US2955991A - Apparatus for heating agglutinating coal - Google Patents

Description

Oct. 11, 1960 H. G. TUFTY 2,955,991

APPARATUS FOR HEATING AGGLUTINATING COAL Filed Feb. 24, 1955 2 Sheets-Sheet 1 INVENTOR 5 HAROLD G. Tl/FT) ATTORNEYS Oct. 11, 1960 H. G. TUFTY 2,955,991

APPARATUS FOR HEATING AGGLUTINATING COAL Filed Feb. 24, 1955 2 Sheets-Sheet 2 HARQLD G. TUFTY ddfi/a'wzij ATTORNEYS United States Patent Harold G. Tufty, Washington, D.C., assignor to Wood I Associates, Inc., Washington, D.C., a corporation of Delaware Filed Feb. 24, 1955, Ser. No. 490,208

4 Claims. (Cl. 202117) The present invention relates to a method and apparatus for producing furnace charging mixture of carbonaceous fuel With mineral materials as well as thelow temperature carbonization or coking of finely divided carbonaceous material. In metallurgical and similar operations, process carbon and other material have been individually measured and fed into furnaces, as for example in the production of calcium carbide and metallic zinc. The process carbon must be first prepared as by treating coal and during the heating of the coal for this purpose its plastic or agglutinating characteristics create considerable diificulty in handling the same while the coal is going through its plastic stage prior to coking and yielding of the volatiles it contains. Known low temperature carbonization procedures, attempting to overcome these difliculties by preoxidation of the coal or heating and holding the same before the plastic point is reached, have proved to be time consuming or reduced the commercial value of byproducts derived therefrom.

-The principal object of the present invention is to provide means whereby furnace charging'mixtures of process carbon and other desired material may be admixed in an efficient and continuous manner while carbonizing the carbonaceous material, collecting the volatiles therefrom and providing a sponge of carbon and admixed material ready for further processing or for introduction into a furnace.

A further and equally important object of the invention is to provide a low cost and efiicient means for the continuous preparation of coke or semi-coke by low temperature carbonization of coal by admixture with coke breeze or the like without utilizing additional heating media during the process.

. A still further and important object of the invention is the carbonizing of agglutinating coals upon an endless belt without the coal adhering to the belt and without utilizing additional heating means for the carbonizing process while at the same time forming an agglomeration of semi-coke which can be readily broken into pieces suitable for subsequent handling.

Further objects of the invention will be in part obvious and in part pointed out in the following detailed description of the methods employed and the accompanying drawings of apparatus suitable for carrying out such methods.

In the drawings: Fig. 1 is a top view of a circular retort which can be used to carry out the present invention.

Fig. 2 is a top view of a straight line retort for the present purpose. I

Fig. 3 is a cross-sectionalview taken on line 33 of Fig. 2 and of Fig. 5. Fig. 4 is a cross-sectional view taken on line 44 of Fig. 2 and of Fig. 5.

Fig. 5. is a schematic side view of a portion of the retort of Fig. 1 and of Fig. 2, with a side wall removed showing the apparatus for carrying out the present'in vention. I Fig. 6 is an enlarged end view of a roller forming part of the retort. Fig. 6a is a side view of said roller, and. t Fig. 7 is a schematic side view of an apparatus incor porating the retort of Fig. 1 or of Fig. 2 which retort likewise is shown with its side wall removed.

Referring now more particularly to the accompanying drawings in which like and corresponding parts are iridii cated by similar reference characters, numeral 1 indicates a circular casing through the bore of which runs an end* less conveyor 2 for supporting the material to be treated. Outlet pipe 3 is for the-removal of by-product gases from the interior of said casing while pipe 4 indicates an inert cooling gas admission duct.

Fig. 2 discloses a similar retort having casing '5, outlet pipe 7 and inlet pipe 8, but with said casing extending in a straight line. The interior of either of said retorts is similar to the retort shown in Fig. 5 which has casing 9, endless con 'veyor 10, outlet pipe 11 and inlet pipe 12. Also shown is duct 13 leading through the top of said casing and ending just above said belt. A duct 14 which may be suitably insulated and jacketed also extends through said casing and is directed to a serrated roller 15 above said belt. Said roller has a peripheral metallic shell 151: and a heat insulating core 15b of porcelain or the like and a hollow shaft 150 through which a cooling liquid can be passed. A third duct 16 likewise extends through said casing and is directed towards a serrated roller 17 similar to and extending substantially parallel to roller 15. r

Casing 9 is surrounded by an insulated air jacket 18 adjacent to said ducts and terminating at outlet pipe 11. Baffies 19 and 20 extend within said casing towards said belt controlling the movement of the atmosphere in said retort. A driven chopper 21 is mounted within said casing just prior to the outlet 22. j

As shown in Fig. 7 an automatic weighing feeder 25 is connected by pipe 26 having a rotary air lock 27, to an end of a preheater 28. Said duct 14 is connected to the opposite end of said preheater. 3 a A second automatic weighing feeder 29 is connected by pipe 30 having a rotary air lock 30', to an end of a superheater 31 with' ducts 13 and 16 connected to the opposite end thereof. v Casing outlet 22 is connected to passage 32 having breaker rollers 33 therein and a vibrating screen 34. Said passage continues as pipe 35 to superheater 31; A side passage 36 including a rotary air lock 37 connects passage 32 with a calciner and cooler 38 having outlet 39. A

In the manufacture of calcium carbide the charge to the furnace generally consists of parts ,of limestone to 65 parts of carbon content of the coke, by weight. To prepare this charging mixture from raw coal and limestone dust eachin the proper proportions, coal with relatively high plastic characteristics is introduced to weighing feeder 25 and passed to preheater 28 wherethe coal is heated to below its plastic forming point -.of approximately 640 F. At the same time limestone is introduced to weighing feeder 29 and passed to superheater 31 where it is heated to 1000 F. Feeders 25. and 29 are adjusted to feed the ingredients in the proportions required.

The superheated limestone then passes through duct 13 onto conveyor 10 forming a thin but covering layer A thereon. Further, superheated limestone goes from duct 16 to roller 17 and is thrown in the air into mix ture' with the heated coal also thrown, in the 'air, from duct 14 by striking roller 15. This mixture falls onto the layer A of limestone on the conveyor. The temperature of superheated limestone is selected so as to give the desired average temperature to the mixture laid on layer A. It is the purpose of the air jacket 18 to maintain this average during the carbonization. period by preventing flow of heat from the mixing chamber out through the casing 9. This is done by maintaining a jacket temperature the same as the average temperature of the mixture. Flow of heat through the walls is, therefore, substantially zero. By this mixing method the coal is very rapidly brought through its plastic state and up to the distillation temperature of the mixture or 800 F. and held there by means of said hot air jacket.

The atmosphere in casing 9 contains only inert gas so as to prevent the combustion of the coal. The volatiles given oil are collected through outlet 11, and partly used to heat the preheater 28 and superheater 31 and also to provide chemical by-products. The coal which has rapidly been brought through its plastic state adheres to the adjacent limestone layer A, but not to said belt. Chopper 21 breaks up the agglutinated sponge containing semi-coke and limestone after it is sufliciently cooled by the introduction of an inert cooling gas by pipe 12. The sponge then passes through breakers 33 to screen 34 and to calciner for complete devolatilization, if desired, and cooler 38 where semi-coke limestone sponge emerges from outlet 39. Limestone separated by screen 34 passes through pipe 35 back to the superheater 31 for reuse.

Heavy tar or pitch condensate either from other sources or from the volatiles passing from pipe 11 can be introduced through pipe 40 and sprayed on the mixture upon the conveyor and be redistilled by the heat from said mixture.

The foregoing procedure can be carried out utilizing coal and other mineral substances besides limestone such as metallic oxides, namely the oxides of tin, zinc, cadmium, lead, iron, chromium, calcium, copper, and manganese. The proportions of coal to mineral substance is determined by the ratio of process carbon to metallic oxide required. The temperature of the oxide is determined by the resultant temperature of the mixture desired.

Agglutinating coals can be carbonized much in the same manner utilizing the present apparatus. -For this purpose coke breeze or recycled semi-coke is introduced in superheater 31 and passes after heating to ducts 13 and 16. The coal to be treated is preheated in preheater 28 and passes to duct 14 thereafter. The superheated coke breeze or semi-coke forms layer A on conveyor while the preheated coal fines and additional superheated semi-coke or coke breeze are intermixed in air after striking rollers 15 and 17 respectively. The proportion of coal to coke is governed by setting the we'ghing feeders and 29 to introduce sufiicient coke to meet the heat requirements of the particular coal used. The superheated coke supplies all the heat necessary to raise the temperature of the coal to its plastic stage whereupon some of the volatiles are driven from the coal and pass upwardly through outlet pipe 11 while the individual pieces of plastic coal adhere to the adjacent coke breeze or semi-coke forming a semi-coke sponge. The resultant semi-coke sponge upon reaching the chopper 21 is broken up cooled by the incoming inert gas from pipe 12 and goes through outlet 22, past breakers 33, over screen 34 whereupon a part thereof can pass through pipe 35 back into superheater 31 forming part of the superheated semi-coke for carbonizing further supplies of coal while the balance goes to outlet 39 and its ultimate use.

While rollers 15 and 17 are shown for throwing the carbonaceous and inorganic materials together it is to be appreciated that other forms of apparatus can be employed for this purpose for example vibrating feedabandoned, utilizing the circular casing 1 of Fig. 1 and an endless conveyor 2 moving around therein with ducts 13, 14 and 16 directed towards said conveyor while volatiles pass out pipe 4 and inert cooling gases enter by pipe 3.

The apparatus shown and described herein is capable of considerable modification and such changes thereto as come within the scope of the appended claims is deemed to be a part of the present invention.

What I claim is:

1. A continuous apparatus adapted for heating finely divided agglutinating coal under non-combusting but agglutinating conditions comprising a closed retort, an endless conveyor mounted for movement within said retort, means for feeding two streams of granular non-agglutinating material to said retort, means for pre-heating said non-agglutinating material being fed to a temperature above the agglutinating point of the coal, means for spreading one of said streams of non-agglutinating material into a thin layer on said conveyor adjacent one end thereof, means for feeding a stream of the coal to said retort, means within said retort for effecting unconfined co-mingling of said coal stream and said other stream of non-agglutinating material in the open space above said conveyor within the retort and for depositing the cm mingled streams onto said conveyor adjacent said spreading means in superposed relation to the thin layer thereon, means for maintaining a non-combusting at mosphere within said retort, means for moving said conveyor through said retort, and means at the other end of said conveyor for removing the mixture of material and heated coal from the conveyor and for discharging the same from the retort.

2. An apparatus adapted for heating finely divided agglutinating coal under non-combusting but agglutinating conditions comprising a closed retort, a support in said retort, means for feeding granular, non'agglutinating material to said retort, means for preheating said non-agglutinating material to a temperature above the agglutinating point of said coal, means for forming said preheated non-agglutinating material into a thin layer substantially coextensive with said support to prevent adherence of the coal thereto, means for separately feeding coal and additional preheated non-agglutinating material to said retort, means within said retort for forming an unconfined substantially homogeneous mixture of said coal and said additional preheated nonagglntinating material in the open space within said retort above said support and for depositing the same as a superposed layer over substantially the full area of said previously formed thin layer, whereby said coal is heated to its agglutinating point, and means for removing the agglutinated coal from the support.

3. The apparatus as in claim 2 wherein said mixturcforming mean comprises opposed moving elements within the retort for projecting dispersed streams of coal and pre-heated non-agglutinating material together into a blended stream.

4. A continuous apparatus adapted for heating finely divided agglutinating coal under non-combusting but agglutinating conditions comprising a closed retort, an endless conveyor mounted for movement Within said retort, means for feeding granular non-agglutinating material to said retort, means for preheating said nonagglutinating material to a temperature above the agglutinating point of said coal, means for feeding said coal to said retort, means Within said retort for efiecting unconfined comingling of said coal and said pre-heated non-agglutinating material in the open space within said retort above said conveyor and for depositing the co-mingled coal and non-agglutinating material onto said conveyor adjacent one end thereof, means for maintaining a non-combusting atmosphere withi said retort, means for moving said conveyor through said retort, and means at the other end of said conveyor for removing the mixture of material and heated coal from the conveyor and for discharging the same from the retort.

References Cited in the file of this patent UNITED STATES PATENTS Loiseau Sept. 21, 1875 Slocum Oct. 21, 1919 Tonkin Feb. 14, 1928 Puening Jan. 8, 1929 Simpson Nov. 10, 1931 Bunce et a1 Mar. 27, 1934 Hereng July 3, 1934 Herens Oct. 30, 1934 Rice et a1 Oct. 24, 1939 Pray Nov. 30, 1943 Martin May 26, 1953 Balcar et a1. Apr. 6, 1954

Claims (1)

1. A CONTINUOUS APPARATUS ADAPTED FOR HEATING FINELY DIVIDED AGGLUTINATING COAL UNDER NON-COMBUSTING BUT AGGLUTINATING CONDITIONS COMPRISING A CLOSED RETORT, AN ENDLESS CONVEYOR MOUNTED FOR MOVEMENT WITHIN SAID RETORT, MEANS FOR FEEDING TWO STREAMS OF GRANULAR NON-AGGLUTINATING MATERIAL TO SAID RETORT, MEANS FOR PRE-HEATING SAID NON-AGGLUTINATING MATERIAL BEING FED TO A TEMPERATURE ABOVE THE AGGLUTINATING POINT OF THE COAL, MEANS FOR SPREADING ONE OF SAID STREAMS OF NON-AGGLUTINATING MATERIAL INTO A THIN LAYER ON SAID CONVEYOR ADJACENT ONE END THEREOF, MEANS FOR FEEDING A STREAM OF THE COAL TO SAID RETORT, MEANS WITHIN SAID RETORT FOR EFFECTING UNCONFINED CO-MINGLING OF SAID COAL STREAM AND SAID OTHER STREAM OF NON-AGGLUTINATING MATERIAL IN THE OPEN SPACE ABOVE SAID CONVEYOR WITHIN THE RETORT AND FOR DEPOSITING THE CO-

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