US1737681A - Retort for carbonizing bituminous fuels - Google Patents

Retort for carbonizing bituminous fuels Download PDF

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Publication number
US1737681A
US1737681A US115935A US11593526A US1737681A US 1737681 A US1737681 A US 1737681A US 115935 A US115935 A US 115935A US 11593526 A US11593526 A US 11593526A US 1737681 A US1737681 A US 1737681A
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retort
carbonizing
heating
shaft
gases
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US115935A
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Plassmann Josef
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CHEMISCH TECH GmbH
Chemisch-Technische GmbH
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CHEMISCH TECH 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
    • C10B7/00Coke ovens with mechanical conveying means for the raw material inside the oven
    • C10B7/02Coke ovens with mechanical conveying means for the raw material inside the oven with rotary scraping devices

Definitions

  • This invention relates to a retort for carbonizing bituminous fuel and represents an improvement in regard to the carbonizing and heating chambers shown and described in my Patent No. 1,671,448, May 29, 1929, filed July 10, 1925.
  • the annular carbonizing chambers of the retort In several cases especially when the operation of retorts for carbonizing bituminous fuels, is to be effected with high temperatures, the annular carbonizing chambers of the retort, must be made of strongly refractory material, for instance ceramic material.
  • the possibility of producing such a retort is based on the particularity of the hereinafter described construction, in which the annular carbonizing chambers of the retort are composed of segment bodies made of refractory material, the said segment bodies being preferably superposed in rows with the segments of each row offset with respect to the segments of the rows above and below it.
  • annular chamber retort made of ceramic material
  • said retort can be employed for the production of coke and gas in gas generating plants and further for the production of blast furnace coke.
  • a retort can be used for the roasting of ore or similar heating processes.
  • highly heated water-steam can be added to the coke by means of suitable devices, before the coke leaves the retort, in order to increase the final output of gas.
  • Figure 1 is a vertical section through the carbonizing retort
  • Figure 2 is a horizontal cross section through thesame, the left-hand side being a section along the line 3-3 of Figure 1 and the right-hand side a section along the line 2-2 of Figure 1.
  • Each worm is located in a separate casing and is rotated by means of bevel gears 26 from a shaft 27 which in turn is driven through bevel gears 28 by a motor 29.
  • the shaft 27 also turns the casing 20 through the intermediary of gearing.
  • a worm 91 which meshes with a worm wheel 92 fixed on a shaft 93, the bottom end of the shaft 27 resting in a footstep bearing 90.
  • a worm 193 which meshes with a worm wheel 94 fixed on a shaft 95 which at its left hand end is journalled in a bearing 97 and at its right hand end in a bearing 96, both of which bearings are fixed to the casing 20.
  • a gear pinion 98 which meshes with a circular rack 31 surrounding the retort concentrically and fixed to the foundation 22 of the retort.
  • the carbonizing and heating chambers are formed in a central assembly of separate segments 2 made of ceramic material, said segwhen the latter are assembled, form t e com bustion shaft 5, each segment comprising a shallow portion forming the heating .chambers 1 and a deeper portion of smaller radius nozzle 10.
  • the heating gases are introduced into the retort through a burner 18 arranged in the bottom of the shaft 5 and flow through a nozzle 10 above which is arranged a heat equalizing accumulator 6 of lattice'd chamotte stones, through which the gases pass on their way to the upper part of the shaft.
  • a heat equalizing accumulator 6 of lattice'd chamotte stones, through which the gases pass on their way to the upper part of the shaft.
  • apertures 7 in the walls 201 of the uppermost rows of segments establish open communication between the shaft 5 and the heating passages 4 so as to enable the heating gases to pass into the heating chambers 1.
  • the purpose of the heat equalizing accumulator is to smooth out or neutralize fluctuations in the temperature of the heating gases from the burner 18.
  • the gases are conducted in the direction of the arrows through the circular chamber segments 2 to the heating channels 3 and from there into the annular space 8 at the bottom of the retort.
  • the guiding of the gases within the segments 2 is effected by the bafie walls therein in such a manner,
  • the upper part of the shaft 5 is closed by means of a cover 11.
  • the uppermost ring is insulated by means of the heat insulating material 12 and 13, which at the same time tightly covers the joints between the separate segments.
  • the fuel is held in position in the carbonizing chambers 14 by means of the rings 15, fixed to the casing 20 by means of holders 151.
  • the cover plate 16 is provided, which has an aper-' ture 17 through which the gases enter from the heating channels 3 into the annular space 8.
  • a structural unit comprising an assembly of a plurality of segmentsmade of refractory material, having a hollow portion of reduced radius and a hollow portion of larger radius and capable when assembled of forming a set of alternately superposed annular carbonizing chambers and se mental heating chambers, the former being 0 osed at their inner end and wholly independent of each other, said segments having inner walls which form a central vertical combustion shaft, a casing surrounding said structural unit, said inner walls being provided with openings which establish communication between said combustion shaft and said segmental heating chambers.
  • a carbonizing retort comprising in combination a structural unit comprisin an assembly of a plurality of se ments ma eof refractory material oflset wit respect to one another, having a hollow portion of reduced radius and a hollow portion of larger radius and capable when assembled of forming a set of alternately superposed annular carbonizing chambers and segmental heating chambers, the'former being closed at their inner end and wholly independent of each other, said segments having inner walls which form a central vertical combustion shaft, a burner in said combustion shaft for supplying heating gases to said segmental heating chambers, said inner walls being rovideol with inlet and outlet openings which establish communication between said combus'tion shaft and said segmental heating chambers, bafies in the segmental heating chambers for guiding the heating gases in opposite directions in adjacent superposed rings of heating chambers and 'a casing surrounding said structural unit.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Organic Chemistry (AREA)
  • Working-Up Tar And Pitch (AREA)
  • Furnace Details (AREA)

Description

Dec. 3, 1929. J. PLASSMANN 1,737,681
RETORT FOR CARBONIZING BITUMINOUS FUELS Filed June 14, 1926 2 Sheets-Sheet 1 IN VEN TOR. cI P/assmann ATTORNEYS. v
Dec. 3, 1929. PLASSMANN 1,737,681
RETORI' FOR CARBONIZING BITUMINOUS FUELS Filed June 14, 1926 2 Sheets-Sheet 2 Y INVENTOR. JP/assmamy A TTORNEYS;
Patented Dec. 3, 1929 UNITED STATES PATENT oFFicE J'OSEF PLASSMANN, OF DUISBURG, GER-MANY, ASSIGNOR TO CHEMISCfH-TFCHNISCHE GESELLSCHAFT M. B. H., 015 DUISBURG, GERMANY RETORT FOR CARBONIZING BITUMINOUS FUELS Application filed June 14, 1926, Serial No. 115,935, and in Germany June 30, 1925.
This invention relates to a retort for carbonizing bituminous fuel and represents an improvement in regard to the carbonizing and heating chambers shown and described in my Patent No. 1,671,448, May 29, 1929, filed July 10, 1925.
In several cases especially when the operation of retorts for carbonizing bituminous fuels, is to be effected with high temperatures, the annular carbonizing chambers of the retort, must be made of strongly refractory material, for instance ceramic material. The possibility of producing such a retort is based on the particularity of the hereinafter described construction, in which the annular carbonizing chambers of the retort are composed of segment bodies made of refractory material, the said segment bodies being preferably superposed in rows with the segments of each row offset with respect to the segments of the rows above and below it. As it is possible to subject such an annular chamber retort made of ceramic material to comparatively high temperatures, said retort can be employed for the production of coke and gas in gas generating plants and further for the production of blast furnace coke. In the same manner such a retort can be used for the roasting of ore or similar heating processes. In the production of carbonized gas coke, or of gas coke in gas generating plants, highly heated water-steam can be added to the coke by means of suitable devices, before the coke leaves the retort, in order to increase the final output of gas.
In the accompanying drawing, in which one form of construction of my improved carbonizing retort is illustrated as example,
Figure 1 is a vertical section through the carbonizing retort,
Figure 2 is a horizontal cross section through thesame, the left-hand side being a section along the line 3-3 of Figure 1 and the right-hand side a section along the line 2-2 of Figure 1.
from a vertical supply container 25 into the carbonizing chambers 14, which are wholly independent of each other. Each worm is located in a separate casing and is rotated by means of bevel gears 26 from a shaft 27 which in turn is driven through bevel gears 28 by a motor 29. The shaft 27 also turns the casing 20 through the intermediary of gearing. On the shaft 27 is fixed a worm 91 which meshes with a worm wheel 92 fixed on a shaft 93, the bottom end of the shaft 27 resting in a footstep bearing 90. On the shaft 93 is also fixed a worm 193 which meshes with a worm wheel 94 fixed on a shaft 95 which at its left hand end is journalled in a bearing 97 and at its right hand end in a bearing 96, both of which bearings are fixed to the casing 20. On the shaft 95 is also fixed a gear pinion 98 which meshes with a circular rack 31 surrounding the retort concentrically and fixed to the foundation 22 of the retort. By this means, when the shaft 27 rotates, the pinion 98 rolls upon the circular rack 31 and drives the casing 20. To each worm casing is attached a scraper 32 which removes the coke from the respective carbonizing chamber 14, the coke being conveyed to breaking worms 33 which crush the largerpieces of coke and convey the whole of the coke into the discharge hopper 34.
The construction of the parts described up to now, with the exception of the carbonizing and heating chambers, is substantially the same as that described in the specification 'of my Patent No. 1,671,448, May 28, 1929. According to the present invention, however, the carbonizing and heating chambers are formed in a central assembly of separate segments 2 made of ceramic material, said segwhen the latter are assembled, form t e com bustion shaft 5, each segment comprising a shallow portion forming the heating .chambers 1 and a deeper portion of smaller radius nozzle 10. The remainder of the gases in so in which the heating passages 3, 4 are formed, the segments being provided with partitions or balfie walls for guiding the heating gases in opposite directions in adjacent superposed rings of heating chambers.
The heating gases are introduced into the retort through a burner 18 arranged in the bottom of the shaft 5 and flow through a nozzle 10 above which is arranged a heat equalizing accumulator 6 of lattice'd chamotte stones, through which the gases pass on their way to the upper part of the shaft. Above the accumulator 6, apertures 7 in the walls 201 of the uppermost rows of segments establish open communication between the shaft 5 and the heating passages 4 so as to enable the heating gases to pass into the heating chambers 1. The purpose of the heat equalizing accumulator is to smooth out or neutralize fluctuations in the temperature of the heating gases from the burner 18. From the passages 4 the gases are conducted in the direction of the arrows through the circular chamber segments 2 to the heating channels 3 and from there into the annular space 8 at the bottom of the retort. The guiding of the gases within the segments 2 is effected by the bafie walls therein in such a manner,
that in the superposed segment rings the gases are conducted in alternate directions through the segment heating chambers.
From the annular space 8 a portion of the gases is led to the nozzle 10 by apertures 9 and then enters the shaft 5 again in order to be conducted through the heat equalizing accumulator 6 again to the apertures 7 and the heating passages 4. The heating gases.
are drawn into the combustion shaft 5 by the injector action of the hot gases issuing from the burner 18 "in conjunction with the the annular space 8 is allowed to escape from the retort through the outlet passage 19. The upper part of the shaft 5 is closed by means of a cover 11. The uppermost ring is insulated by means of the heat insulating material 12 and 13, which at the same time tightly covers the joints between the separate segments. The fuel is held in position in the carbonizing chambers 14 by means of the rings 15, fixed to the casing 20 by means of holders 151. Above the annular space 8 the cover plate 16 is provided, which has an aper-' ture 17 through which the gases enter from the heating channels 3 into the annular space 8.
The gases generated during the coking of bination a structural unit comprising an assembly of a plurality of segmentsmade of refractory material, having a hollow portion of reduced radius and a hollow portion of larger radius and capable when assembled of forming a set of alternately superposed annular carbonizing chambers and se mental heating chambers, the former being 0 osed at their inner end and wholly independent of each other, said segments having inner walls which form a central vertical combustion shaft, a casing surrounding said structural unit, said inner walls being provided with openings which establish communication between said combustion shaft and said segmental heating chambers.
2. A carbonizing retort comprising in combination a structural unit comprisin an assembly of a plurality of se ments ma eof refractory material oflset wit respect to one another, having a hollow portion of reduced radius and a hollow portion of larger radius and capable when assembled of forming a set of alternately superposed annular carbonizing chambers and segmental heating chambers, the'former being closed at their inner end and wholly independent of each other, said segments having inner walls which form a central vertical combustion shaft, a burner in said combustion shaft for supplying heating gases to said segmental heating chambers, said inner walls being rovideol with inlet and outlet openings which establish communication between said combus'tion shaft and said segmental heating chambers, bafies in the segmental heating chambers for guiding the heating gases in opposite directions in adjacent superposed rings of heating chambers and 'a casing surrounding said structural unit.
3. A carbonizing retort as set forth in claim 1, and having a burner in the combustion shaftand a heat equalizing accumulator in said combustion shaft above said burner com prising an assembly of latticed refractory bricks through which the whole of the heating gases from the burner are capable of belng passed, as and for the purpose set forth.
a I In testimony whereof I amx my signature.
JOSEF PLASSMANN.
US115935A 1925-06-30 1926-06-14 Retort for carbonizing bituminous fuels Expired - Lifetime US1737681A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2424765A (en) * 1942-10-06 1947-07-29 Stewart Warner Corp Hot-air heater having means to recirculate cooled gases
US2576228A (en) * 1949-07-30 1951-11-27 Universal Oil Prod Co Autothermic cracking reactor
US2857961A (en) * 1954-07-13 1958-10-28 Brown Fintube Co Oil burners
US2918117A (en) * 1956-10-04 1959-12-22 Petro Chem Process Company Inc Heavy fuel burner with combustion gas recirculating means

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2424765A (en) * 1942-10-06 1947-07-29 Stewart Warner Corp Hot-air heater having means to recirculate cooled gases
US2576228A (en) * 1949-07-30 1951-11-27 Universal Oil Prod Co Autothermic cracking reactor
US2857961A (en) * 1954-07-13 1958-10-28 Brown Fintube Co Oil burners
US2918117A (en) * 1956-10-04 1959-12-22 Petro Chem Process Company Inc Heavy fuel burner with combustion gas recirculating means

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