|Publication number||US3490878 A|
|Publication date||Jan 20, 1970|
|Filing date||Apr 28, 1965|
|Priority date||Apr 28, 1965|
|Publication number||US 3490878 A, US 3490878A, US-A-3490878, US3490878 A, US3490878A|
|Original Assignee||United Aircraft Corp|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (2), Referenced by (12), Classifications (9)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Jan. 20, 1970 s. RUSSELL 3,490,878
CATALYTIC BURNER Filed April 28, 1965 :NvEN'roR s10 RUSSELL United States Patent 3,490,878 CATALYTIC BURNER Sid Russell, Sulfield, Conn., assignor to United Aircraft Corporation, East Hartford, Conn., a corporation of Delaware Filed Apr. 28, 1965, Ser. No. 451,560 Int. Cl. A61] 9/06; B01d 53/00; B01j 9/04 U.S. Cl. 23288 7 Claims ABSTRACT OF THE DISCLOSURE A catalytic burner houses a catalytic bed centrally disposed in a sealed container. A heat transfer tube is helically wound around the catalytic bed and is sandwiched between an insulation lining the wall of the container and a cylindrical insulating shell spaced therefrom. The gas to be reacted is admitted through the helically wound tube directing the gas through the catalytic bed from the bottom of the container through the bed where it is turned 180 and returned back to the bottom between an annular space between the bed and the cylindrical shell. It is then discharged out of the container by passing in heat exchange relation with the gas in the tubes between gaps formed adjacent coils of the helically wound tube.
This invention relates to apparatus for carrying out catalytic oxidation of gases and particularly to apparatus for removing carbon monoxide that is metabolically generated by the exhalation of occupants of an enclosed compartment.
In a sealed compartment of a space vehicle it is necessary to keep potentially toxic gases like carbon monoxide at a tolerable level. As is well known in the art, carbon monoxide gas can be chemically reacted in a catalytic burner forming the more harmless carbon dioxide. However, equally well known is the fact that there isnt presently available compact, lightweight, and low power consuming apparatus specifically designed for continuous conversion of carbon monoxide to carbon dioxide when present in the below toxic parts per billion to 100 parts per million range.
It is therefore an object of this invention to provide a miniaturized catalytic burner which requires a minimum of power attendant the operation of a space vehicle for efficiently and continuously converting carbon monoxide to carbon dioxide when present in the below toxic concentration range described above.
Other features and advantages will be apparent from this specification and claims and from the sole drawing which illustrates a preferred embodiment of this invention. 1
Referring now specifically to the sole figure illustrating the catalytic burner generally indicated by numeral 10 as comprising an outer shell 12 housing the regenerative heat exchanger generally indicated by numeral 14, the catalytic bed 16 and the heater 18. Coaxially mounted to the outer shell 12 is spaced inner shell 20, both shells being formed from a suitable insulating material such as Fiberglas reinforced plastic. A top closure member 22 is suitably bonded to the top end of outer shell 12 and the top end of inner shell 20 and an enclosingbottom section 24 is suitably bonded to the inner periphery of the bottom section of outer shell 12 and the bottom of inner shell 20. Top enclosure member 22 may carry a removable cap 26 which is suitably retractably mounted by the threads formed in a centrally formed bore. The removable cap 26 has an opening 28 for receiving a pair of electric conducting wires 29 and 31 which extend from a small external battery into the inner shell 20 and connect to heater 18.
Mounted between the outer shell 12 and the inner shell 20 is a helically wound metal coil 30 having one end projecting through an opening in the top section 22 for receiving air to be treated. The discharge end of coil 30 terminates adjacent a central opening formed in the bottom of the burner which is in communication with heater 18 suitably supported by an enclosed cylinder 32. As can be seen from the drawing, cylinder 32 is integral with cap 26 joined suitably through spacer 36 and butts at the far end against rubber gasket 33 inserted in the recess formed on the'bottom closure 24 of the inner shell 20. Spacer 36 carries a plurality of openings 42 which communicate internally with the cylinder 32 and the annularspace defined between cylinder 32 and inner shell 20. A catalytic bed generally indicated by numeral 16, which may contain suitable metal oxide catalysts such as manganese dioxide or precious metal catalysts, rhodium metal on alumina shown to be particularly efiicacious as an oxidation promoter, is supported in cylinder 32 between a suitable screen 41 abutting the spacer 36 and a second screen 40 supported to the top of heater 18. It is apparent from the foregoing that the inner shell 32 consisting of the heater and catalyst bed is formed into a single unit and is retractable through the opening covered by cap 26. The heater 18 comprises a suitable heating element helically supported in any suitable manner to the cylindrical wire support 43 which may be formed from any suitable material having a low thermal conductivity.
As noted from the drawing, breathable atmosphere comprising low parts per million carbon monoxide admitted to the coil 30 is directed in a helical path to discharge in the center of the catalytic burner. It is there turned and directed to the heating element 18 where it is heated and then transmitted directly to the catalytic bed 16 where the carbon monoxide is oxidized to carbon dioxide. The gases discharging from the catalytic bed 16 are then directed through the plurality of openings 42 where they are then directed down to the bottom of the catalytic burner through the annular space defined between the inner shell 20 and the container 32. The gas from here is then directed through opening 44 where it passes between the space defined by the adjacent coil of the helical coil 30 where eventually it discharges to the tube 46 projecting through the top casing member 22. In this arrangement it is noted that the gases emitted to the heater and the gases discharged from the catalytic bed are placed in indirect heat exchange relationship through the wall of container 32. Again, these gases emitted from the space defined from the heating cylinder and the inner shell are placed at indirect heat exchange relation with the gases entering the catalytic burner as they are passing through the helical coils. In this arrangement, as will be appreciated by one skilled in the art, eflicient oxidation takes place with a minimum of power consumption.
The catalytic burner described herein is generally of the type described in U.S. application Ser. No. 398,449 filed on Sept. 22, 1964, by Harlan Brose and assigned to the same assignee.
It should be understood that the invention is not limited to the particular embodiment shown and described herein, but that various changes and modifications may be made without departing from the spirit or scope of this novel concept.
1. A catalytic burner adapted for continuous catalytic oxidation including an outer shell and an inner shell coaxially mounted in spaced relation, top and bottom enclosure members abutting the top and bottom ends of the inner and outer shells, an inlet and outlet projecting through said top enclosure member into said space defined between said inner and outer shells, a helically wound coil with spaces between adjacent coil elements mounted in the space between the inner and outer shell and having one end connected to said inlet and a free end terminating adjacent the bottom enclosure member close to the central portion thereof, container means housing a catalyst and heater means upstream of the catalyst and having wall means coaxial with and spaced from the inner wall of the inner shell, said container means adapted to receive,
fluid from said free end through an opening in the bottom end of said inner shell and to discharge fluid through openings formed at the top of said container means toward the bottom of said inner shell through the space between said wall means and inner wall of the inner shell, and an opening in the inner shell interconnecting the space between the container means and inner shell and the space between adjacent coil elements.
2. A catalytic burner as claimed in claim 1 including a retractable cap threadably mounted in said top enclosure member.
3. A catalytic burner as claimed in claim 2 including sealing means mounted between the bottom end of said inner shell and the bottom end of said container means.
4. A catalytic burner adapted for continuous catalytic oxidation including an outer shell and an inner shell coaxially mounted in spaced relation, top and bottom enclosure members abutting the top and bottom ends of the inner and outer shells, an inlet and outlet projecting through said top enclosure member into said space defined between said inner and outer shells, a helically wound coil with spaces between adjacent coil elements mounted in the space between the inner and outer shell and having one end connected to said inlet and a free end terminating adjacent the bottom enclosure member adjacent an opening formed in the central portion thereof, a reactor section having a housing supporting a catalyst bed and heater means upstream of the catalyst, said housing having 'wall means coaxial with and spaced from the inner wall of the inner shell, said heater being mounted adjacent the opening formed in the bottom of said inner shell and adapted to receive fluid from said free end and to discharge fluid to said catalytic bed, a top cover mounted on one end of said housing adjacent the catalytic bed having openings communicating the catalytic bed with the space between said wall means and inner wall of the inner shell, and an opening in the inner shell interconnecting the space between the container means and inner shell and the space between adjacent coil elements.
5. A catalytic burner as claimed in claim 4 wherein said reactor section includes spaced screen-like elements extending transversely relative to the inner diameter of said housing and sandwiching said catalytic bed.
6. A catalytic burner as claimed in claim 5 including an annular shaped seal interposed between the bottom of said inner shell adjacent said opening and the bottom of said housing.
7. A catalytic burner as claimed in claim 4 wherein said heater means includes a cylindrical heater support member and a heating element helically supported on the internal diameter thereof.
References Cited UNITED STATES PATENTS 3/ 1936- Du Chaifant 23289 2/1954 Hammell 156 US. Cl. X.R.
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|US2668692 *||Oct 19, 1950||Feb 9, 1954||Gen Electric||Heat exchanger|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3653844 *||Feb 2, 1970||Apr 4, 1972||Phillips Petroleum Co||Gas purification apparatus|
|US3706535 *||Nov 23, 1970||Dec 19, 1972||Us Navy||Carbon monoxide burner for undersea habitats|
|US3730545 *||Aug 30, 1971||May 1, 1973||Int Harvester Co||Tractor weights|
|US4019871 *||Sep 30, 1974||Apr 26, 1977||General Electric Company||Recombiner apparatus|
|US4138220 *||Feb 13, 1978||Feb 6, 1979||Colonial Metals, Inc.||Apparatus for catalytic oxidation of grease and fats in low temperature fumes|
|US4207055 *||Dec 5, 1977||Jun 10, 1980||Tokyo Pipe Co., Ltd.||Cigarette lighter with synergistic igniting means|
|US4537748 *||Sep 9, 1982||Aug 27, 1985||Domnick Hunter Filters Ltd.||Apparatus for treating compressed air for breathing purposes|
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|DE3233156A1 *||Sep 7, 1982||Mar 31, 1983||Domnick Hunter Filters Ltd||Geraet fuer das behandeln von komprimierter luft fuer atmungszwecke|
|EP2174088A1 *||Jul 21, 2008||Apr 14, 2010||Air Liquide Process & Construction, Inc.||Coil piping system for reactor vessel|
|U.S. Classification||422/199, 165/156, 431/58, 431/268, 422/203, 422/122|