US703362A - Steam-boiler. - Google Patents
Steam-boiler. Download PDFInfo
- Publication number
- US703362A US703362A US7460001A US1901074600A US703362A US 703362 A US703362 A US 703362A US 7460001 A US7460001 A US 7460001A US 1901074600 A US1901074600 A US 1901074600A US 703362 A US703362 A US 703362A
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- US
- United States
- Prior art keywords
- tubes
- steam
- boiler
- collector
- water
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22G—SUPERHEATING OF STEAM
- F22G7/00—Steam superheaters characterised by location, arrangement, or disposition
- F22G7/14—Steam superheaters characterised by location, arrangement, or disposition in water-tube boilers, e.g. between banks of water tubes
Definitions
- the present invention relates to improvements in steam-generators with superheaters especially applicable to marine boilers and the like, but also suitable for other purposes, the improved apparatus being adapted for use either with solid or with liquid fuel.
- the new boiler is of the multitubular type and has a relatively large heating-surface.
- the water circulation is a very easy and effective one and the steam produced is dry and superheated.
- the parts of the boiler which do not contain water are beyond the reach of the hot gases, as also are the parts which receive the sludge, lime, rbc., and the expansion of the tubes will accordingly take place evenly.
- Figure 1 shows a cross-section of a steam-boiler especially adapted for use with liquid fuel.
- Fig. 2 is a cross-section of a boiler to be fed with solid fuel.
- Fig. 3 is a longitudinal section on the line 3 3 of Fig. 1.
- the several elements of the steam-generator are arranged within an outer casing 1, and consist on either side of a series of similar elements symmetrically arranged.
- Each element consists of a tube 2 of convenient diameter, which is vertically arranged or slightly inclined and communicates at the ends with two steam-collectors 3 and 4, connected by tubes 5 5, which are suitably bent toward the ends.
- a steam-superheater consisting of a cylinder 6, horizontallyl arranged and communicating with each of the upper collectors 8 by means of a tube 7.
- tubes S On the under side of the superheater 6 there is aseries of tubes S, which are open only at their upper ends and contain concentric tubes 9 of small diameter, which communicate at their upper ends with a cylindrical drum 10, arranged concentrically within the outer cylinder G. This drum is open on its upper side to permit the STEAM-BOILER.
- each collector 3 there is a tube .13, communicating, at the upper end with the tube 7.
- the lower end of the tube is arranged belowthe orifice of the lower of the tubes 5 andis serrated at its lower end.
- the chimney 14 is arranged centrallyiabove the superheater.
- the collector 4 For use with liquid fuel the collector 4 is connected, as represented in Fig. 1,' with a second collectoril, ⁇ which is arranged below the center of the apparatus'and which receives the feed-water.
- the collector 15 communicates at one of its ends with a tube V16 and a reservoir 17, which 'is in communication with the drum 10.
- the collector 15 is attached to a tube 18, not communicating with it, but connected with the back partof the steam-collector 6, containing the steampipe 19'.
- Orifices 20 20 are provided at one end of the generator for the introduction of the heating apparatus or burnersV for heavy oil, naphtha residue7 or the like'.
- the collector 15 For emptying the generator thereis provided atfone end of-l the collector 15 an orifice ⁇ 21, normally closed by a screwed ⁇ plug or anyiother convenient'cover.
- an orifice ⁇ 21 normally closed by a screwed ⁇ plug or anyiother convenient'cover.
- two feedingcollectors 15 may be provided, one on each side of the fire-box, separated from the furnace by partitions 22 of refractory material and of convenient height.
- the reservoir 17 communicates in this case with the collectors 15 by means of a double-branched tube 16.
- the operations of the apparatus take place as follows:
- the hot gases come into contact in the rst place with the tubes 55, then with the tubes 2 and finally in rising they heat the tubes 8 and the cylinder 6 and discharge direct into the chimney '14.
- the chimney may be arranged in the lower part of the generator.
- plates 23 23 may be provided on the exterior side of the tubes 2, preventing the direct influence of the Aheat on the outer casing of the apparatus.
- the circulation of the water contained in the tubes is a very eective one, the water having an ascending movement within the tubes 5 and descending within the tubes 2.
- the steam produced passes from the tubes 5 into the collectors 3 and from the collectors 3 through the tubes 7 into the cylinder 6, whereupon it is forced to descend through the pipes 8, in contact with which it becomes dry and superheated. From the tubes 8 the steam passes up through the tubes 9 and through the drum 10 and the orifice 19 to the engine.
- a protective cover 24, of refractory material may be provided. If the steam produced in the tubes 5 should take any water into suspension, it will lose it in passing along the tubes 13. The water particles will be retained by the grooved edges on the under side of the tubes, which form obstructions, and will fallback into the tubes 2. If it should occur, however, that some particles of water are still held in suspension, they will be vaporized during the passage through the tubes 8. It is obvious that the steam escapes from the generator not only dried, but also sufficiently superheated.
- the sludge will collect in the collector (or collectors) 15, which is preserved from the direct action of the heat.
- the parts subject to the infiuence of the heat will not be filled with sludge, and accidents which would result therefrom will thus be avoided.
- the extraction of the sludge and of the water may be easily effected from the lower part of the collector 15.
- the tubes 16 and 18 and the reservoir 17 could be dispensed with; but they facilitate very much the fitting up and removal of the tubes depending from the reservoir, tubes conceutrically located within the said vertical tubes and depending from the inner drum, and a layer of refractory material protecting the parts of the superheater directly subject to the action of the heat, the parts being arranged and combined subtantially as and for the purposes described.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Control Of Steam Boilers And Waste-Gas Boilers (AREA)
Description
Patented July I, |902.
C. P. ALTMANN.
STEAM BOILER.
(Application led Sept. 7, 1901.)
(llo Model.)
2 ShQets-Sheet I.
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No. `763,362. Patented July I, `|902.
c. P. ALTMANN.
STEAM BiLEB.
l (Application led Sept. 7, 1901.) (lo Nudel.) 2 Sheets-Shut 2.
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To @ZZ whom, it 'may concern."
` MANN, a citizen of the Republic of France, and
UNiTnD STATns `PATENT OFFICE- CHARLES PHILIPPE ALTMANN, OF LYONS-VAISE, FRANCE.
SPECIFICATION forming part of Letters Application filed September 7, 1901 Beit known that I, CHARLES PHILIPPE ALT- a resident of Rue des Tuileries, No. 11, Lyons- Vaise, France, have invented certain new and useful Improvements in orRelating to Steam- Boilers, of whicnithe following is a speciiication. i
. The present invention relates to improvements in steam-generators with superheaters especially applicable to marine boilers and the like, butalso suitable for other purposes, the improved apparatus being adapted for use either with solid or with liquid fuel.
The new boiler is of the multitubular type and has a relatively large heating-surface. The water circulation is a very easy and effective one and the steam produced is dry and superheated. The parts of the boiler which do not contain water are beyond the reach of the hot gases, as also are the parts which receive the sludge, lime, rbc., and the expansion of the tubes will accordingly take place evenly.
In the accompanying' drawings, Figure 1 shows a cross-section of a steam-boiler especially adapted for use with liquid fuel. Fig. 2 is a cross-section of a boiler to be fed with solid fuel. Fig. 3 is a longitudinal section on the line 3 3 of Fig. 1.
The several elements of the steam-generator are arranged within an outer casing 1, and consist on either side of a series of similar elements symmetrically arranged. Each element consists of a tube 2 of convenient diameter, which is vertically arranged or slightly inclined and communicates at the ends with two steam-collectors 3 and 4, connected by tubes 5 5, which are suitably bent toward the ends.
On the upper part of the steam-generator there is a steam-superheater consisting of a cylinder 6, horizontallyl arranged and communicating with each of the upper collectors 8 by means of a tube 7. On the under side of the superheater 6 there is aseries of tubes S, which are open only at their upper ends and contain concentric tubes 9 of small diameter, which communicate at their upper ends with a cylindrical drum 10, arranged concentrically within the outer cylinder G. This drum is open on its upper side to permit the STEAM-BOILER.
Patent NO. 703,362, dated July 1, 1902.
. Serial No. 74,600. (No model.)
introduction of the tubes 9 into the tubes 8. After the introduction of the tubes 9 the drum may be closed by a plate 11. A hei'- metical connection between plate 11 and the drum is not absolutely necessary. On the upper side of the'cylinder 6 there are screwthreaded plugs facilitating the replacing of the-tubes 9. In the center ofv each collector 3 there is a tube .13, communicating, at the upper end with the tube 7. The lower end of the tube is arranged belowthe orifice of the lower of the tubes 5 andis serrated at its lower end. `The chimney 14 is arranged centrallyiabove the superheater.
For use with liquid fuel the collector 4 is connected, as represented in Fig. 1,' with a second collectoril, `which is arranged below the center of the apparatus'and which receives the feed-water. The collector 15 communicates at one of its ends with a tube V16 and a reservoir 17, which 'is in communication with the drum 10. At the other end the collector 15 is attached to a tube 18, not communicating with it, but connected with the back partof the steam-collector 6, containing the steampipe 19'. Orifices 20 20 are provided at one end of the generator for the introduction of the heating apparatus or burnersV for heavy oil, naphtha residue7 or the like'. For emptying the generator thereis provided atfone end of-l the collector 15 an orifice `21, normally closed by a screwed `plug or anyiother convenient'cover. In the casewhen solid fuel, such as coal or the like, is used, two feedingcollectors 15 may be provided, one on each side of the fire-box, separated from the furnace by partitions 22 of refractory material and of convenient height. The reservoir 17 communicates in this case with the collectors 15 by means of a double-branched tube 16.
The operations of the apparatus take place as follows: The hot gases come into contact in the rst place with the tubes 55, then with the tubes 2 and finally in rising they heat the tubes 8 and the cylinder 6 and discharge direct into the chimney '14. Ify required, the chimney may be arranged in the lower part of the generator. In this case the IOO ator into the chimney, plates 23 23 may be provided on the exterior side of the tubes 2, preventing the direct influence of the Aheat on the outer casing of the apparatus. The circulation of the water contained in the tubes is a very eective one, the water having an ascending movement within the tubes 5 and descending within the tubes 2. The steam produced passes from the tubes 5 into the collectors 3 and from the collectors 3 through the tubes 7 into the cylinder 6, whereupon it is forced to descend through the pipes 8, in contact with which it becomes dry and superheated. From the tubes 8 the steam passes up through the tubes 9 and through the drum 10 and the orifice 19 to the engine.
In order to prevent the tubes 8 (which do not contain water) and the lower part of the cylinder 6 from being injured by the radiation from the fire-box, a protective cover 24, of refractory material, may be provided. If the steam produced in the tubes 5 should take any water into suspension, it will lose it in passing along the tubes 13. The water particles will be retained by the grooved edges on the under side of the tubes, which form obstructions, and will fallback into the tubes 2. If it should occur, however, that some particles of water are still held in suspension, they will be vaporized during the passage through the tubes 8. It is obvious that the steam escapes from the generator not only dried, but also sufficiently superheated.
The sludge will collect in the collector (or collectors) 15, which is preserved from the direct action of the heat. The parts subject to the infiuence of the heat will not be filled with sludge, and accidents which would result therefrom will thus be avoided. In cases where the invention is applied to marine boilers the extraction of the sludge and of the water may be easily effected from the lower part of the collector 15.
The tubes 16 and 18 and the reservoir 17 could be dispensed with; but they facilitate very much the fitting up and removal of the tubes depending from the reservoir, tubes conceutrically located within the said vertical tubes and depending from the inner drum, and a layer of refractory material protecting the parts of the superheater directly subject to the action of the heat, the parts being arranged and combined subtantially as and for the purposes described.
In testimony -whereof I have signed my name to this specification in the presence of two subscribing witnesses.
CHARLES PHILIPPE ALTMANN.
Witnesses:
ED LAMY, G. TROULLIEUR.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US7460001A US703362A (en) | 1901-09-07 | 1901-09-07 | Steam-boiler. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US7460001A US703362A (en) | 1901-09-07 | 1901-09-07 | Steam-boiler. |
Publications (1)
Publication Number | Publication Date |
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US703362A true US703362A (en) | 1902-07-01 |
Family
ID=2771891
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US7460001A Expired - Lifetime US703362A (en) | 1901-09-07 | 1901-09-07 | Steam-boiler. |
Country Status (1)
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US (1) | US703362A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2632427A (en) * | 1945-03-03 | 1953-03-24 | Moore Inc | Steam boiler supplied with combustion gases at elevated pressure |
-
1901
- 1901-09-07 US US7460001A patent/US703362A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2632427A (en) * | 1945-03-03 | 1953-03-24 | Moore Inc | Steam boiler supplied with combustion gases at elevated pressure |
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