US2725929A - Combustion chamber type burner - Google Patents

Combustion chamber type burner Download PDF

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US2725929A
US2725929A US257998A US25799851A US2725929A US 2725929 A US2725929 A US 2725929A US 257998 A US257998 A US 257998A US 25799851 A US25799851 A US 25799851A US 2725929 A US2725929 A US 2725929A
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chamber
oil
combustion chamber
air
burner
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Massier John
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Selas Corp of America
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23CMETHODS OR APPARATUS FOR COMBUSTION USING FLUID FUEL OR SOLID FUEL SUSPENDED IN  A CARRIER GAS OR AIR 
    • F23C3/00Combustion apparatus characterised by the shape of the combustion chamber

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  • the present invention relates to fluid fuel burners, and more particularly to a burner having a combustion chamber in which a iluid fuel and air are burned to provide a high temperature, high velocity stream of products of combustion for various heating purposes.
  • Burners of the type with which the present invention is concerned have previously been used with a combustible mixture of gas and air as a fuel.
  • the mixture is introduced through a screen to burn in a relatively small combustion chamber having a restricted outlet.
  • the hot products of combustion are then discharged through the restricted outlet at high velocity.
  • a relatively small combustion chamber that has, at its outlet end, a restricted discharge orifice through which the products of combustion are discharged at high velocity and at a temperature substantially equal to that at which combustion takes place.
  • Fuel in the form of atomized oil is introduced into the chamber at a point opposite the discharge orifice.
  • Air for combustion is introduced at a plurality of points around the combustion chamber in such a fashion that it mixes with the oil to form a combustible mixture that will burn completely in the combustion chamber.
  • Figure 1 is a longitudinal section of the burner
  • Figure 2 is a section-taken on line 2 2 of Figure l looking toward the discharge end;
  • Figure 3 is a section taken on line 3 3 of Figure l looking toward the inlet end;
  • Figure 4 is a sectionv taken on line 4-'4 of Figure l looking toward the combustion chamber.
  • FIG. 1 of the drawing there is shown a cylindrical metal casing l1 inwhichthe burner parts are enclosed.
  • an outer refractory lining 2 Received in the casing, is an outer refractory lining 2 which is reduced on its right end in order to form ICC an air space 3 between the lining and the casing.
  • the right end of the liner is slightly shorter than the casing.
  • This liner is provided near its left end with a plurality of openings 4 and near its right end with a plurality of openings S.
  • the right end of the liner is centered in the casing by lugs 6 that extend outwardly as shown best inv Figure 3.
  • the combustion chamber of the burner is formed by a cylindrical inner lining 9, also made of refractory material which is received within the outer lining 2.
  • This lining is provided near its .leftend with openings 11 that are aligned with the openings 4 and is provided near its right end with openings 12 that are aligned with the openings 5.
  • a tip member 7 which is provided with a discharge orifice 8 that takes the form of an elongated slot.
  • the linings, the tip and the ring are made of a ceramic material.
  • the outer lining 2 is preferably made of some material such as aluminum oxide, which has good insulating properties, while the inner lining 9 and ring 13 are made of a material such as beryllium oxide which has rigidity at high temperatures.
  • the tip 7 can be made of this material or of silicon carbide which has rigidity at high temperatures and a relatively high coefficient of heat transmission.
  • the open end of the combustion chamber is closed by a manifold 14 that is held in place on the right end of the center of the manifold diagonally outwardly to communi.
  • the manifold cate with an annular air space 1S formed between the ring 13 and the right end of outer lining 2.
  • the manifold is also provided with an annular shoulder orseat 16 which is adapted to receive a screen 19 therein.
  • This screen is provided at its right end with a radial shoulder 21, and it is by this shoulder Vthat the screen is held in position in the manifold.
  • a plate 22 having an opening in it to pass over the small portion of the screen.
  • a gasket 23 is placed between the manifold and the plate and these parts are held together by screws 24.
  • the tip 7 and the liners 2 and 9 and ring 13 are assembled as a unit and placed in the casing 1.
  • the screen 19 is fastened in the manifold 14' by plate 22 and gasket 23 and the manifold assembly is then moved to bring thel screen into the opening of ring 13.
  • the parts are then bolted together as shown in Figure l. Suitable cement can be used between the shoulders 21 of the screen and the seat 16 of the manifold in order to insure a pressure tight connection between these parts.
  • the screen is annular in shape, and the center opening thereof receives an oil atomizer 25 that is provided with an opening 26 through which the oil is discharged into the combustion chamber'.
  • This atomizer is supplied with oil through a pipe 27 and with atomizing air through a pipe 28.
  • These pipes are received within the main air supply pipe 32 that is threaded to the manifold. Suitable connections are used between these pipes in order to bring them out so that they may be supplied with the proper Huid.
  • Air for combustion passes through the pipe 32 and through the holes 17 to annular chamber 18. From here, it ows through the space 3 where it is preheated by contact with the hot walls of the burner and into the combustion chamber by the plurality of radial orifices or ports 11 and 12 in the liner.
  • a small percentage of the combustion air also passes through a plurality of openings 29 formed in the screen 19 and surrounding the oil atomizer. It is noted that the left ends of these openings bend in a radial direction, as shown at 31 in the drawings, so that the air discharged from them will sweep across the face of the atomizer.
  • valve 35 is opened to permit gas to flow into the combustion chamber.
  • a small supply of air is permitted to flow through pipe 32 in sufficient proportion to form a combustible mixture with the gas.
  • the mixture is discharged through the orifice 8
  • it is ignited to burn at the mouth of the combustion chamber.
  • the pressure of the air is then reduced so that the flame will baci:- re into the combustion chamber and burning will talle place in the chamber.
  • the supply of oil can be turned on and the supply of air can be increased. The iiame of the burning gas will ignite the oil and the burner is in operation.
  • the volume of air and oil can be increased in the proper proportions either manually or automatically to form a combustible mixture until the maximum for which the burner is designed has been reached.
  • the gas supply is preferably cut ofi after thc burner is in operation, although no harm will be wound if the gas continues to be supplied to the combustion chamber.
  • a typical burner of the type disclosed herein can have a combustion chamber about l2 inches long and 4*/2 inches in diameter. With a burner of this type, using number 6 or bunker-C oil as a fuel, the bumer has been operated to deliver approximately 800,000 B. t. u. per
  • the burner of this invention was designed primarily for the use of oil as a fuel.
  • the introduction of oil and air, in the manner disclosed, permits such mixing that combustion is practically instantaneous.
  • the burner can, however, be used equally as well when gas is used as a fuel.
  • the oil atomizer is removed and a gas pipe is inserted in the center of screen 19 in place of the atomizer.
  • the discharge of gas into the combustion chamber under a suitable pressure is such that a complete mixture of the gas and air is also accomplished and complete combustion of the mixture is obtained so that only products of combustion are discharged through the port 8.
  • the arrangement is such that any grade of commercial fuel oil, including bunker-C, can be burned with equal facility.
  • the burner is easily ignited and starts oit from cold without any priming other than a production of a ame in the chamber to ignite the atomized oil.
  • Va burner the combination of a substantially cylindrical casing, a refractory lining received in said casing with a space between said lining and casing, the interior of said lining forming a combustion chamber, a plurality of radially directed and unlined orifices extending substantially perpendicularly in said lining between said space and said chamber, a refractory part having a restricted opening therein received in one end of said lining, the other end of said lining being closed by a screen having a central opening and a plurality of smaller openings around said central opening, a manifold to hold said screen in position, an oil atomizer having an end in the central opening of said screen and directed toward said chamber, said plurality of small openings being so directed that air discharged therefrom will sweep across the end of said atomizer, means forming 'I5 passages in said manifold leading to said space, means to supply oil to said atomizer, and means to supply air under pressure to said manifold.
  • a burner the combination of structure forming a substantially cylindrical chamber, means closing one end of said chamber and provided with a restricted opening therein forming an outlet for said chamber, a member closing the other end of said chamber, said member being provided with a central opening and a plurality of small openings around said central opening, an oil atomizer received in said central opening having an end through which oil is discharged into said chamber said small openings being so directed that air flowing therethrough will sweep at right angles across the discharge end of said atomizer, said structure being formed with an annular space around said chamber and a plurality of radially directed Kaus around an intermediate portion of said chamber and extending substantially perpendicularly between said space and said chamber, means to supply air to said space and said plurality of openings, the air mixing with a high degree of turbulence in said chamber with the oil from said atomizer to form a combustible mixture to be burned therein.
  • said means to supply air includes an annular member attached to said structure with the interior thereof in communication with said plurality of openings, said member being provided with passages extending from the center thereof to said space.
  • a burner the combination of structure forming a substantially cylindrical combustion chamber and including a refractory lining and a metal shell with an annular space between the two, said lining being provided with a plurality of radially extending openings connecting said space with said chamber, means forming a restricted outlet for one end of said chamber, a screen extending across the opposite end of said chamber, said screen being provided with a rst axially extending opening of one diameter and a plurality of smaller axially extending openings surrounding the rst opening, the chamber end of each of said plurality of openings terminating in a radially directed portion in said iirst axially extending opening adjacent to said chamber, an oil atomizer received in said iirst axially extending opening with the discharge end thereof adjacent to said radially directed portions whereby air flowing through said plurality of openings will sweep across the discharge end of said atomizer, means to supply oil to said atomizer to be discharged into said chamber, and means to supply air

Description

Dec- 6, 1955 J. MAsslER CoMBUsTIoN CHAMBER TYPE BURNER Filed Nov. 24, 1951 INVENTOR. JOHN MASSIER www ATTORNEY.
United States Patent CoMBUsTIoN CHAMBER TYPE BURNER John Massier, Oreland, Pa., assignor to Selas Corporation of America, Philadelphia, Pa., a corporation of Pennsylvania Application November 24, 1951, Serial No. 257,998
6 Claims. (Cl. 158-28) The present invention relates to fluid fuel burners, and more particularly to a burner having a combustion chamber in which a iluid fuel and air are burned to provide a high temperature, high velocity stream of products of combustion for various heating purposes.
Burners of the type with which the present invention is concerned have previously been used with a combustible mixture of gas and air as a fuel. In such burners, the mixture is introduced through a screen to burn in a relatively small combustion chamber having a restricted outlet. The hot products of combustion are then discharged through the restricted outlet at high velocity. The diiculty of bringing air and fuel in contact to produce complete combustion within the limited combustion space available required that a combustible mixture of fuel such as gas and air be used in burners of this type prior to the present invention.
It is an object of the invention to provide a combustion chamber type of burner in which fuel and air are introduced separately into the combustion chamber. It is a further object of the invention to provide apparatus by means of which a relatively large volume of oil'can be completely burned in a small combustion space. It is a still further object of the invention to provide a burner that is capable of using oil of any grade as a fuel, and burning the oil efficiently.
In carrying out the invention, there is provided a relatively small combustion chamber that has, at its outlet end, a restricted discharge orifice through which the products of combustion are discharged at high velocity and at a temperature substantially equal to that at which combustion takes place. Fuel in the form of atomized oil is introduced into the chamber at a point opposite the discharge orifice. Air for combustion is introduced at a plurality of points around the combustion chamber in such a fashion that it mixes with the oil to form a combustible mixture that will burn completely in the combustion chamber.
The various features of novelty which characterize my invention are pointed out with particularity in the claims annexed to and forming apart of this specification. For a better understanding of the invention, however, its advantages and specific objects attained with its use,ref erence should be had to the accompanying drawings and descriptive matter in which I have illustrated and described a preferred embodiment of the invention.
In the drawings:
Figure 1 is a longitudinal section of the burner; l
Figure 2 is a section-taken on line 2 2 of Figure l looking toward the discharge end;
Figure 3 is a section taken on line 3 3 of Figure l looking toward the inlet end; and
Figure 4 is a sectionv taken on line 4-'4 of Figure l looking toward the combustion chamber.
Referring to Figure 1 of the drawing, there is shown a cylindrical metal casing l1 inwhichthe burner parts are enclosed. Received in the casing, is an outer refractory lining 2 which is reduced on its right end in order to form ICC an air space 3 between the lining and the casing. It is noted that the right end of the liner is slightly shorter than the casing. This liner is provided near its left end with a plurality of openings 4 and near its right end with a plurality of openings S. The right end of the liner is centered in the casing by lugs 6 that extend outwardly as shown best inv Figure 3.
The combustion chamber of the burner is formed by a cylindrical inner lining 9, also made of refractory material which is received within the outer lining 2. This lining is provided near its .leftend with openings 11 that are aligned with the openings 4 and is provided near its right end with openings 12 that are aligned with the openings 5. Also received in the left end of the casing, and beyond the outer liner, is a tip member 7 which is provided with a discharge orifice 8 that takes the form of an elongated slot. From an inspection of Figure l of the drawing, it will be seen that the'combustion chamber formed within the interior of the inner lining is cylindrical throughout the `major portion of its length. Toward the left end, however, it gradually reduces in diameter and ares out so that the interior of the burner has a smooth contour from the cylindrical portion to the exhaust or discharge opening 8. The open end of theinner lining 9 is engaged by a ring 13 of refractory material that is g received in and extends slightly beyond the outer lining 2.
The linings, the tip and the ring are made of a ceramic material. The outer lining 2 is preferably made of some material such as aluminum oxide, which has good insulating properties, while the inner lining 9 and ring 13 are made of a material such as beryllium oxide which has rigidity at high temperatures. The tip 7 can be made of this material or of silicon carbide which has rigidity at high temperatures and a relatively high coefficient of heat transmission. These various parts are fastened together by means of any suitable high temperature cement, to form what is in effect, a one piece shell. The shell is then placed in the casing', and held therein by a suitable cement.
The open end of the combustion chamber is closed by a manifold 14 that is held in place on the right end of the center of the manifold diagonally outwardly to communi.
cate with an annular air space 1S formed between the ring 13 and the right end of outer lining 2. The manifold is also provided with an annular shoulder orseat 16 which is adapted to receive a screen 19 therein. This screen is provided at its right end with a radial shoulder 21, and it is by this shoulder Vthat the screen is held in position in the manifold. For this purpose, there is provided a plate 22 having an opening in it to pass over the small portion of the screen. A gasket 23 is placed between the manifold and the plate and these parts are held together by screws 24.
In assembling the burner, the tip 7 and the liners 2 and 9 and ring 13 are assembled as a unit and placed in the casing 1. The screen 19 is fastened in the manifold 14' by plate 22 and gasket 23 and the manifold assembly is then moved to bring thel screen into the opening of ring 13. The parts are then bolted together as shown in Figure l. Suitable cement can be used between the shoulders 21 of the screen and the seat 16 of the manifold in order to insure a pressure tight connection between these parts.
As noted above, the screen is annular in shape, and the center opening thereof receives an oil atomizer 25 that is provided with an opening 26 through which the oil is discharged into the combustion chamber'. This atomizer is supplied with oil through a pipe 27 and with atomizing air through a pipe 28. These pipes are received within the main air supply pipe 32 that is threaded to the manifold. Suitable connections are used between these pipes in order to bring them out so that they may be supplied with the proper Huid. Air for combustion passes through the pipe 32 and through the holes 17 to annular chamber 18. From here, it ows through the space 3 where it is preheated by contact with the hot walls of the burner and into the combustion chamber by the plurality of radial orifices or ports 11 and 12 in the liner. A small percentage of the combustion air also passes through a plurality of openings 29 formed in the screen 19 and surrounding the oil atomizer. It is noted that the left ends of these openings bend in a radial direction, as shown at 31 in the drawings, so that the air discharged from them will sweep across the face of the atomizer.
When using oil as a source of fuel, it is necessary to have a pilot arne in the combustion chamber to ignite the oil. This flame can be supplied with gas from a suitable source of supply through a pipe 33 that extends into the combustion chamber. As best shown in Figure 3, this pipe extends through a casing 1 and into the lining 2 where it is suitably fastened in place, as by cement. The pipe is received in a radially extending opening 34 in the liners 2 and 9. A valve 35 is placed in the pipe so that the supply of gas may be cut off when the burner has been started. It is noted that each of the pipes 32, 27 and 28 is also provided with a valve, not shown, so that the supply of fuel and air to the burners can be adjusted as desired.
ln starting the burner in operation, valve 35 is opened to permit gas to flow into the combustion chamber. At the same time, a small supply of air is permitted to flow through pipe 32 in sufficient proportion to form a combustible mixture with the gas. As the mixture is discharged through the orifice 8, it is ignited to burn at the mouth of the combustion chamber. The pressure of the air is then reduced so that the flame will baci:- re into the combustion chamber and burning will talle place in the chamber. At this time, the supply of oil can be turned on and the supply of air can be increased. The iiame of the burning gas will ignite the oil and the burner is in operation. Thereafter, the volume of air and oil can be increased in the proper proportions either manually or automatically to form a combustible mixture until the maximum for which the burner is designed has been reached. The gas supply is preferably cut ofi after thc burner is in operation, although no harm will be donc if the gas continues to be supplied to the combustion chamber.
A typical burner of the type disclosed herein can have a combustion chamber about l2 inches long and 4*/2 inches in diameter. With a burner of this type, using number 6 or bunker-C oil as a fuel, the bumer has been operated to deliver approximately 800,000 B. t. u. per
hour. In order to produce this amount of heat, between and 6 gallons of oil were supplied through the atomizer at between 35 and 40 pounds pressure. 8,000 cubic feet of air was supplied per hour at about 78 inches water column. This produces a pressure in the combustion chamber of 54 inches water column. While it is impractical to measure the temperature in the combustion chamber, it is estimated that this temperature is very close to that of theoretical ame temperature, or in the neighborhood of 3400 F. The temperature in the combustion chamber will be lower than the theoretical temperature due to convection and radiant heat losses through the burner components. An important characteristic of this burner is that combustion is completed within the combustion chamber so that only hot products of combustion are discharged through the outlet orifice 8. The temperature of these gases has been measured and has been found to be between 3,0l)0 F. and 3,100" F. with a velocity in the neighborhood of 1,300 feet per second.
In the operation of a burner of this type, it has been found that the best performance is obtained when the oil atomizer has a discharge angle of approximateiy 20. When this is the case, the oil is delivered so that there is no impingement upon the side walls. As the oil moves through the combustion chamber, the streams of air entering through ports 11 and 12 mix intimately with the atomized oil so that combustion is taking place simultaneously throughout the entire chamber. Because or this fact and the high temperature of the chamber. it is possible to burn the large quantities of oil that have been noted above. It is for this reason that the temperature of the exhaust gases is so high and at such a high velocity. The majority of combustion air is delivered to the chamber through the ports il and i2. it has been found advantageous to make these ports of such a size relative to the total area of the ports 29, that the latter deliver approximately l0 percent of the air. The air flowing through the ports 29 and across the face of the atomizer, seems to create a slight high pressure area that prevents an accumulation of oil at this point. Therefore, no coke is built up, even when using an oil as thick as bunker-C.
The burner of this invention was designed primarily for the use of oil as a fuel. The introduction of oil and air, in the manner disclosed, permits such mixing that combustion is practically instantaneous. The burner can, however, be used equally as well when gas is used as a fuel. When this is done, the oil atomizer is removed and a gas pipe is inserted in the center of screen 19 in place of the atomizer. The discharge of gas into the combustion chamber under a suitable pressure is such that a complete mixture of the gas and air is also accomplished and complete combustion of the mixture is obtained so that only products of combustion are discharged through the port 8.
From the above, it will be seen that I have provided an oil burner in which the oil and combustion supporting air are introduced into a relatively small combustion chamber. Combustion takes place in this chamber so that only hot products of combustion are discharged therefrom. The arrangement is such that any grade of commercial fuel oil, including bunker-C, can be burned with equal facility. The burner is easily ignited and starts oit from cold without any priming other than a production of a ame in the chamber to ignite the atomized oil.
While in accordance with the provisions of the Statutes, I have illustrated and described the best form of embodiment of my invention now known to me it will be apparent to those skilled in the art that changes may be made in the form of the apparatus disclosed without departing from the spirit and scope of the invention, as set forth in the appended claims, and that in some cases certain features of my invention may be used to advantage without a, corresponding use of other features.
What is claimed is:
l. In Va burner, the combination of a substantially cylindrical casing, a refractory lining received in said casing with a space between said lining and casing, the interior of said lining forming a combustion chamber, a plurality of radially directed and unlined orifices extending substantially perpendicularly in said lining between said space and said chamber, a refractory part having a restricted opening therein received in one end of said lining, the other end of said lining being closed by a screen having a central opening and a plurality of smaller openings around said central opening, a manifold to hold said screen in position, an oil atomizer having an end in the central opening of said screen and directed toward said chamber, said plurality of small openings being so directed that air discharged therefrom will sweep across the end of said atomizer, means forming 'I5 passages in said manifold leading to said space, means to supply oil to said atomizer, and means to supply air under pressure to said manifold.
2. In a burner, the combination of structure forming a substantially cylindrical chamber, means closing one end of said chamber and provided with a restricted opening therein forming an outlet for said chamber, a member closing the other end of said chamber, said member being provided with a central opening and a plurality of small openings around said central opening, an oil atomizer received in said central opening having an end through which oil is discharged into said chamber said small openings being so directed that air flowing therethrough will sweep at right angles across the discharge end of said atomizer, said structure being formed with an annular space around said chamber and a plurality of radially directed orices around an intermediate portion of said chamber and extending substantially perpendicularly between said space and said chamber, means to supply air to said space and said plurality of openings, the air mixing with a high degree of turbulence in said chamber with the oil from said atomizer to form a combustible mixture to be burned therein.
3. The combination of claim 2 in which said means to supply air includes an annular member attached to said structure with the interior thereof in communication with said plurality of openings, said member being provided with passages extending from the center thereof to said space.
4. In a burner, the combination of structure forming a substantially cylindrical combustion chamber and including a refractory lining and a metal shell with an annular space between the two, said lining being provided with a plurality of radially extending openings connecting said space with said chamber, means forming a restricted outlet for one end of said chamber, a screen extending across the opposite end of said chamber, said screen being provided with a rst axially extending opening of one diameter and a plurality of smaller axially extending openings surrounding the rst opening, the chamber end of each of said plurality of openings terminating in a radially directed portion in said iirst axially extending opening adjacent to said chamber, an oil atomizer received in said iirst axially extending opening with the discharge end thereof adjacent to said radially directed portions whereby air flowing through said plurality of openings will sweep across the discharge end of said atomizer, means to supply oil to said atomizer to be discharged into said chamber, and means to supply air to said plurality of openings in said screen and to said space to flow through the openings in said liner, the air passing through all of said openings mixing turbulently with the oil in said chamber to promote complete combustion thereof, the hot products of combustion leaving said chamber through said restricted outlet.
5. in a burner, the combination of structure forming a cylindrical chamber, means forming a plurality of rows of openings directed radially through said structure and terminating flush with the interior surface thereof, means forming a restricted outlet at one end of said chamber, a screen across they other end of said chamber, said screen being provided with an axially extending opening and a plurality of openings terminating adjacent to the inner end of said axially extending opening and at right angles thereto, an oil atomizer received in said axially extending opening and located so that the discharge end thereof is outwardly of the terminating end of said plurality of openings in said screen, means to supply oil to said atomizer to be discharged into said chamber, and means to supply air under pressure through all of said openings into said chamber, the air mixing with the oil therein to burn, the air flowing through the plurality of openings in said screen sweeping across the discharge end of said atomizer at right angles thereto.
6. The combination of claim 5 including means to` supply a jet of gas to the interior of said chamber, the gas acting as a pilot for the oil.
References Cited in the iile of this patent UNITED STATES PATENTS Re. 22,886 Ayers June 3, 1947 1,063,352 Jacobs June 3, 1913 1,172,755 Wilson Feb. 22, 1916 1,626,116 Hardinge Apr. 26, 1927 2,206,553 Nagel July 2, 1940 2,575,070 Reed et al Nov. 13, 1951 2,638,895 Swindin May 19, 1953
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US3074470A (en) * 1952-04-10 1963-01-22 Owens Corning Fiberglass Corp Liquid fuel burner for forming glass fibers
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US3981142A (en) * 1974-04-01 1976-09-21 General Motors Corporation Ceramic combustion liner
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DE2926345A1 (en) * 1978-06-30 1980-01-24 Southwire Co METHOD FOR HEATING AND MELTING A MATERIAL FILLING IN A MELTING FURNACE AND BURNER FOR THE COMBUSTION OF LIQUID FUEL
US4190121A (en) * 1976-02-20 1980-02-26 Messerschmitt-Bolkow-Blohm Gmbh Thermal drilling device
EP0051127A2 (en) * 1980-11-03 1982-05-12 Rockwell International Corporation Direct firing downhole steam generator
WO1989004941A1 (en) * 1987-11-25 1989-06-01 Combustion Concepts, Inc. A method and apparatus for heating a fluid stream
US20040002031A1 (en) * 2002-07-01 2004-01-01 Smurfit-Stone Container Corporation Burner concentrator
US20080017108A1 (en) * 2006-06-30 2008-01-24 Czerniak Michael R Gas combustion apparatus
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US3074470A (en) * 1952-04-10 1963-01-22 Owens Corning Fiberglass Corp Liquid fuel burner for forming glass fibers
US2927632A (en) * 1955-02-09 1960-03-08 Fraser Reginald Percy Fuel combustion apparatus and the production of controlled gaseous effluents therefrom
US2933425A (en) * 1957-02-26 1960-04-19 Selas Corp Of America Strip heating
US3173499A (en) * 1961-12-08 1965-03-16 Union Carbide Canada Ltd Mineral piercing apparatus
US3255802A (en) * 1963-09-05 1966-06-14 Fletcher Co H E Method and apparatus for producing flame jet and controlling temperature and flame stability of same
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US3298439A (en) * 1964-07-29 1967-01-17 Texaco Inc Bottom hole burner
US3224486A (en) * 1964-12-07 1965-12-21 Lorant B Geller Method and apparatus for producing air-fuel flames of sonic and supersonic velocities
US3400921A (en) * 1965-10-06 1968-09-10 Babcock & Wilcox Co Fuel burner
US3363661A (en) * 1965-12-07 1968-01-16 Fletcher Co H E Apparatus for producing a flame jet by combusting counter flow reactants
US3461577A (en) * 1965-12-15 1969-08-19 Southwest Res Inst Method of and an apparatus for displacing materials
US3386475A (en) * 1966-03-25 1968-06-04 Fletcher Co H E Flame jet burner construction
US3476494A (en) * 1967-08-29 1969-11-04 Exxon Research Engineering Co Vortex burner
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US3729286A (en) * 1970-07-10 1973-04-24 Tokyo Gas Co Ltd Heating furnace provided with high velocity gas burners
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US3922851A (en) * 1974-04-05 1975-12-02 Gen Motors Corp Combustor liner support
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US4336839A (en) * 1980-11-03 1982-06-29 Rockwell International Corporation Direct firing downhole steam generator
EP0051127A2 (en) * 1980-11-03 1982-05-12 Rockwell International Corporation Direct firing downhole steam generator
EP0051127A3 (en) * 1980-11-03 1984-04-25 Rockwell International Corporation Direct firing downhole steam generator
WO1989004941A1 (en) * 1987-11-25 1989-06-01 Combustion Concepts, Inc. A method and apparatus for heating a fluid stream
US4871308A (en) * 1987-11-25 1989-10-03 Combustion Concepts Inc. Method and apparatus for heating a fluid stream
US20040002031A1 (en) * 2002-07-01 2004-01-01 Smurfit-Stone Container Corporation Burner concentrator
US6780005B2 (en) * 2002-07-01 2004-08-24 Smurfit-Stone Container Corporation Burner concentrator
US20080241781A1 (en) * 2005-10-28 2008-10-02 Sefmat Rue De Betnoms Hot Air Internal Ignition Burner/Generator
US8678816B2 (en) * 2005-10-28 2014-03-25 Sefmat Hot air internal ignition burner/generator
US20080017108A1 (en) * 2006-06-30 2008-01-24 Czerniak Michael R Gas combustion apparatus

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