US818033A - Gas-furnace or coke-oven. - Google Patents

Gas-furnace or coke-oven. Download PDF

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Publication number
US818033A
US818033A US24455305A US1905244553A US818033A US 818033 A US818033 A US 818033A US 24455305 A US24455305 A US 24455305A US 1905244553 A US1905244553 A US 1905244553A US 818033 A US818033 A US 818033A
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chambers
gas
regenerators
heating
oven
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US24455305A
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Heinrich Koppers
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Heinrich Koppers GmbH
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Heinrich Koppers GmbH
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10BDESTRUCTIVE DISTILLATION OF CARBONACEOUS MATERIALS FOR PRODUCTION OF GAS, COKE, TAR, OR SIMILAR MATERIALS
    • C10B5/00Coke ovens with horizontal chambers
    • C10B5/02Coke ovens with horizontal chambers with vertical heating flues

Definitions

  • My invention relates to an improved cokeoven, and more particularly to improved means for heating the same in a uniform and economic manner.
  • the oven is divided into two sections having separate regenerators. These regenerators are traversed alternately by burnt gases and fresh gases, so as lto utilize the heat imparted to the regenerators by the former for preheating the latter.
  • Figure 1 is a vertical section through a part of my improved coke-oven constructed to preheat air only 3 Fig. 2, a vertical section on line A B, Fig. 1, Fig. 3, a vertical section through a modification of the oven constructed to preheat air and gas; Fig. 4, a vertical section on line C D, Fig. 3, and Figs. and 6 are'diagrammatic views of the regenerator and connections, showing the parts in diil'erent positions.
  • the numerals 1 indicate a series of parallel coking-chambers having the usualV openings 2 for the introduction of' the material to be coked.
  • Intermediate the coking'- chambers there are arranged two sets of parallel heating-chambers 3, separated by a partition 45 and communicating at their top by openings 4 with horizontal channels 5, that increase in area from the ends toward the center. Communication between chambers 3 and' channels 5 is controlled by dampers 6.
  • Openings l() (shown in Fig. 4) serve to permit an observation otl the channels 5 and control the admission of air when starting combustion.
  • the coking-oven (illustrated in Figs. 1 and 2) is provided near each side with a gas-main 11, which communicates by branches 12, having valves 14, with gas-ducts 13. The latter open .through nozzles into the heating-chambers 3. Below the coking-chambers 1 are arranged parallel to heating-chambers 3 two sets of regenerators 17 and 18,
  • the arched passage contains the gas-main 30, communicating through branches 43 44, having cocks 31 v32, with the gas-regenerators 27 28, respectively.
  • the gas-regenerators are connected, through ducts 33 34, with the main passages 24 25, communication being controlled by dampers 35 36, respectively.
  • One end of main passage 24, controlled by damper 37 may be connected with the open air, while its other end, controlled by damper 3S, is adapted tocommunicate with a iiue 39.
  • Passage 25 is provided with corresponding dampers'4() and 41.
  • regenerators 27 As in both of the constructions illustrated in the drawings the air is heated in the saine manner, the process may be described in co'nnection with the oven illustrated in Figs. 3 to 6.
  • the gas heated in regenerators 27 enters through apertures 29 into heating-chambers 3, where it burns, together with the air delivered from regenerator 17, thrmigh openings 21.
  • damper 37 In order to admit fresh air to the several regenerators 17, damper 37 is opened and damper 33 closed, so that air may pass through passage 24 and ducts 22 to said regenerators.
  • the burning ,and burnt gases ascend in the heating-chambers 3 and ilow through damper-controlled openings 4 into the horizontal channels 5. From these channelsthe gases pass by openings 21 into the regenerators 18.
  • Dampers 38 and 40 are opened, while dampers 37 41 are closed.
  • regenerators above described have the advantage that .the passing gases are evenly distributed, Asthe re enerators are placed directly in theway of t e heating-gases, the latter are also evenly distributed 1n the heating-chambers, so, that the "formation of any whirls and stagnation is avoided.
  • a coke-oven provided with cokingchambers, heating-chambers intermediate the coking-chambers, and a series of 'alternating gas-regenerators and air-regenerators arranged below and communicating with the heating-chambers, substantially as speciiied @races 3.
  • a coke oven provided with parallel coking-chambers, a series of heating-chambers intermediate each pair of coking-chambers, an alternating gas-regeneratcrs and air-regenerators arranged below and communicating with the heating-chambers, substantially asl specified.
  • a coke-oven provided with parallel coking chambers, heating chambers intermediate the coking-chambers, two sets of alternating gas-regenerators and air-regenerchambers, two sets of heating-chambers intermediate the coking-chambers, two sets of regenerators communicating with the heating-chambers and arranged below the coking-chambers, .and a partition between the regenerators, substantially asspeciiied.
  • a coke-oven provided with cokingchambers having parallel heating-walls, heating-chambers between said walls, regenerators communicating with the heating-chambers, a partition and an arched passage between the regenerators and arranged transversely to the heating-walls, passages communicating with the regenerators, dampers between the passages and regenerators, a flue, means for connecting the passages either to the i'lue or to the openair, a gas-main inclosed in the arched passage, and valve-controlled means for admitting gas to the regenerators, substantially as specified.
  • a coke-oven provlded with cokingchambers having parallel heating-walls', heating-chambers between said walls and having top openings, horizontal channels that increase in area fromthe ends toward the center and communicate through said o enings with the heating-chambers, and ampers controlling said openings, substantially as speciied.

Description

PATENTED APR. 17, 1906,
. loos.
3 SHEETS-SHEBT 1.
H. KOPPERS.
GAS FURNAGE 0R COKE OVEN.
APPLGA-TION FILED FEB. 7
3 SHEETS-SHEET 2.-
y/nvenlorf PATENTED APR. 17, 1906.
H. KOPPERS.
GAS EURNAOE OR COKE OVEN.
APPLICATION FILED FEB.7.1905.
No. 818,033. PATENTD APR. 17, 1906. H. KOPPERS. GAS FURNAGEy OR COKE OVEN.
APPLICATION FILED PEB-7, 1905.
3 SHBETSSHEET 3 en/brach K0 em @am W HEINRICH KGPPERS, OF ESSEN-ON-THE-RUHR, GERMANY.
GiS-FURNACE *OR COKE'IOVEN.
Speccaton of Letters Patent.
Patented April 17, 190e.
Application filed February 7,1905. Serial No. 244,553.
To all whom, t may concern:
Beit known that I, HEINRICH KoPPnRs, a citizen of the German Empire, and a resident of Essen-on-the-Ruhr, Germany, have invented certain new and useful Improvements in or Relating to Gas-Furnaces or Coke- Ovens, of which the following is a specification.
My invention relates to an improved cokeoven, and more particularly to improved means for heating the same in a uniform and economic manner. For this purpose the oven is divided into two sections having separate regenerators. These regenerators are traversed alternately by burnt gases and fresh gases, so as lto utilize the heat imparted to the regenerators by the former for preheating the latter.
In the accompanying drawings, Figure 1 is a vertical section through a part of my improved coke-oven constructed to preheat air only 3 Fig. 2, a vertical section on line A B, Fig. 1, Fig. 3, a vertical section through a modification of the oven constructed to preheat air and gas; Fig. 4, a vertical section on line C D, Fig. 3, and Figs. and 6 are'diagrammatic views of the regenerator and connections, showing the parts in diil'erent positions.
The numerals 1 indicate a series of parallel coking-chambers having the usualV openings 2 for the introduction of' the material to be coked. Intermediate the coking'- chambers there are arranged two sets of parallel heating-chambers 3, separated by a partition 45 and communicating at their top by openings 4 with horizontal channels 5, that increase in area from the ends toward the center. Communication between chambers 3 and' channels 5 is controlled by dampers 6. Above and in vertical alinement with the heatingchambers 3 there are provided openings 7, normally closed by plugs 8 and 9. These plugs may be readily removed Whenever an inspection of the heating-chambers is necessary. Openings l() (shown in Fig. 4) serve to permit an observation otl the channels 5 and control the admission of air when starting combustion.
The coking-oven (illustrated in Figs. 1 and 2) is provided near each side with a gas-main 11, which communicates by branches 12, having valves 14, with gas-ducts 13. The latter open .through nozzles into the heating-chambers 3. Below the coking-chambers 1 are arranged parallel to heating-chambers 3 two sets of regenerators 17 and 18,
formed by open brickwork 16, the regenerao ate the air- regenerators 17 and 18 there are.
interposed gas- regenerators 27 and 28, respectively, opening through apertures 29 into the heating-chambers 3. The arched passage contains the gas-main 30, communicating through branches 43 44, having cocks 31 v32, with the gas-regenerators 27 28, respectively. At their outer ends the gas-regenerators are connected, through ducts 33 34, with the main passages 24 25, communication being controlled by dampers 35 36, respectively. One end of main passage 24, controlled by damper 37, may be connected with the open air, while its other end, controlled by damper 3S, is adapted tocommunicate with a iiue 39. Passage 25 is provided with corresponding dampers'4() and 41.
As in both of the constructions illustrated in the drawings the air is heated in the saine manner, the process may be described in co'nnection with the oven illustrated in Figs. 3 to 6. The gas heated in regenerators 27 enters through apertures 29 into heating-chambers 3, where it burns, together with the air delivered from regenerator 17, thrmigh openings 21. In order to admit fresh air to the several regenerators 17, damper 37 is opened and damper 33 closed, so that air may pass through passage 24 and ducts 22 to said regenerators. The burning ,and burnt gases ascend in the heating-chambers 3 and ilow through damper-controlled openings 4 into the horizontal channels 5. From these channelsthe gases pass by openings 21 into the regenerators 18. 'I` he gases will deliver their heat to the open ybrickwork 16 of the regenerators and will then escape into passage 25. As damper 40 is closed, the gases will iow through open damper 41 into llue 39. After the lapse of a certain time-say half an hour-the gas-supply pipes of that ovenseetion within which the combustion has taken place are closed and those of the other IOO IIO
section are opened. Dampers 38 and 40 are opened, while dampers 37 41 are closed.
Combustion now takes place in the reverse direction, the air bein preheated While flowing through the open rickwork of air-regenerators 18. In case gas as well as air is to be preheated the air is preheated in manner above described, the air entering through open damper 40, ducts 23, and regenerators 18 into heating-chambers 3; The gas passes Jrom-gas-main 30 through open valves 32 into the gas-regenerators 28, which are disconnected from passage 25 by closing dampers 36, Fig. 5. The heated gas now enters through ducts 29 into chambers 3 to meet the heated air emerging Jfrom ducts 21, so that combustion will take place. The burning and burnt ygases will pass through regenerators 17 and 27 to heat the saine and will escape through ducts 22 and open dampers 35 into passage 24. As damper 37` is closed while damper 28 is opened, the gases Will iinally bedischarged through flue 39. If the direction of the gases is to be reversed, gas-valves 32 are closed and dampers 36 are opened. As the draft in' the flue has not yet been changed, the gas contained in regenerators 28 is sucked into the oven to be burnt with the separately-entering air. The dampers 37 38 40 41' are now moved into the position show n in 6, and then the as-valves 31 are opened. In lthis way any oss of gas is avoided. The gases willnow ilow in the opposite direction, as indicated by arrows in Fig. 4. f
The regenerators above described have the advantage that .the passing gases are evenly distributed, Asthe re enerators are placed directly in theway of t e heating-gases, the latter are also evenly distributed 1n the heating-chambers, so, that the "formation of any whirls and stagnation is avoided.
What I claim is* 1. In a coke-oven, 'a series of heatingchambers, and coking-chambers intermediate the heating-chambers,l combined with a series of regenerators below and parallel to lthe heating-chambers and communicating directly therewith, substantially as specified.
2'. A coke-oven provided with cokingchambers, heating-chambers intermediate the coking-chambers, and a series of 'alternating gas-regenerators and air-regenerators arranged below and communicating with the heating-chambers, substantially as speciiied @races 3. A coke oven provided with parallel coking-chambers, a series of heating-chambers intermediate each pair of coking-chambers, an alternating gas-regeneratcrs and air-regenerators arranged below and communicating with the heating-chambers, substantially asl specified.
4. A coke-oven provided with parallel coking chambers, heating chambers intermediate the coking-chambers, two sets of alternating gas-regenerators and air-regenerchambers, two sets of heating-chambers intermediate the coking-chambers, two sets of regenerators communicating with the heating-chambers and arranged below the coking-chambers, .and a partition between the regenerators, substantially asspeciiied.
6. A coke-oven provided with cokingchambers having parallel heating-walls, heating-chambers between said walls, regenerators communicating with the heating-chambers, a partition and an arched passage between the regenerators and arranged transversely to the heating-walls, passages communicating with the regenerators, dampers between the passages and regenerators, a flue, means for connecting the passages either to the i'lue or to the openair, a gas-main inclosed in the arched passage, and valve-controlled means for admitting gas to the regenerators, substantially as specified.
7. A coke-oven provlded with cokingchambers having parallel heating-walls', heating-chambers between said walls and having top openings, horizontal channels that increase in area fromthe ends toward the center and communicate through said o enings with the heating-chambers, and ampers controlling said openings, substantially as speciied.
Signed by me at Essen this 19th day of January, 1905.
` HEINRICH KOPPERS.
Witnesses:
HARRY L. MEFFORD, E. PFUDEL.
US24455305A 1905-02-07 1905-02-07 Gas-furnace or coke-oven. Expired - Lifetime US818033A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2863807A (en) * 1955-10-03 1958-12-09 Koppers Co Inc Coke oven structure
US11797960B1 (en) 2012-01-05 2023-10-24 United Services Automobile Association (Usaa) System and method for storefront bank deposits

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2863807A (en) * 1955-10-03 1958-12-09 Koppers Co Inc Coke oven structure
US11797960B1 (en) 2012-01-05 2023-10-24 United Services Automobile Association (Usaa) System and method for storefront bank deposits

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