US1918162A

US1918162A - Method of carbonizing briquettes

Info

Publication number: US1918162A
Application number: US316596A
Authority: US
Inventors: Edwin L Willson
Original assignee: LEHIGH COAL AND NAVIGATION COM
Current assignee: LEHIGH COAL AND NAVIGATION Co; LEHIGH COAL AND NAVIGATION COM
Priority date: 1928-11-01
Filing date: 1928-11-01
Publication date: 1933-07-11
Anticipated expiration: 1950-07-11

Description

July ll, 1933. E. l.. wxLLsoN METHOD OF CARBONIZING BRIQUETTES Filed Nov. l, 1928 y @www zown/fm Patented July ll, 1933 UNITED STATES PATENT OFFICE EDWIN L. rWILLSfON, OF GLENSIDE, PENNSYLVANIA1 ASSIGNOR TO THE LEHIGH COAL AND NAVIGATION COMPANY, F PHILADELPHIA, PENNSYLVANIA, A CORPORATION OF PENNSYLVANIA IIETHOD 0F CARBON IZING BRIQUETTES Appication mea November 1, 192s. serial no. 316.596.

My invention relates to a method of carbonizng briquettes.

Heretofore, considerable diiliculty and much annoyance have been experienced with the usual solid-hearth plates used in connection with carbonizing processes. Such plates deteriorate very rapidly in service and, by reason of their relatively large expense, greatly increase the cost of the carbonizing operation. Moreover, when the hearth is replaced, the furnace as a whole must be shut down, with the result that a further loss occurs. One object of my invention, therefore, is to provide a hearth which overcomes the above-noted difcultiesf-my invention contemplating the use of an automatically-renewable porous bed of hot material as a hearth. A bed of this character may be formed of mine refuse having a very low market value.

Other objects and applications of my invention, as Well as details of construction and operation, whereby my invention may be practiced, will be apparent more fully hereinafter, when taken in connection with the accompanying drawing, wherein The single figure of the drawin is a view partially in section and partially 1n side elevation of a structure embodying my invention.

Referring to the drawing, a chamber 1 of a furnace 2 is provided with a passage 3 which extends therefrom through an upper, horizontal side wall 4 to an eXteriorly-positioned hopper 5 containing the fuel to be carbonized. This material, in one installation, took the form of briquettes, which were first pressed into shape by means not shown and then deposited in the hopper 5.

In accordance with my invention, the

'brquette passage 3 terminates in an o en end 6 which is positioned just above a el bed 7 constituting an automatically removable hearth. The fuel bed 7 is supported oh a movable grate' surface 8 afforded byl an upper side 9 of a traveling rate 'Stoker 10; A front end 11 of the sto er 10 extends through an opening 12 in the front portion 'A door 17 serves to control the rate of fuel supply.

The green coal 15, upon entering the chamber v1, is preferably heated to the point of incandescence, the air necessary to support combustion at this point being at least partly supplied by means of

air passages

18, 18 positioned directly under the grate surface 8. These passages may be supplied with air through ducts 19 which are connected to the

passages

18, 18 by tuyres 21.

Additional air passages

22, 22 and 23, 23 are positioned under the'grate surface 8 and supplied with air through ducts 24 and 25, respectively, s0 that `the fuel bed 7 may assume the general form shown in the drawing, wherein it is noted that an intermediate portion 26 is formed of incandescent coal, while a rear end portion 27 is formed of hot ashes. These ashes are dropped from an inner end 28 of the Stoker into an ash-pocket 29 which is formedbetween the Stoker 10 and a rear wall 31 of the chamber 1.

As shown on the drawing, the inner open end 6 of the passage 3 is spaced from the front wall portion 13, so that the briquettes are deposited on the front portion of the incandescent part of the fuel bed 7. The forward movement of the stoker 10 causes the superimposing of a layer 32 of briquettes on the fuel bed 7. While the fuel bed 7, and the superimposed layer 32 of briquettes are moving rearwardly through the chamber 1, the briquettes are heated as a result of direct contact with the fuel bed 7 and the air which passes upwardly through the porous fuel bed 7 and the layer of briquettes 32. As a result, carbonization of the briquettes occurs and certain of the gases in the briquettes 32 are driven off, mingling with the hot gases passing from the fuel bed 7.

In order that the gases from the heated briquettes may be caused to burn, and thus afford an additional supply of heat to that furnished by the fuel bed 7, a plurality of air openings 33 may be formed in the carbonizing'chamber 1 immediately adjacent to an upper rear wall portion 34 thereof. The burning of the fixed carbon in the layer of briquettes is prevented by the control of tlie amount of air supplied to the underside of the fuel bed 7, and to the air openings 33, as well as the control of the rate of operation of the stoker 10. In one installation the rate of stoker operated was such that a coking period of only thirteen minutes was. required. The hot gases formed in the carbonizing chamber 1 may be passed upwardly therefrom through a passage .35 to a boiler system 36, which serves as energy-translating means, converting the heat of the gases to steam.

In operation, assuming the presence of thc porous fuel bed 7 on the grate surface 8, as shown in the drawing, movement of the stoker 10 results in the formation of the layer 32 of briquettes.

" upon being deposited on the. fuel bed 7, are

heated by conduction due to direct contact with the fuel bed 7, by convection'due to the air passing through the Stoker 10 and the bed 7 thereon, and by radiation from the heat incident to the burning of the gases in the chamber 1. As a result, the briquettes are heated and evolve a gas which mingles with that passing through the fuel bed 7 and burns iii the upper Aportions of the carboniziiig chamber 1. When the briquettes finally reach the vrear end 28 of the stoker 1'0, cars bonization to the desired extent has occurred and the briquettcs, as well as the ashes, are passed into the pocket 29 which is provided with a. quenching tank 37 in the bottom thereof. The fuel bed 7 thus serves as an automatic renewable hearth which is formed of fuel having an exceedingly low market value. Experience has shown that such type of hearth permits an increase in the thickness of the layer of briquettss Iwithout sacrificing the uniformity of carbonization. as compared with the solid type of hearth heretofore used. Should it be desirable to interrupt the briquetting operation, the energy developed by the boiler 36 may be maintained substantially constant by merely increasing the amount of refuse fuel feed to the Stoker 1() from the hopper 16.

lVhile I have shown only one form of enibodirnent of my invention. for the purpose of describing the same and illustrating its principles of construction and operation, it 1s apparent that various changes and modifications may be made therein, without departing from the spirit 0f my invention. For

example. the porous bed of hot material constituting the hearth may be formed of a non-carbonaceous material, as, for example, sand, and satisfactory operation still obtained.. I desire. therefore. that only such limitations shall be imposed thereon, as are These briquettes,

indicated in the appended `claims or as are demanded by the prior art.

I claim:

1. The method of carbonizing which comprises the positioning of a layer of solid carbonizable material on a porous bed of relativelyfine fuel of which at least a part is of a combustible nature, heating the bed material to a temperature sufficient to effect carbonization of the superposed layer of material by burning the combustible material contained in the bed, transferring tlieheat from the bed material to the superposed material and supporting combustion of the combustible material contained in the bed by passing a current of air upwardly through the porous bed and the'superposed carbonizable material, thereby driving off combustible gases from said carbonizablc material, injecting air into said combustible gases above said layer of carbonizable material to support combustion of said gases, and burning said combustible mixture above said layer of carboniz'- able material to increase the temperature of` said carbonizable material.

2. The method of carbonizing which coinprises the positioning of a layer of solid carbonizable material von a porous bed of relatively fine fuel of which at least a part is of a combustible nature, heating the bed material to a temperature sufficient to effect carbonizat-ion of the. superposed layer of material by burning the combustible material contained in the bed, transferring the heat from the bed. material to the superposed material and supporting combustion of the combustible material contained Iin the bed by passing a current of air upwardly through the porous bed and the superposed carbonizable material, thereby driving off combustiblev gases from said carbonizable material, injecting air into said combustible gases above said layer of carbonizable material to support-combustion of said gases, burning said combustible mixture above said layer of carbonizable ma.- terial to increase the temperature of said carbonizable material, and quenching the resulting carbonized fuel.

3. The method of carbonizing which com- -prises the positioning of a layer of solid carbonizable material on an independent porous bed comprising relatively fine particles. of solid carbon'aceous combustible material, burning the said bed material under the carbonizable material, and passing a current of air through said bed material to drive off combustible gases from the bed material and the superposed layer of carbonizable material and tc support combustion of the bed material under the layer of carbonizable material and the combustible gases above said layer' of carbonizable material to heat said layer of carbonizable material to a temperature suicient to effect carbonization thereof.

4. The method of carbonzing which coinprises the positioning of a layer of solid carbonizable material on a porous bed composed of relatively fine solid carbonaceous combustible material, burning the said bed material under the carbonizable material, and passing a current of air through said bed material to drive off combustible gases from the bed material and the superposed layer of carbonizable material and to support combustion of the bed material under the layer of carbonizable material and the combustible gases above said layer of carbonizable material, and injecting supplementary air into the burning combustible gases above the layer of carbonizable material to increase the temperature of said gases to heat said layer of carbonizable material to a temperature suflicient to effect carbonization thereof.

5. The method of carbonizing which comprises the provision of a continuously moving porous bed of solid relatively fine particles of carbonaceous combustible material forming continuously on the moving bed a layer of relatively coarse carbonizable material, burning in t-ransit a portion of the bed material under the superposed layer of carbonizable material, and passing currents of air throughthe burning bed to support combustion thereof,and to heat the superposed layer of carbonizable material to a temperature suflicient to effect carbonizat-ion thereof.

G. The method of carbonizing which comprises the provision of a continuously moving porous hed of solid relatively fine particles of carbonaceous combustible material forming continuously von the moving bed a layer of relatively coarse carbonizable material, burning in transit a portion of the bed material under the superposed layer of carbonizable material, passing currents of air through the burning bed to support combustion thereof, and to heat the superposed layer of carbonizable material to a temperature sufficient to effect carbonization thereof. and continuously renewing the moving bed in advance of the positioning of the layer of carbonizable material on the moving bed.

7. The method of carbonizing which comprises the provision of a continuously moving porous bed of solid relatively fine particles of carbonaceous combustible material forming continuously on the movingr bed a layer of relatively coarse carbonizable material, burning in transit a portion of the bed material under the superposed layer of carbonizable material, passing currentsv of air through the burning bed to support combustion thereof, and to heat the superposed layer of carbonizable material to a temperature sufficient to effect carbonization thereof, continuously renewing the moving bed in advance of the positioning of the layer of carbonizable material 0n the moving bed, and quenching the bed material and the superposed layer of carbonizable material after a predetermined state of carbonization has been attained.

8. In the manufacture of fuel briquettes, the process which comprises the placing of a layer of green briquettes on a porous bed of relatively fine carbonaceous combustible material, burning the bed material under the layer of green briquettes, and passing currents of air upwardly through the bed and the layer of briquettes to support combustion of the bed material to heat the superposed briquettes to a temperature sufficient to effect carbonization thereof.

9. In the manufacture of fuel briquettes, the process which comprises the placing of a layer of green briquettes on a porous bed of relatively fine carbonaceous combustible material, burning the bed material under the layer of green briquettes, and passing currents of air upwardly through the bed and the layer of briquettes to support 'combustion of the bed material and combustible gases emanating from the briquettes due to the burning of the underlying bed to heat the superposed briquettes, and injecting suppleinentary air into the combustible gases above the layer of briquettes to increase said heating .to a temperature sufficient to effect carbomzation thereof.

EDWIN L. WILLSON.