US2621151A - Coal and the like - Google Patents

Coal and the like Download PDF

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US2621151A
US2621151A US13986A US1398648A US2621151A US 2621151 A US2621151 A US 2621151A US 13986 A US13986 A US 13986A US 1398648 A US1398648 A US 1398648A US 2621151 A US2621151 A US 2621151A
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layer
zones
conveyed
grate
gases
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US13986A
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Carlsson Fredrik
Eklund Elis Anton
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INGENIORSBYRAN FREDCA AB
INGENIORSBYRAN FREDCA AKTIEBOL
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INGENIORSBYRAN FREDCA AKTIEBOL
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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
    • C10B7/06Coke ovens with mechanical conveying means for the raw material inside the oven with endless conveying devices
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S208/00Mineral oils: processes and products
    • Y10S208/951Solid feed treatment with a gas other than air, hydrogen or steam

Definitions

  • distillation gases and the water vapours developed in the process are brought into circulation repeatedly through heating means in which they are heated and then, principally in vertical. direction, through the penetrable material, which in this way is heated to the temperature required.
  • the heating means or heating elements may consist of a number of pipes arranged in the longitudinal direction of the tunnel through which pipes hot gases e. g. combustion gases flow, Whereas the distillation gases circulate between and around said pipes,
  • the thickness of the layer of material which the heating gases have to pass will be the same in diierent sections of the tunnel.
  • the heat transfer to the material depends upon the temperature diif'erence between the material and the combustion gases for which reason it is advantageous thatv these gases have a high temperature
  • the heating elements only withstand a certain temperature there is a'limit to which they can be heated.
  • the power consump tion will be decreased in those parts of the tunnel where from operational point of View it is advantageous to use a thinner layer of material.
  • the present invention relates also to an arrangement for regulating the thick-ness of ⁇ the layer of material when the material is trans'- ported through the tunnelin principally horizontaldirec'tion on a perforated travelling carrier',V which arrangement is characterized thereby that the' travelling grate consists of two or more sepa-- rat'ely driven parts', placed one after another, for the purpose of being able to yfeed for-Ward. the dfinvention, applied between the grate and the feed hopper, from which the material is continuously charged on the grate at the entrance end of the tunnel.
  • the thickness of the material on the different grates is regulated. If the thickness on the grate flowing from the hopper in separate streams. i It has been proved that with a suitable space between the guide plates in relation to the size of the material a great deal of the flat pieces take a substantially vertical position on the grate whereby the resistance against the gas circulation will be considerably less than if the flat pieces take a horizontal position. At the transfer of the material from the discharge end of one of the grate parts to the charging end of the next part such guide plates are also applied.
  • FIG. 1 a dry distillation apparatus arranged according to the invention is illustrated in a vertical longitudinal section in Figure l, in plan in Figure 2 and in a section on the line III-III ( Figure 1) in Figure 3.
  • Figures 4-8 illustrate details of arrangements, made in order to prevent at the dry distillation of material consisting of flat pieces these pieces to take a substantially horizontal position on the grate.
  • the apparatus consists of an elongated tunnel through which the material is transported on the endless grates A, B, C, which are driven by the motors A1, B1, C1, D is the distillation chamber.
  • heating elements E are arranged, preferably one for each grate and consisting of a number of pipes, through which hot gases e. g. combustion gases flow. Under the action of the fans F' the distillation gases circulate repeatedly through the material on the grates and between and around the pipes.
  • the heating elements may also be constructed in such a way that the distillation gases pass through the pipes and the hot 4gases between and around them.
  • the heating elements may also be placed at the bottom of the distillation chamber D under the grate or at the side of the distillation chamber D, in which case conduits connecting the distillation chamber D and the heating elements suitably one conduit for each fan, are arranged.
  • distribution chambers Gi, G2 and G3 arranged in which hot gases from the replaces H1, Hz and H3 enter through the pipings Ii, I2 and I3. Having passed the pipes E the hot gases are drawn from the collecting chambers K1, K2 and K3 by the fans L1, L2 and L3.
  • the gaseous products formed in the distillation process pass out through the outlets M for condensation and further treatment.
  • the material which is to be distilled is raised by the bucket elevator N into the feed hopper O, from which it is charged on the same at the movement of the grate A.
  • the thickness of the material on the grate can be regulated.
  • the material is transported to the discharge A, for instance, is 400 mm. and the grate is running with a velocity of 225 mm./min., whereas thevelocity of the 'grate B is 450 mm./min.
  • the feed hopper O is at the lower end provided with partitions or guide plates S which divide the material falling downwards in separate streams, whereby the ilat sides of the material is prevented to take substantially horizontal positions on the grate.
  • the arrangement is illustrated in Figures 4 6.
  • Fig. 4 shows a vertical section through the feed hopper.
  • Fig. 5 is a section on the line V--V, and
  • Fig. 6 a section on the line VI-VI (Fig. 4).
  • a process for dry distillation of bituminous oil shale, coal, brown coal and other carbonaceous material, which is conveyed through a tunnel oven at the same time as the distillation gases are forced, after heating, to circulate right through the material which includes the steps of continuously conveying layers of carbonaceous material through three zones formed in the oven, varying the speed of conveyance of each layer through the zones so that the layer being conveyed through the second of said zones will be conveyed at a speed higher than that of the layer being conveyed through the first of said zones and the layer being conveyed through the third zone will be conveyed at a speed lower than that of the layer being conveyed through the second of said zones and thus also automatically varying the thickness of the layers in each zone so that the layer in the second of said zones will be of a thickness less than that of the layer in the first of said zones ⁇ and the layer in the third of said zones will be of a thickness greater than that of the layer in the second of said zones, such variance of the speed of conveyance and thickness of
  • a process according to claim 1 further including the steps of arranging the carbonaceous material in the layers so that the at pieces thereof are arranged in a substantially vertical position in order to reduce the resistance of gases circulating therethrough.
  • An apparatus for dry distillation of bituminous oil shale, coal, brown coal and other carbonaceous material which comprises an elongated oven, three independent perforated movable grates spaced from each other and arranged in the oven for conveying the carbonaceous material therethrough, means for circulating distillation gases through the carbonaceous material as the material is being conveyed through the oven, means in said oven for heating the carbonaceous material and means for feeding carbonaceous material to a first movable grate, means for driving said rst grate at a predetermined speed, means for driving the second grate at a speed higher than that of the rst grate and means for driving the third grate at a speed lower than that of the second grate.
  • An apparatus as set forth in claim 3 further comprising means positioned adjacent said feeding means for dividing the material being fed to one of said grates n separate streams.
  • An apparatus as set forth in claim 3 further comprising means adjacent said feeding means for causing the flat pieces of carbonaceous material to take a substantially vertical position on said first movable grate.
  • An apparatus as set forth in claim 3 further comprising a plurality of sets of vertical guide plates, one of said guide plates being positioned adjacent said feeding means and another set being positioned adjacent a second movable grate, said sets of guide Plates dividing the material on said gates in separate streams.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Organic Chemistry (AREA)
  • Coke Industry (AREA)

Description

@ea 9, E952 F. CARLSSQN ET Al.
COAL AND THE LIKE 2 SHEETS-SHEET l Filed March l0, 1948 AGENTS M mm NM E Vm mA C M D M F SC 9 3952 F. cARLssoN ET'AL 262l9151 COAL AND THE LIKE Filed March 10, 1948 2 SHEETS- SHEET 2 AGFA/Ts y Patented Dec. 9, 1 952 .i :.ji
conn AND TH- une Fredrik C-arlsson, Stockholm, and Elis Anton Eklund, Appelviken,` near Stockholm, Sweden, assignors to Ingeniorsbyran Fredca Aktiebolag,
Stockholm, Sweden Application March 1.0, 1948, Serial No. 13,986 In Sweden May 27, l1947 6 Claims.v (C1. mi2-15) For the dry distillation of bituminous oil shale, coal, browncoal and other carbonaceous mate rial are often used tunnel ovens, through which the material consisting of lumps and therefore penetrable by gases, is transported on a travelling carrier consisting of separate cars provided with perforated bottoms or of an endless chaingrate passing round rollers or the like with a constant velocity through the tunnel, whichat both ends is shut oi from the atmosphere. The material is charged at one end of the grate and discharged at the other end through a suitable trapping device, preventing the air to enter in the tunnel.-
For the heating of the material the distillation gases and the water vapours developed in the process are brought into circulation repeatedly through heating means in which they are heated and then, principally in vertical. direction, through the penetrable material, which in this way is heated to the temperature required.
The heating means or heating elements may consist of a number of pipes arranged in the longitudinal direction of the tunnel through which pipes hot gases e. g. combustion gases flow, Whereas the distillation gases circulate between and around said pipes,
Whether the material is transported. through the tunnel on cars or on a chaingratethe thickness of the layer of material which the heating gases have to pass will be the same in diierent sections of the tunnel.
The heat transfer to the material depends upon the temperature diif'erence between the material and the combustion gases for which reason it is advantageous thatv these gases have a high temperature,
As the heating elements only withstand a certain temperature there is a'limit to which they can be heated.
By conveying the heating gases, at the feed end of the tunnel, in the same direction as the material, which on account of its moisture and `low temperature has a strong cooling effect on the circulating distillation gases and therefore onthe heating elements it is permissible to admit the combustion gases here at a temperature of SGO-900 C. In this section of the tunnel it is therefore possible to Work with a thick layer of material, which is an advantage as the temperature of the distillation` gases'will decreasel considerably when passing through the material for which reason the gases will absorb a higher amount of heat when passing the elements. Further in the tunnel where the temperature of the material has risen, itis necessaryy on account of reasons mentioned above, to decrease the tem-` perature of the combustion gases. According to the present invention it is suggested to work withY a thinner layer of the material in this section ot the tunnel whereby a more rapid and even heat--v ing is obtained. v
When distilling a material with a relatively high content of bitumen the material at a temperature of 27o-306 C. is transformed into asticky mass which oi course diminishes the permeability and hampers the heating.V
When. working at this stage of the process with a thick layer of material which is heated byhot distillation gases ascending from below, whereby the upper part of the layer will be considerably cooler than the lower part, the distillation products formed in the lower part will condense higher up and hamper or prevent the passage of the distillation gases and. the carrying outl of the proc ess. If according to the present invention a thinner layer is used, this inconvenience will. not arise, as there will be only a, small temperature difference in the different courses of the layer,
When the main part of the oil products has been expelled, there is no more risk of such a condensation. At this stage the material is to be heatedto the final temperature, 475-5666 C. in order to expel the last remaining part off the oil.` The temperature of the surface of the material isnow slightly below the final temperature for which reason the temperature of the combustion gases must be kept relatively low, as otherwise the heating elements will be exposed to a toc high temperature. The transfer of heat tothe inner parts of the material takes place only by con duction and as the conductivity of the materiall in general is low, a considerable time is required in order to heat the material thoroughly, for which reason it is suggested according to the pres ent invention to work again in this section of the tunnel with a thicker layer of material.
Byworking with a thi-nner layer of material in some sections of the tunnel, the power consump tion will be decreased in those parts of the tunnel where from operational point of View it is advantageous to use a thinner layer of material.
The present invention relates also to an arrangement for regulating the thick-ness of` the layer of material when the material is trans'- ported through the tunnelin principally horizontaldirec'tion on a perforated travelling carrier',V which arrangement is characterized thereby that the' travelling grate consists of two or more sepa-- rat'ely driven parts', placed one after another, for the purpose of being able to yfeed for-Ward. the dfinvention, applied between the grate and the feed hopper, from which the material is continuously charged on the grate at the entrance end of the tunnel. These guide plates divide the material end of the grate and falls down on the charging end of the grate B, from which it is transported in the same way to the grate C, from the discharge end of which the distilled material is moved through the trapping device R. The drawing shows the different grates horizontal and stepped in relation to each other, but they may also be arranged gently sloping so that the discharge end of the last grate is on the same level as the charging end of the rst grate.
By running the grates at different velocities the thickness of the material on the different grates is regulated. If the thickness on the grate flowing from the hopper in separate streams. i It has been proved that with a suitable space between the guide plates in relation to the size of the material a great deal of the flat pieces take a substantially vertical position on the grate whereby the resistance against the gas circulation will be considerably less than if the flat pieces take a horizontal position. At the transfer of the material from the discharge end of one of the grate parts to the charging end of the next part such guide plates are also applied.
In the accompanying drawings a dry distillation apparatus arranged according to the invention is illustrated in a vertical longitudinal section in Figure l, in plan in Figure 2 and in a section on the line III-III (Figure 1) in Figure 3. Figures 4-8 illustrate details of arrangements, made in order to prevent at the dry distillation of material consisting of flat pieces these pieces to take a substantially horizontal position on the grate.
The apparatus consists of an elongated tunnel through which the material is transported on the endless grates A, B, C, which are driven by the motors A1, B1, C1, D is the distillation chamber. Above the grates, in the distillation chamber heating elements E are arranged, preferably one for each grate and consisting of a number of pipes, through which hot gases e. g. combustion gases flow. Under the action of the fans F' the distillation gases circulate repeatedly through the material on the grates and between and around the pipes. The heating elements may also be constructed in such a way that the distillation gases pass through the pipes and the hot 4gases between and around them. The heating elements may also be placed at the bottom of the distillation chamber D under the grate or at the side of the distillation chamber D, in which case conduits connecting the distillation chamber D and the heating elements suitably one conduit for each fan, are arranged. For the supply of hot gases to the different heating elements are distribution chambers Gi, G2 and G3 arranged in which hot gases from the replaces H1, Hz and H3 enter through the pipings Ii, I2 and I3. Having passed the pipes E the hot gases are drawn from the collecting chambers K1, K2 and K3 by the fans L1, L2 and L3. The gaseous products formed in the distillation process pass out through the outlets M for condensation and further treatment.
`The material which is to be distilled is raised by the bucket elevator N into the feed hopper O, from which it is charged on the same at the movement of the grate A. By means of the sliding plate P the thickness of the material on the grate can be regulated. At the movement of the grate the material is transported to the discharge A, for instance, is 400 mm. and the grate is running with a velocity of 225 mm./min., whereas thevelocity of the 'grate B is 450 mm./min. the thickness of the material on the latter will be The feed hopper O is at the lower end provided with partitions or guide plates S which divide the material falling downwards in separate streams, whereby the ilat sides of the material is prevented to take substantially horizontal positions on the grate. The arrangement is illustrated in Figures 4 6. Fig. 4 shows a vertical section through the feed hopper. Fig. 5 is a section on the line V--V, and Fig. 6 a section on the line VI-VI (Fig. 4).
Having now particularly described the nature of our invention and the manner of its operation what we claim is:
1. A process for dry distillation of bituminous oil shale, coal, brown coal and other carbonaceous material, which is conveyed through a tunnel oven at the same time as the distillation gases are forced, after heating, to circulate right through the material, which includes the steps of continuously conveying layers of carbonaceous material through three zones formed in the oven, varying the speed of conveyance of each layer through the zones so that the layer being conveyed through the second of said zones will be conveyed at a speed higher than that of the layer being conveyed through the first of said zones and the layer being conveyed through the third zone will be conveyed at a speed lower than that of the layer being conveyed through the second of said zones and thus also automatically varying the thickness of the layers in each zone so that the layer in the second of said zones will be of a thickness less than that of the layer in the first of said zones `and the layer in the third of said zones will be of a thickness greater than that of the layer in the second of said zones, such variance of the speed of conveyance and thickness of the layers being made in accordance with the conditions of the carbonaceous material in the zones.
2. A process according to claim 1 further including the steps of arranging the carbonaceous material in the layers so that the at pieces thereof are arranged in a substantially vertical position in order to reduce the resistance of gases circulating therethrough.
3. An apparatus for dry distillation of bituminous oil shale, coal, brown coal and other carbonaceous material which comprises an elongated oven, three independent perforated movable grates spaced from each other and arranged in the oven for conveying the carbonaceous material therethrough, means for circulating distillation gases through the carbonaceous material as the material is being conveyed through the oven, means in said oven for heating the carbonaceous material and means for feeding carbonaceous material to a first movable grate, means for driving said rst grate at a predetermined speed, means for driving the second grate at a speed higher than that of the rst grate and means for driving the third grate at a speed lower than that of the second grate.
4. An apparatus as set forth in claim 3 further comprising means positioned adjacent said feeding means for dividing the material being fed to one of said grates n separate streams.
5. An apparatus as set forth in claim 3 further comprising means adjacent said feeding means for causing the flat pieces of carbonaceous material to take a substantially vertical position on said first movable grate.
6. An apparatus as set forth in claim 3 further comprising a plurality of sets of vertical guide plates, one of said guide plates being positioned adjacent said feeding means and another set being positioned adjacent a second movable grate, said sets of guide Plates dividing the material on said gates in separate streams.
FREDRIK CARLSSON. ELIS ANTON EKLUND.
REFERENCES CITED The following references are of record in the le of this patent:
Number Number 6 UNITED STATES PATENTS Name Date Richards et al. Nov. 8, 1910 Stuart Mar. 14, 1916 Juhlke Mar. 23, 1920 Strong July 17, 1923 Preis July 6, 1926 Grondal et al Mar. 10, 1931 Sewell Apr. 26, 1932 Hereng May 23, 1933 Hereng Oct. 30, 1934 Karrick May 2, 1935 Smith May 28, 1935 Milmoe Feb. 13, 1940 Johannson Jan. 6, 1942 Stephens Nov. 14, 1944 FOX Sept. 3, 1945 Hui July 17, 1951 Hyslop Dec. 11, 1951 FOREIGN PATENTS Country Date Norway Feb. 9, 1920 France Nov. 3, 1937 Great Britain Nov. 21, 1940

Claims (1)

1. A PROCESS FOR DRY DISTILLATION OF BITUMINOUS OIL SHALE, COAL, BROWN COAL AND OTHER CARBONACEOUS MATERIAL, WHICH IS CONVEYED THROUGH A TUNNEL OVEN AT THE SAME TIME AS THE DISTILLATION GASES ARE FORCED AFTER HEATING TO CIRCULATE RIGHT THROUGH THE MATERIAL, WHICH INCLUDES THE STEPS OF CONTINUOUSLY CONVEYING LAYERS OF CARBONACEOUS MATERIAL THROUGH THREE ZONES FORMED IN THE OVEN, VARYING THE SPEED OF CONVERGANCE OF EACH LAYER THROUGH THE ZONES SO THAT THE LAYER BEING CONVEYED THROUGH THE SECOND OF SAID ZONES WILL BE CONVEYED AT A SPEED HIGHER THAN THAT OF THE LAYER BEING CONVEYED THROUGH THE FIRST OF SAID ZONES AND THE LAYER BEING CONVEYED THROUGH THE THIRD ZONE WILL BE CONVEYED AT A SPEED LOWER THAN THAT OF THE LAYER BEING CONVEYED THROUGH THE SECOND OF SAID ZONES AND THUS ALSO AUTOMATICALLY VARYING THE THICKNESS OF THE LAYERS IN EACH ZONE SO THAT THE LAYER IN THE SECOND OF SAID ZONE WILL BE OF A THICKNESS LESS THAN THAT OF THE LAYER IN THE FIRST OF SAID ZONES AND THE LAYER IN THE THIRD OF SAID ZONES WILL BE OF A THICKNESS GREATER THAN THAT OF THE LAYER IN THE SECOND OF SAID ZONES, SUCH VERIANCE OF THE SPEED OF CONVEYANCE AND THICKNESS OF THE LAYERS BEING MADE IN ACCORDANCE WITH THE CONDITIONS OF THE CARBONACEOUS MATERIAL IN THE ZONES.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3432397A (en) * 1965-02-23 1969-03-11 Clyde H O Berg Method of retorting solids
US3449211A (en) * 1967-04-28 1969-06-10 Sun Oil Co Apparatus for pyrolysis of solids
US11148322B2 (en) * 2016-03-08 2021-10-19 Veegoo Technology Co., Ltd. Material distribution apparatus and method of preparing artificial stone plate using the same

Citations (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US974919A (en) * 1910-06-10 1910-11-08 Richard Sloane Richards Apparatus for the distillation of coal and the recovery of the products.
US1175190A (en) * 1915-10-20 1916-03-14 Francis Lee Stuart Conveyer-belt.
US1334761A (en) * 1919-07-16 1920-03-23 Juhlke Harry Grain-cleaning sieve
US1462023A (en) * 1920-07-20 1923-07-17 William M Strong Oil-shale retoet
US1591683A (en) * 1923-01-06 1926-07-06 American Can Co Drying oven
US1796264A (en) * 1926-10-07 1931-03-10 Patentaktiebolaget Grondal Ram Oven for dry distillation of shales and the like
US1855950A (en) * 1925-05-06 1932-04-26 Charles W Sewell Apparatus for the carbonizing of briquettes
US1906755A (en) * 1928-06-19 1933-05-02 Lewis C Karrick Method of improving the properties of solid fuel by low-temperature carbonization
US1909956A (en) * 1928-11-08 1933-05-23 Hereng Alfred Jean Andre Process of coal distillation
US1978945A (en) * 1928-12-11 1934-10-30 Hereng Alfred Jean Andre Apparatus for the distillation of coal
US2002720A (en) * 1933-04-13 1935-05-28 Russell M Smith Apparatus for drying sheet material
FR824025A (en) * 1936-10-10 1938-01-31 Continuous apparatus for fractional distillation and carbonization of fuels
US2190620A (en) * 1937-02-15 1940-02-13 Redington Co F B Article feeding mechanism
GB529483A (en) * 1939-01-19 1940-11-21 Industrimetoder Ab Improvements in or relating to apparatus for dry distillation of shale, coal or like material
US2269025A (en) * 1939-12-01 1942-01-06 Johansson Edvin Andreas Dry distillation of shale and other slate-shaped materials
US2362677A (en) * 1941-10-30 1944-11-14 Wingfoot Corp Conveyer system
US2406822A (en) * 1942-02-20 1946-09-03 Vernie A Fox Control system and mechanism for heat processing machines
US2560767A (en) * 1946-03-22 1951-07-17 Universal Oil Prod Co Distillation of carbonaceous solids
US2578357A (en) * 1949-06-18 1951-12-11 Consolidation Coal Co Method for treating granular solids

Patent Citations (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US974919A (en) * 1910-06-10 1910-11-08 Richard Sloane Richards Apparatus for the distillation of coal and the recovery of the products.
US1175190A (en) * 1915-10-20 1916-03-14 Francis Lee Stuart Conveyer-belt.
US1334761A (en) * 1919-07-16 1920-03-23 Juhlke Harry Grain-cleaning sieve
US1462023A (en) * 1920-07-20 1923-07-17 William M Strong Oil-shale retoet
US1591683A (en) * 1923-01-06 1926-07-06 American Can Co Drying oven
US1855950A (en) * 1925-05-06 1932-04-26 Charles W Sewell Apparatus for the carbonizing of briquettes
US1796264A (en) * 1926-10-07 1931-03-10 Patentaktiebolaget Grondal Ram Oven for dry distillation of shales and the like
US1906755A (en) * 1928-06-19 1933-05-02 Lewis C Karrick Method of improving the properties of solid fuel by low-temperature carbonization
US1909956A (en) * 1928-11-08 1933-05-23 Hereng Alfred Jean Andre Process of coal distillation
US1978945A (en) * 1928-12-11 1934-10-30 Hereng Alfred Jean Andre Apparatus for the distillation of coal
US2002720A (en) * 1933-04-13 1935-05-28 Russell M Smith Apparatus for drying sheet material
FR824025A (en) * 1936-10-10 1938-01-31 Continuous apparatus for fractional distillation and carbonization of fuels
US2190620A (en) * 1937-02-15 1940-02-13 Redington Co F B Article feeding mechanism
GB529483A (en) * 1939-01-19 1940-11-21 Industrimetoder Ab Improvements in or relating to apparatus for dry distillation of shale, coal or like material
US2269025A (en) * 1939-12-01 1942-01-06 Johansson Edvin Andreas Dry distillation of shale and other slate-shaped materials
US2362677A (en) * 1941-10-30 1944-11-14 Wingfoot Corp Conveyer system
US2406822A (en) * 1942-02-20 1946-09-03 Vernie A Fox Control system and mechanism for heat processing machines
US2560767A (en) * 1946-03-22 1951-07-17 Universal Oil Prod Co Distillation of carbonaceous solids
US2578357A (en) * 1949-06-18 1951-12-11 Consolidation Coal Co Method for treating granular solids

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3432397A (en) * 1965-02-23 1969-03-11 Clyde H O Berg Method of retorting solids
US3449211A (en) * 1967-04-28 1969-06-10 Sun Oil Co Apparatus for pyrolysis of solids
US11148322B2 (en) * 2016-03-08 2021-10-19 Veegoo Technology Co., Ltd. Material distribution apparatus and method of preparing artificial stone plate using the same

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