US2484272A - Fluid burner with auxiliary external oxygen supply - Google Patents
Fluid burner with auxiliary external oxygen supply Download PDFInfo
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- US2484272A US2484272A US766279A US76627947A US2484272A US 2484272 A US2484272 A US 2484272A US 766279 A US766279 A US 766279A US 76627947 A US76627947 A US 76627947A US 2484272 A US2484272 A US 2484272A
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- burner
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D17/00—Burners for combustion conjointly or alternatively of gaseous or liquid or pulverulent fuel
- F23D17/002—Burners for combustion conjointly or alternatively of gaseous or liquid or pulverulent fuel gaseous or liquid fuel
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23L—SUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
- F23L7/00—Supplying non-combustible liquids or gases, other than air, to the fire, e.g. oxygen, steam
- F23L7/007—Supplying oxygen or oxygen-enriched air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D2900/00—Special features of, or arrangements for burners using fluid fuels or solid fuels suspended in a carrier gas
- F23D2900/00006—Liquid fuel burners using pure oxygen or O2-enriched air as oxidant
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/34—Indirect CO2mitigation, i.e. by acting on non CO2directly related matters of the process, e.g. pre-heating or heat recovery
Definitions
- Another object is to produce a burner utilizing oxygen under high pressure, to gain a maximum heating efficiency of the burner, with conservation of fuel as one of the advantages.
- a further object is to provide a burner of the character described, which is structurally improved to gain maximum durability, efficiency,
- Another object is to provide new and improved structural features in a burner of the class described, which reduce the cost of materials and labor in assembly, so that the burner may be substituted for other and less efficient equipment without prohibitive expense.
- Fig. 1 is a perspective view of the improved burner, the support for which is fragmentally illustrated.
- Fig. 2 is an enlarged vertical cross-sectional view of the burner illustrated by Fig. '1, a section thereof being removed to conserve space upon the drawing.
- Fig. 4 is an enlarged cross-sectional view on line 4-4 of Fig. 2.
- Fig. 5 is a fragmental side elevational view looking from right to left, at the valve illustrated by Fig. 4.
- Burners of the general character herein distaken closed have been referred to in the steel in- I gas or natural gas, with steam or air under pressure employed to produce a blast at the nose of the burner.
- the burners When used in connection with open hearth furnaces, the burners are required to so project a flame, that combustion will occur chiefly steel in its various forms, will be greatly reduced with the installation of this burner.
- the body of the burner is indicated at and may consist of a long tube supported intermediate its endsby means of a yoke 8 resting upon the trunnion block 9.
- the burner body or tube '8 forms the outer wall of a water jacket ID that extends throughout the length of the body.
- the inner wall of the water jacket is formed by a tube l2 which is preferably concentric with the tube I, this inner tube l2 being properly referred to also as the gas tube since it conveys gas from the rear end of the burner to the open nose l3 thereof.
- the gas is fed to the open rear end of the gas tube l2 by way of a gas manifold [4 whose chamber l5 communicates with the gas tube and with a supply pipe l6 suitably connected to a source of supply.
- the gas tube I2 is provided with a weld indicated at [l which provides a sealed joint with the nose l8 of the burner, the nose being welded to the outer tube or body I at the location iii.
- a water intake pipe 20 is welded or otherwise securely fixed to the burner nose, and furnishes the means by which a coolant such as water, may be directed to the forward end of the water jacket, to prevent burning and rapid deterioration of the burner.
- Water fed to the forward end of the water jacket through the supply pipe 20 is exhausted at the discharge pipe 2
- the rear end of the body tube 1 may be welded as at 24. to an annular flanged ring 25, which ring has a shoulder 26 bearing upon the outer surface of the gas tube [2 to support said tube, while by means of suitable packing 21 and a gland 28, a leak proof connection is effected to preclude leakage of water from the water jacket to the gas chamber defined by tube l2.
- the flanged ring 25 may be fixed to the flange 29 of the gas manifold M in any suitable manner as by means of bolts or screws, Fig. l. p
- a fuel tube 30 Centrally of the gas tube, there is supported a fuel tube 30 having a forward open end that terminates at the nose of the burner.
- the fuel tube is surrounded throughout the major portion of its length, by a steam jacket tube 3
- provides simple and efficient means for continuously heating the fuel pipe and thereby conditioning the fuel for instant and complete'combustion forwardly of the burner nose.
- Steam for the jacket is supplied from the chamber 32 of a steam head or manifold housing 33, which is connected to a source of supply by means of a suitable pipe or tube 34.
- the rear end 35 of the fuel tube preferably is supported by the steam head, preferably with the employment of a threaded connection indicated at 36.
- the steam head is provided with annular flanges 31 and 38 to be bolted or otherwise securely fixed relative to the flanges 39 and 40 of the atomizer housing 4
- the atomizer housing is shown only in a conventional manner, but it consists essentially of an atomizing chamber 42 into which a liquid fuel such as oil is fed by means of a pipe 43, while a stream of atomizing gas such as steam under pressure enters the atomizer chamber by way of the tube 44.
- the central fuel tube 30 will be seen to extend from the atomizer housing to the tip of the burner, and throughout the'greater portion of this distance the fueltube is kept in a heated state. by the flow of steam under pressure passing from the chamber 32 forwardly through the jacket formed by the concentric tubes 30 and 3
- may be supported in a bushing 46 screw threaded into the open end of the steam chamber, as indicated at 41;
- bushing 46 affords a connection sufliciently tight to prevent the passage of steam from chamber 32 to the gas chamber indicated at l5.
- steam under pressure will be discharged from the tip of the burner independently of-the stream of gas discharged from the space surrounding the steam tube 3
- a spider or other supporting the gas tube 12' may furnish the necessary support to maintain the steam tube and the fuel tube in axial relationship with the burner body.
- oxygen under pressure may be supplied by ,means of a pipe 50, to the several oxygen tubes 5 I,
- oxygen tubes 52, and 53 which extend along substantially the full length of the burner body.
- These oxygen tubes may find support in three separate interiorly threaded apertures of the steam head 33, one of which apertures is indicated 'at54 upon Fig. 2.
- extends forwardly and has an end 55 terminating near the burner tip.
- the end of the oxygen tube may be exteriorly threaded as at 56, to accommodate an internally threaded oxygentip 51 which is somewhat larger in diameter than the oxygen tube. By reason of its greater diameter, the oxygen tip, resting upon the forward end of the gas tube l2, so elevates the forward end of the oxygen tube as to direct another, are formed within the head to communicate with the remaining oxygen tubes 52, and'53,'respectively.
- valve 60 oxygen from the manifold 6
- the valve may be provided with a head 62 to accommodate a wrench or lever, and if desired, the valve may be indexed with respect to a point 63 as suggested by Fig. 5 of the drawings.
- valve As the port arrangement of such a valve will readily be-understood by those familiar with distribution of gases and liquids from a manifold, it is considered unnecessary to burden this description with a pro tracted explanation of the relative disposition and angular relationship of all the valve ports with respect to one another. It is material only that the valve shall so function as to'distribute oxygen under pressure selectively to the several device 4B within oxygen tubes 51-52-43,- or to all of the tubes simultaneously, upon predetermined rotation or other manipulation of the control valve. As herein suggested, with particular reference to Fig. 4, the valve may be of the tapered plug type held upon its seat by means of a washer 64 and nut 85, in accordance with common practice.
- the middle one of the oxygen tubes slopes upwardly toward the-nose end of the burner, so that its axis will intersect the axis of the central fuel tube at a point well in advance of the burner tip-
- the remaining oxygen tubes 52 and 53 likewise slope upwardly, and inwardly also at their forward ends, so that all of them will direct their respective oxygen streams to approximatel the same point of convergency with the axis of the fuel tube 3Q.
- the forward ends of the o y en tubes are spaced apart a lesser distance than are the rear ends thereof. This disposition of the oxygen tubes, while perhaps not absolutely essential to a proper operation of the burner, is nevertheless preferable and results in a very desirable type of flame having a maximum heating function.
- valve 60 While in the present disclosure a particular form of valve 60 is illustrated, and housed within the part referred to as the steam head or manifold housing 33, it is by no means essential that the valve shall be of the type illustrated upon the drawings. Neither is it essential that the particular part 33 shall support the valve, since obvious y the valve may be located exteriorly of the burner apparatus, to control flow of oxygen to individual short pipes or tubes communicating with the rear ends of the several oxygen tubes. In some instances, where the type of installation permits, the oxygen control valve may be omitted entirely, with each of the oxygen tubes being fed equal amounts of oxygen from. a common source of supply.
- a burner bod including a cooling jacket tubular in form and having an open passageway axially within it, a fuel tube extending longitudinally through said passageway, and having a fuel inlet end and an outlet end, fuel atomizing means at the inlet end of the fuel tube, a
- ' second tube surrounding the fuel tube in spaced relationship, to provide .
- a heating fluid chamber extending substantially from end to end of the fuel tubes, said heating fluid chamber being open at the outlet end of the fuel tube for discharge of heating fluid in the direction ofthe fuel discharge, means for directing a heating fluid into said chamber, means to project a plurality of independent'oxygen streams in the general direction of heating fluid and fuel discharge, and means for controlling said oxygen streams.
- said fuel tube being smaller in diameter than the nose aperture and having its adjacent end open and in spaced approximate concentricity to the wall of said aperture, a steam tube larger in diameter than the fuel tube, and surrounding the latter in spaced relation thereto, said steam tube extending from the burner nose to the steam manifold housing, for conveying steam from said housing about and along the length of the fuel tube and discharging same through the space at the nose aperture, means supporting the steam tube in spaced approximate concentricity with both the fuel tube and themnor tube of the cooling jacket, and oxygen feeding means projecting through the space between the steam tube andthe cooling jacket, and terminating approximately at the nose aperture of the burner.
- a tubular elongated burner body having an apertured nose end and a rear end, an elongated inner tubeextending from the nose to the rear end of the burner body to establish within the burner body a cooling jacket, a steam manifold housing on the rear end of the burner body, including an entry port for steam under pressure, a fuel mixer having a port aligned with the axis of the burner body, a fuel tube communicating with the fuel mixer port and passing through the steam manifold housing and the cooling jacket tube, to terminate at the nose aperture of the burner, said fuel tube being smaller in diameter than the nose aperture and having its adjacent end open and in spaced approximate concentricity to the wall of said aperture, a steam tube larger in diameter than the fuel tube, and surrounding the latter in spaced relation thereto,
- a tubular elongated burner body having an apertured nose end and a rear end, an elongated inner tube extending from the nose to the rear end of the burner body to establish within the burner body a cooling jacket, a steam manifold housing on the rear end of the burner body, including an entry port for steam underpressure, a fuel mixer having a port aligned with the axis rounding the latter in spaced relation thereto,
- said steam tube extending from the burner nose to the steam manifold housing, for conveying steam from said housing about and along the length of the fuel tube and discharging same through the space at the nose aperture alon the axis of the burner body, tube means located within said burner body having a discharge opening located in the nose of the burner and spaced from the fuel tube and an inlet at the rear end of said burner body to which a source of supply of oxygen under pressure may be connected, the discharge end of said tube means being disposed at such an angle with respect to the line of discharge of fuel from the nose end of fuel tube that the oxygen discharging from said tube means intersects the steam and fuel discharging from the burner at a location remote from the burner nose, and control means for said oxygen discharging tube means.
- a burner in accordance with claim 1 characterized by the fact that the oxygen stream projecting means comprises a plurality of tubes disammo:
Description
Oct, 11, 1949. J. M. CROWE FLUID BURNER WITH AUXILIARY EXTERNAL OXYGEN SUPPLY 2 Sheds-Sheet 1 Filed Aug. 5, 1947 INVENTOR. c/ofl/v MARS/#711 620M V m mm mm km mm ..l.v M. CROWE Get. 11, 1949.
FLUID BURNER WITH AUXILIARY EXTERNAL OXYGEN SUPPLY 2 Sheets-Sheet 2 Filed Aug. 5, 1947 INVENTOR. do/m Mme A12 090m.
Patented a. 11, 1949 UNITED STATES PATEII'I';v 0
FFICEI Claims. (CL 15811) oxygen as a fuel supplement.
Another object is to produce a burner utilizing oxygen under high pressure, to gain a maximum heating efficiency of the burner, with conservation of fuel as one of the advantages.
A further object is to provide a burner of the character described, which is structurally improved to gain maximum durability, efficiency,
and economy in the operation thereof; so that in the manufacture of commodities such as steel in various forms, use of the improved burner reduces the smelting time by several hours with a resultant reduction of cost in labor, fuel, and furnace maintenance.
Another object is to provide new and improved structural features in a burner of the class described, which reduce the cost of materials and labor in assembly, so that the burner may be substituted for other and less efficient equipment without prohibitive expense.
The foregoing and other objects are attained by the means disclosed herein and illustrated upon the accompanying drawings in which:
Fig. 1 is a perspective view of the improved burner, the support for which is fragmentally illustrated.
Fig. 2 is an enlarged vertical cross-sectional view of the burner illustrated by Fig. '1, a section thereof being removed to conserve space upon the drawing.
ingly, it, is desirable that the hottestportiori of the flame be made to occur at a substantial distance from the'burner'nose. Burners which operate in any manner contrary to that which is described, are objectionable for the reason that they induce premature deterioration of the furnace lining.
Up to the present time, there has been considerable opportunity offered for the improvement of artillery type burners. The majority of burners presently in use have been found wanting in efiiciency and economy of operation,-and one of the objectives of the present invention is to obviate those objections. The improved burner of this invention has proven in practice, to greatly reduce the smelting period, with a very considerable saving in fuel and labor. It is therefore to be expected that the cost of producing Fig. 3 is an enlarged cross-sectional view taken I on line 3--3 of Fig. 2.
Fig. 4 is an enlarged cross-sectional view on line 4-4 of Fig. 2.
Fig. 5 is a fragmental side elevational view looking from right to left, at the valve illustrated by Fig. 4.
Burners of the general character herein distaken closed, have been referred to in the steel in- I gas or natural gas, with steam or air under pressure employed to produce a blast at the nose of the burner. When used in connection with open hearth furnaces, the burners are required to so project a flame, that combustion will occur chiefly steel in its various forms, will be greatly reduced with the installation of this burner.
Referring to Figs. 1 and 2 of the drawings, the body of the burner is indicated at and may consist of a long tube supported intermediate its endsby means of a yoke 8 resting upon the trunnion block 9. The burner body or tube '8 forms the outer wall of a water jacket ID that extends throughout the length of the body. The inner wall of the water jacket is formed by a tube l2 which is preferably concentric with the tube I, this inner tube l2 being properly referred to also as the gas tube since it conveys gas from the rear end of the burner to the open nose l3 thereof. The gas is fed to the open rear end of the gas tube l2 by way of a gas manifold [4 whose chamber l5 communicates with the gas tube and with a supply pipe l6 suitably connected to a source of supply.
At the forward end of the burner, the gas tube I2 is provided with a weld indicated at [l which provides a sealed joint with the nose l8 of the burner, the nose being welded to the outer tube or body I at the location iii. A water intake pipe 20 is welded or otherwise securely fixed to the burner nose, and furnishes the means by which a coolant such as water, may be directed to the forward end of the water jacket, to prevent burning and rapid deterioration of the burner. Water fed to the forward end of the water jacket through the supply pipe 20 is exhausted at the discharge pipe 2| located near the rear end of the water jacket. A jacket blow-off, or clean-out tube, likewise located near the rear end of the water jacket, is indicated at 22. This tube 22 may normally be capped or plugged, as indicated within the hearth and upon the melt. Accordat 23 upon Fig. 1.
the gas manifold and the interior ofv gas tube l2,
in any suitable manner. As indicated upon Fig. 2, the rear end of the body tube 1 may be welded as at 24. to an annular flanged ring 25, which ring has a shoulder 26 bearing upon the outer surface of the gas tube [2 to support said tube, while by means of suitable packing 21 and a gland 28, a leak proof connection is effected to preclude leakage of water from the water jacket to the gas chamber defined by tube l2. The flanged ring 25 may be fixed to the flange 29 of the gas manifold M in any suitable manner as by means of bolts or screws, Fig. l. p
Centrally of the gas tube, there is supported a fuel tube 30 having a forward open end that terminates at the nose of the burner. The fuel tube is surrounded throughout the major portion of its length, by a steam jacket tube 3|, these tubes 30 and 3| being spaced apart sufficiently to permit a fiow of steam to exhaust at the nose of the burner as long as the burner is in operation. The steam jacket formed by the tube 3| provides simple and efficient means for continuously heating the fuel pipe and thereby conditioning the fuel for instant and complete'combustion forwardly of the burner nose. Steam for the jacket is supplied from the chamber 32 of a steam head or manifold housing 33, which is connected to a source of supply by means of a suitable pipe or tube 34. The rear end 35 of the fuel tube preferably is supported by the steam head, preferably with the employment of a threaded connection indicated at 36. The steam head is provided with annular flanges 31 and 38 to be bolted or otherwise securely fixed relative to the flanges 39 and 40 of the atomizer housing 4| and the gas head l4. By removing the atomizer housing 4|, access may be had to the fuel tube for cleaning or replacement when necessary.
Itmay here be stated that the atomizer housing is shown only in a conventional manner, but it consists essentially of an atomizing chamber 42 into which a liquid fuel such as oil is fed by means of a pipe 43, while a stream of atomizing gas such as steam under pressure enters the atomizer chamber by way of the tube 44.
The central fuel tube 30 will be seen to extend from the atomizer housing to the tip of the burner, and throughout the'greater portion of this distance the fueltube is kept in a heated state. by the flow of steam under pressure passing from the chamber 32 forwardly through the jacket formed by the concentric tubes 30 and 3|. These tubes may be kept in concentric spaced rela-. tionship in any suitable manner, as by means of the projections or pimples 45 formed upon the outer surface of the fuel tube. At the flanges 38 and 40 of the steam head and the gas head, the rear end of the steam tube 3| may be supported in a bushing 46 screw threaded into the open end of the steam chamber, as indicated at 41;
It may be noted that bushing 46 affords a connection sufliciently tight to prevent the passage of steam from chamber 32 to the gas chamber indicated at l5. Thus, steam under pressure will be discharged from the tip of the burner independently of-the stream of gas discharged from the space surrounding the steam tube 3|.
A spider or other supporting the gas tube 12' may furnish the necessary support to maintain the steam tube and the fuel tube in axial relationship with the burner body.
The use of oxygen under pressure has proven highly effective in a burner of this type, to enhance the quality and heating performance of v p the flame resulting from the discharge of fuel .oil, combustible gas, and steam at the tip of the burner. It has been discovered that the various combustible elements, in order to provide a most.
effective and serviceableflame, should mix at a point in advance of the burner tip, rather than within the structure of the burner. Ajhigh velocity of fuel discharge is preferred, and it is essential that the liquid fuel employed shall combine with the oxygen and the gas at an elevated temperature such as the steam jacket surrounding the fuel tube provides. The supply of oxygen for the flame will preferably be brought to the burner tip in the manner now to be explained.
At a location near the rear end of the burner body, oxygen under pressure may be supplied by ,means of a pipe 50, to the several oxygen tubes 5 I,
52, and 53 which extend along substantially the full length of the burner body. These oxygen tubes may find support in three separate interiorly threaded apertures of the steam head 33, one of which apertures is indicated 'at54 upon Fig. 2. The tube 5| extends forwardly and has an end 55 terminating near the burner tip. The end of the oxygen tube may be exteriorly threaded as at 56, to accommodate an internally threaded oxygentip 51 which is somewhat larger in diameter than the oxygen tube. By reason of its greater diameter, the oxygen tip, resting upon the forward end of the gas tube l2, so elevates the forward end of the oxygen tube as to direct another, are formed within the head to communicate with the remaining oxygen tubes 52, and'53,'respectively. By means of a valve 60, oxygen from the manifold 6| fed by the supply pipe 50, may be fed selectively to the oxygen tubes, and in addition, the valve is provided with an arrangement of ports whereby oxygen may be directed into all of the oxygen tubes simultaneously. That is to say, by rotating the movable valve elements!) to selected positions, the operator may cause oxygen under pressure to enter selected ones of the tubes, or all of them simultaneously, for discharge of the oxygen stream at the tip of the burner. For this purpose, the valve may be provided with a head 62 to accommodate a wrench or lever, and if desired, the valve may be indexed with respect to a point 63 as suggested by Fig. 5 of the drawings. As the port arrangement of such a valve will readily be-understood by those familiar with distribution of gases and liquids from a manifold, it is considered unnecessary to burden this description with a pro tracted explanation of the relative disposition and angular relationship of all the valve ports with respect to one another. It is material only that the valve shall so function as to'distribute oxygen under pressure selectively to the several device 4B within oxygen tubes 51-52-43,- or to all of the tubes simultaneously, upon predetermined rotation or other manipulation of the control valve. As herein suggested, with particular reference to Fig. 4, the valve may be of the tapered plug type held upon its seat by means of a washer 64 and nut 85, in accordance with common practice.
It has been explained that the middle one of the oxygen tubes, indicated at El, slopes upwardly toward the-nose end of the burner, so that its axis will intersect the axis of the central fuel tube at a point well in advance of the burner tip- The remaining oxygen tubes 52 and 53 likewise slope upwardly, and inwardly also at their forward ends, so that all of them will direct their respective oxygen streams to approximatel the same point of convergency with the axis of the fuel tube 3Q. It will accordingly be understood that the forward ends of the o y en tubes are spaced apart a lesser distance than are the rear ends thereof. This disposition of the oxygen tubes, while perhaps not absolutely essential to a proper operation of the burner, is nevertheless preferable and results in a very desirable type of flame having a maximum heating function.
1 Each of the oxygen tubes is to be furnished with a tip such as is indicated at 51 of Fig. 2, and all of the tips are subject to replacement with tips of difierent diameters, so that the several streams of oxygen may be directionally altered to obtain the most effective flame adjust= merit for maximum performance.
While in the present disclosure a particular form of valve 60 is illustrated, and housed within the part referred to as the steam head or manifold housing 33, it is by no means essential that the valve shall be of the type illustrated upon the drawings. Neither is it essential that the particular part 33 shall support the valve, since obvious y the valve may be located exteriorly of the burner apparatus, to control flow of oxygen to individual short pipes or tubes communicating with the rear ends of the several oxygen tubes. In some instances, where the type of installation permits, the oxygen control valve may be omitted entirely, with each of the oxygen tubes being fed equal amounts of oxygen from. a common source of supply.
It is to be understood that various other modiflcations and changes in the structural details of the apparatus may be made, within the scope of the appended claims, without departing from the spirit of the invention. Instead of oxygen as a fuel supplement, one may utilize some other combustion supporting gas possessing the necessary qualities for the purposes herein recited.
What is claimed is:
1. In a burner of the class described, the combination of a burner bod including a cooling jacket tubular in form and having an open passageway axially within it, a fuel tube extending longitudinally through said passageway, and having a fuel inlet end and an outlet end, fuel atomizing means at the inlet end of the fuel tube, a
' second tube surrounding the fuel tube in spaced relationship, to provide .a heating fluid chamber extending substantially from end to end of the fuel tubes, said heating fluid chamber being open at the outlet end of the fuel tube for discharge of heating fluid in the direction ofthe fuel discharge, means for directing a heating fluid into said chamber, means to project a plurality of independent'oxygen streams in the general direction of heating fluid and fuel discharge, and means for controlling said oxygen streams.
2. In a burner of the class described, the conibination of a tubular elongated burner body having an apertured nose end and a rear end, an
, through the steam manifold housing and the cooling jacket tube, to terminate at the nose aperture of the burner, said fuel tube being smaller in diameter than the nose aperture and having its adjacent end open and in spaced approximate concentricity to the wall of said aperture, a steam tube larger in diameter than the fuel tube, and surrounding the latter in spaced relation thereto, said steam tube extending from the burner nose to the steam manifold housing, for conveying steam from said housing about and along the length of the fuel tube and discharging same through the space at the nose aperture, means supporting the steam tube in spaced approximate concentricity with both the fuel tube and themnor tube of the cooling jacket, and oxygen feeding means projecting through the space between the steam tube andthe cooling jacket, and terminating approximately at the nose aperture of the burner.
3. In a, burner of the class described, the comblnation of a tubular elongated burner body having an apertured nose end and a rear end, an elongated inner tubeextending from the nose to the rear end of the burner body to establish within the burner body a cooling jacket, a steam manifold housing on the rear end of the burner body, including an entry port for steam under pressure, a fuel mixer having a port aligned with the axis of the burner body, a fuel tube communicating with the fuel mixer port and passing through the steam manifold housing and the cooling jacket tube, to terminate at the nose aperture of the burner, said fuel tube being smaller in diameter than the nose aperture and having its adjacent end open and in spaced approximate concentricity to the wall of said aperture, a steam tube larger in diameter than the fuel tube, and surrounding the latter in spaced relation thereto,
introducing oxygen from said source into said tube means to leave the tube means at the open end, whereby the oxygen is projected to intersect the fuel and steamdischarge at a location remote from the burner nose.
4. In a burner of the class described, the combination of a tubular elongated burner body having an apertured nose end and a rear end, an elongated inner tube extending from the nose to the rear end of the burner body to establish within the burner body a cooling jacket, a steam manifold housing on the rear end of the burner body, including an entry port for steam underpressure, a fuel mixer having a port aligned with the axis rounding the latter in spaced relation thereto,
said steam tube extending from the burner nose to the steam manifold housing, for conveying steam from said housing about and along the length of the fuel tube and discharging same through the space at the nose aperture alon the axis of the burner body, tube means located within said burner body having a discharge opening located in the nose of the burner and spaced from the fuel tube and an inlet at the rear end of said burner body to which a source of supply of oxygen under pressure may be connected, the discharge end of said tube means being disposed at such an angle with respect to the line of discharge of fuel from the nose end of fuel tube that the oxygen discharging from said tube means intersects the steam and fuel discharging from the burner at a location remote from the burner nose, and control means for said oxygen discharging tube means.
5. A burner in accordance with claim 1 characterized by the fact that the oxygen stream projecting means comprises a plurality of tubes disammo:
posed within the burner body and having their discharge ends supported in the outlet end of said burner body below and in spaced relation to the outlet of said fuel tube, the opposite ends of said oxygen carrying tubes being in the inlet end of said burner body and connected to said oxygen controlling means, said oxygen carrying tubes having their discharge ends inclined at an angle towards the axis of said fuel tube to cause the oxygen discharging therefrom to intersect the stream of fuel discharging from said fuel tube at a point forwardly of the discharge end of said fuel tube.
,JOI-IN MARSHALL CROWE.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 7 378,326 Lewis Feb. 21, 1888 541,310 Broadwell June 18, 1895 955,092 McGahan Apr. 12, 1910 1,588,634 Wallstrom June 15, 1926 1,841,698 Barber Jan. 19, 1932 1,852,946 Topper .4. Apr, 5, 1932 2,303,648 Lemste'r et al Dec. 1,1942 2,338,623 Crowe Jan. 4, 1944 2,362,085 Morgan Nov. '7, 1944 2,385,153 Morton Sept. 18, 1945 2,412,579 Hauzvic Dec. 17, 1946
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US766279A US2484272A (en) | 1947-08-05 | 1947-08-05 | Fluid burner with auxiliary external oxygen supply |
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US766279A US2484272A (en) | 1947-08-05 | 1947-08-05 | Fluid burner with auxiliary external oxygen supply |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2554609A (en) * | 1948-01-10 | 1951-05-29 | American Steel & Wire Co | Method of operating open-hearth furnaces |
US2708572A (en) * | 1952-06-14 | 1955-05-17 | Armco Steel Corp | Apparatus for continuously blowing molten metal |
US3078084A (en) * | 1958-11-12 | 1963-02-19 | Cornigliano Societa Per Azioni | Method and equipment for the intensive use of oxygen in open hearth furnaces for the production of steel |
US3408177A (en) * | 1964-03-28 | 1968-10-29 | Ame Cockerill Ougree Soc | Process for refining or melting metals in a furnace |
US3733165A (en) * | 1968-01-25 | 1973-05-15 | Daido Sans Kk | Liquid fuel combustion device |
EP2107303A1 (en) * | 2008-03-31 | 2009-10-07 | URSUT, Iosif | Combustion process with full control over all of the purified fuels that are submitted to high compressed air. |
US20100047726A1 (en) * | 2008-08-20 | 2010-02-25 | Mestek, Inc. | Boiler and pilot system |
US20100081098A1 (en) * | 2008-09-26 | 2010-04-01 | Air Products And Chemicals, Inc. | Combustion System with Precombustor for Recycled Flue Gas |
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US378326A (en) * | 1888-02-21 | Albeet c | ||
US541310A (en) * | 1895-06-18 | Oil-burner | ||
US955092A (en) * | 1906-08-07 | 1910-04-12 | Frederick Luther Mcgahan | Blowpipe. |
US1588634A (en) * | 1925-04-08 | 1926-06-15 | Wallstrom Ludwig | Burner |
US1841698A (en) * | 1930-10-15 | 1932-01-19 | Surface Combustion Corp | Combustion of gaseous fuel |
US1852946A (en) * | 1929-07-30 | 1932-04-05 | Topper Harry | Burner for autogenous fusing and welding under water |
US2303648A (en) * | 1941-10-02 | 1942-12-01 | Devon E Lemster | Burner |
US2338623A (en) * | 1941-01-30 | 1944-01-04 | Crowe John Marshall | Burner structure |
US2362085A (en) * | 1942-04-13 | 1944-11-07 | Guy J Morgan | Method of heating open-hearth furnace charges |
US2385153A (en) * | 1942-11-12 | 1945-09-18 | Union Mining Company Of Allega | Burner |
US2412579A (en) * | 1945-01-13 | 1946-12-17 | Zednek J Hauzvic | Combination gas and liquid fuel burner |
-
1947
- 1947-08-05 US US766279A patent/US2484272A/en not_active Expired - Lifetime
Patent Citations (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US378326A (en) * | 1888-02-21 | Albeet c | ||
US541310A (en) * | 1895-06-18 | Oil-burner | ||
US955092A (en) * | 1906-08-07 | 1910-04-12 | Frederick Luther Mcgahan | Blowpipe. |
US1588634A (en) * | 1925-04-08 | 1926-06-15 | Wallstrom Ludwig | Burner |
US1852946A (en) * | 1929-07-30 | 1932-04-05 | Topper Harry | Burner for autogenous fusing and welding under water |
US1841698A (en) * | 1930-10-15 | 1932-01-19 | Surface Combustion Corp | Combustion of gaseous fuel |
US2338623A (en) * | 1941-01-30 | 1944-01-04 | Crowe John Marshall | Burner structure |
US2303648A (en) * | 1941-10-02 | 1942-12-01 | Devon E Lemster | Burner |
US2362085A (en) * | 1942-04-13 | 1944-11-07 | Guy J Morgan | Method of heating open-hearth furnace charges |
US2385153A (en) * | 1942-11-12 | 1945-09-18 | Union Mining Company Of Allega | Burner |
US2412579A (en) * | 1945-01-13 | 1946-12-17 | Zednek J Hauzvic | Combination gas and liquid fuel burner |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2554609A (en) * | 1948-01-10 | 1951-05-29 | American Steel & Wire Co | Method of operating open-hearth furnaces |
US2708572A (en) * | 1952-06-14 | 1955-05-17 | Armco Steel Corp | Apparatus for continuously blowing molten metal |
US3078084A (en) * | 1958-11-12 | 1963-02-19 | Cornigliano Societa Per Azioni | Method and equipment for the intensive use of oxygen in open hearth furnaces for the production of steel |
US3408177A (en) * | 1964-03-28 | 1968-10-29 | Ame Cockerill Ougree Soc | Process for refining or melting metals in a furnace |
US3733165A (en) * | 1968-01-25 | 1973-05-15 | Daido Sans Kk | Liquid fuel combustion device |
EP2107303A1 (en) * | 2008-03-31 | 2009-10-07 | URSUT, Iosif | Combustion process with full control over all of the purified fuels that are submitted to high compressed air. |
WO2009121384A1 (en) * | 2008-03-31 | 2009-10-08 | Campean, Romulus | Combustion process with full control over all of the purified fules that are submitted to high compressed air |
US20100047726A1 (en) * | 2008-08-20 | 2010-02-25 | Mestek, Inc. | Boiler and pilot system |
US20100081098A1 (en) * | 2008-09-26 | 2010-04-01 | Air Products And Chemicals, Inc. | Combustion System with Precombustor for Recycled Flue Gas |
US9243799B2 (en) * | 2008-09-26 | 2016-01-26 | Air Products And Chemicals, Inc. | Combustion system with precombustor for recycled flue gas |
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