US1756969A - Coal-carbonizing apparatus for the extraction of bituminous materials - Google Patents

Coal-carbonizing apparatus for the extraction of bituminous materials Download PDF

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US1756969A
US1756969A US173339A US17333927A US1756969A US 1756969 A US1756969 A US 1756969A US 173339 A US173339 A US 173339A US 17333927 A US17333927 A US 17333927A US 1756969 A US1756969 A US 1756969A
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chamber
coal
extraction
carbonizing apparatus
bituminous materials
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US173339A
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Bergfeld Karl
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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
    • C10B1/00Retorts
    • C10B1/02Stationary retorts
    • C10B1/04Vertical retorts

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  • the internal combustion furnace is now built centrally and directly underneath the vertical distillation chamber, so that the hood of the internal combustion furnace fits in the said chamber and the combustion gases pass'out from the centre to the sides and then to the top in a uniform manner through the material being.
  • the internal combustion furnace is thereby arranged in such a manner that the cold gas to be added to the combustion gases for obtaining'the temperature necessary for the distillation process circulates round the walls of the internal combustion furnace before it is mixed with them. This arrangement of the internal combustion furnace eliminates any loss through radiation.
  • Tlhrougb the nozzles 2 and 3 combustible ai and ter the chamber 4, in which combustion lies place.
  • the waste or smoke enters through the pipe 5 into the air nular chamber 3, circulates round the combustion chamber and is mixed in the mixing with the combustion gases from chamber '4.
  • Thisdistillation means consisting of the combustion gases and the supplementary gas, then enters, through the apertures 8 of the'hood 9, into the vertical distillation chamber 10, is loaded withdistillation gas, on passing through the material being treated, and makes its exit through the gas conduit 20.
  • the coke outlet passage is a hopper 2under which is a lowry 24 into which the cooled coke falls.
  • the coke cooling occurs in the following manner: A cooling gas, for instance a portion of the cold residue gas, enters'through the conduit 11, between the internal combustion furnace and the rotary bottom 13, through the slots 25 formed between the projection 12 on the internal combustion furnace and the rotary bottom, another part enters through the conduit 14 and the chamber 15 through the coke in the coal carbonizing apparatus and then also rises upwardly as combustion gases through the shaft.
  • the coke is carried away by the rotary bottom 13, which rotates on the ball or roller bearings 21, into a basin 16 which also rotates on the bearing 22, from which basin the coke is pressed out by means of an iron plate 17 inclined contrary tolthe direction of revolution of bottom 13 and is 18 into a lowry 24 standing below.
  • the coal supply to the carbonizing apparatus is made through a filler hopper mechanism 19 of known construction.
  • a coal carbonizing apparatus for the ticai distillation chamber; an internal combustion furnace disposed axially of and beneath the said chamber; an annular chamber, surrounding the Walls of said internal combustion furnace for receiving sup lementary gas before mixing With the com ustion gases; a mixing chamber receiving the combustion and supplementary gas; and a perforated hood on the mixing chamber extend ing upwardly into the distillation chamber.
  • a rotary substantially conical shaped bottom for said distillation chamber surrounding the mixing chamber, an annularbasin receiving the discharge of the rotary bottom; means for emptying the basin; and means for passing cooling ga/ses upwardly into the distillation chamber adjacent the upper and lower faces of the rotary bottom.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)

Description

' May 6, 1930. K. BERGYFELD 1,756,969
COAL CARBONIZING APPARATUS FOR THE EXTRACTION OF BITUMINOUS MATERIALS Filed March '7, 1927 3- SUPPLEMENTARY 60s I/YvENTok': W m I ,A'I'TOR I 3:
Patented May 6, l93
fiTATES KARL IBERGFEIII), OF BERLIN GERMANY COAL-CARBOIVIZING APPARATUS FOR THE EXTRACTION BITUMINOUS MATERIALS Application filed March 7, 1927, Serial No. 173,339, and. in Germany November 30, 1923.
In the extraction of bituminous materials with hot neutral gases, internal combustion furnaces are frequently used, in which a gas is burned, the exhaust products of which serve as'a means for distillation, i. e., combustion gases. These internal combustion furnaces are disposed next to, underneath or 1n the vertical distillation chamber. These devices all have the disadvantage however, in that the means for distillation or combustion gases, in consequence of its admission to the vertical distillation chamber from the side, is not drawn through the material being treated in a uniform manner, which is a great disadvantage in the process of distillation.
According to the invention, the internal combustion furnace is now built centrally and directly underneath the vertical distillation chamber, so that the hood of the internal combustion furnace fits in the said chamber and the combustion gases pass'out from the centre to the sides and then to the top in a uniform manner through the material being.
treated; The internal combustion furnace is thereby arranged in such a manner that the cold gas to be added to the combustion gases for obtaining'the temperature necessary for the distillation process circulates round the walls of the internal combustion furnace before it is mixed with them. This arrangement of the internal combustion furnace eliminates any loss through radiation.
For this purpdsc a portion of the from which the tar has been separated is itself taken from the apparatus while another portion is also introducedinto the shaft as combustion gases through the hot residue from the material being treated, the heat of which it absorbs. Any other neutral gas available of course, quite as suitable for introducing as a supplementary gas.
In the drawing is shown a vertical section i'hrougi li a carbonizing apparatus.
Tlhrougb the nozzles 2 and 3 combustible ai and ter the chamber 4, in which combustion lies place. The waste or smoke enters through the pipe 5 into the air nular chamber 3, circulates round the combustion chamber and is mixed in the mixing with the combustion gases from chamber '4.
nozzles 2 and 8. -The quantityv of'supplementary gas is thus regulated in such a manner that the mixture has the temperature necessary for distillation. Thisdistillation means, consisting of the combustion gases and the supplementary gas, then enters, through the apertures 8 of the'hood 9, into the vertical distillation chamber 10, is loaded withdistillation gas, on passing through the material being treated, and makes its exit through the gas conduit 20. The coke outlet passage is a hopper 2under which is a lowry 24 into which the cooled coke falls. The coke cooling occurs in the following manner: A cooling gas, for instance a portion of the cold residue gas, enters'through the conduit 11, between the internal combustion furnace and the rotary bottom 13, through the slots 25 formed between the projection 12 on the internal combustion furnace and the rotary bottom, another part enters through the conduit 14 and the chamber 15 through the coke in the coal carbonizing apparatus and then also rises upwardly as combustion gases through the shaft. The coke is carried away by the rotary bottom 13, which rotates on the ball or roller bearings 21, into a basin 16 which also rotates on the bearing 22, from which basin the coke is pressed out by means of an iron plate 17 inclined contrary tolthe direction of revolution of bottom 13 and is 18 into a lowry 24 standing below.
The coal supply to the carbonizing apparatus is made through a filler hopper mechanism 19 of known construction.
It claim:
deposited through an adiustable funnel exit 1. In a coal carbonizing apparatus for the ticai distillation chamber; an internal combustion furnace disposed axially of and beneath the said chamber; an annular chamber, surrounding the Walls of said internal combustion furnace for receiving sup lementary gas before mixing With the com ustion gases; a mixing chamber receiving the combustion and supplementary gas; and a perforated hood on the mixing chamber extend ing upwardly into the distillation chamber.
3. In an apparatus as set forth in claim 2, a rotary substantially conical shaped bottom for said distillation chamber surrounding the mixing chamber, an annularbasin receiving the discharge of the rotary bottom; means for emptying the basin; and means for passing cooling ga/ses upwardly into the distillation chamber adjacent the upper and lower faces of the rotary bottom.
IQARL BERGFELD.
meaeee
US173339A 1923-11-30 1927-03-07 Coal-carbonizing apparatus for the extraction of bituminous materials Expired - Lifetime US1756969A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4407700A (en) * 1982-06-14 1983-10-04 Conoco Inc. Injector for calciner
US20140124353A1 (en) * 2011-06-21 2014-05-08 Commonwealth Scientific And Industrial Research Organisation Apparatus and process for continuous carbonisation of wood chips or wastes and other charring organic materials
US10364393B2 (en) 2011-06-23 2019-07-30 Commonwealth Scientific And Industrial Research Organisation Process and apparatus for continuous production of densified charcoal

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4407700A (en) * 1982-06-14 1983-10-04 Conoco Inc. Injector for calciner
US20140124353A1 (en) * 2011-06-21 2014-05-08 Commonwealth Scientific And Industrial Research Organisation Apparatus and process for continuous carbonisation of wood chips or wastes and other charring organic materials
US9598641B2 (en) * 2011-06-21 2017-03-21 Commonwealth Scientific And Industrial Research Organisation Apparatus and process for continuous carbonisation of wood chips or wastes and other charring organic materials
US10364393B2 (en) 2011-06-23 2019-07-30 Commonwealth Scientific And Industrial Research Organisation Process and apparatus for continuous production of densified charcoal

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