearth, side, ceiling screens are double-row and are located on both sides of the central manifold connected to the lower drum of the boiler, the first row is convectively the rear screen about the beam, which pipes are arranged in a staggered pattern, wherein the front of the lower drum mounted screen pipe connecting the central manifold to the upper drum and nutrient pipes introduced into the lower drum and a central heating reservoir.

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