US1451575A - Oil-shale retort - Google Patents
Oil-shale retort Download PDFInfo
- Publication number
- US1451575A US1451575A US347665A US34766519A US1451575A US 1451575 A US1451575 A US 1451575A US 347665 A US347665 A US 347665A US 34766519 A US34766519 A US 34766519A US 1451575 A US1451575 A US 1451575A
- Authority
- US
- United States
- Prior art keywords
- retort
- shale
- oil
- steam
- pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10B—DESTRUCTIVE DISTILLATION OF CARBONACEOUS MATERIALS FOR PRODUCTION OF GAS, COKE, TAR, OR SIMILAR MATERIALS
- C10B7/00—Coke ovens with mechanical conveying means for the raw material inside the oven
- C10B7/02—Coke ovens with mechanical conveying means for the raw material inside the oven with rotary scraping devices
Definitions
- OIL-slum amour.
- This invention is an apparatus for and process of distilling or separating the oil ,contained in oil shale, asphalt or other oil residual matter thereof 'and is particularly designed for use in refining plants in which oil shale is treated for the purpose of extracting its oil contents.
- the principal object of my invention is to provide a simple and efficient means for and method of distilling off the oil from the shale without scorching or burnin the distillate by an apparatus and metho adapted continuous manner and with a maximum vrecovery of the products of distillation.
- 'A further object of my invention is to providemeans to fractionate or make an approximate separation of the distillate into portions according to their relative points of vaporization 'so that the final refining processes will be simplified.
- Fig. 1 is a diagrammatic side elevation ofthe retort and longitudinal section of its setting.
- Fig. 2 is an enlarged longitudinal section through the feed end of the apparatus.
- Fig. 3 is an enlarged detail section through the discharge end of the apparatus.
- Fig. 4 is a transverse section on line 4 4, Fig. 1.
- Fig. 5 is an enlarged transverse section, of the retort on line 5 5, Fig. 2.
- Fig. 6 is a detail section of the conveyor.
- FIG. 10 designates a horizontal 'metal container or shell herein termed a retort which is made up of one or more sections which are fastened together by means of suitable flanges 32 and bolts 33.
- This retort l0 is suitably supported, so as to'permit of expansion and contraction due to' temperature changes, in a heating furnace 34.
- a hopper l communicating by a .gate valve2 with a secondary hopper 3 which connects by means of a gate-valve 4 with a feeding cylinder 5, in which is a vplunger feeder 6 which is reciprocated forward and backwards by any suitable means.
- a vplunger feeder 6 which is reciprocated forward and backwards by any suitable means.
- it is operated by means of a piston 7 in a cylinder 8 and by admittingsteam first on one side and then on the other side of pis ton 7 the contents of hopper 3'are gradually fed into the receiving end 9 of the retort 10.
- the material thus fed into the receiving end 9 of retort -10 by plunger feeder 6 is then alternately agitated and conveyed forward through the retort by any ⁇ suitable means.
- a reciprocating scraper conveyor 105 36 is employed.
- rlliis conveyer 36 as shown,
- the reciprocating conve or 36 is preferably actuated by means o steam cylinders 12 and 13 and pistons 12, 13l located at opposite ends of the retort as shown,
- the pistons 12, 13a are of the single acting type, and are actuated in alternation so that the conveyor rod 14 is always moved under tension and never under compression.
- the conveyor rod 14 with its conveyor shoes 15 is thus alternately pulled forward by piston 13a at the discharge end of the retort and then pulled backwards by means of piston 12 at the feed end of the retort.
- the forward and backward, or reciprocating motion of the conveyor along the bottom of the retort has a cleaning edect that keeps the shale constantly in motion, prevents iuxinfr along the sides of the retort, and expedites among the material the ready transference of heat.
- an outlet gate-valve 22 At the discharge end of the retort is an outlet gate-valve 22 through which the material drops into a receiving hopper 23, from which it can be discharged as desired.
- pipes 17 aretapped into the top wall of the retort 10. These pipes 17 connect to collector pipes 18 which may lead to separate suitable condensing ap-paratus where the collected oil vapors are condensed.
- the furnace 34 may be of any suitable and preferred construction. In the drawings it is shown as comprised of a firebox 26, combustion chamber 27 and flue gas passageway 29, which connects with the usual stack flue 38 by means of tunnel 30, which is equipped Vwith a damper 31.
- the firebox 26 may be equipped to burn gas or oil by means of any suitable burner, indicated at 35, or may be provided with grates or other suitable means to burn coal or other solid fuel.
- the reciprocating conveyor shaft 14 is preferably made of ahollow rod or pipe and extended through the front head 37 of cylinder 13 and the extended end of this hollow shaft is connected to a steam m-ain 2O by any suitable flexible means, a flexible steam-hose 19 being indicated.
- a regulating valve 21 is provided to control the amount of steam introduced throu h the conveyor shaft 14 into the retort.
- Desible holes or slots 14a may be provided at regular intervals in the bottom of conveyor shaft 14, or to connect with passageways 15 in conveyor shoes 15 (as indicated in Fig. 6) so that the steam will thoroughly agitate and penetrate the shale or material as it is moved forward through the retort.
- the introduction of low pressure steam through the piston at the hotter end of the retort serves to regulate the temperature of the piston operatlng in such hotter end, thereby preventing it from burning.
- the low pressure steam introduced through the piston becomes superheated from the heat applied to the retort and such superheated steam admitted through the length of the retort assists and hastens the transfer of heat inside the retort from outlet to the intake end. It thus hastens distillation, and as the steam is drawn ofi' throu h the vents, it acts as a carrier for the volati ized hydrocarbons, and sweeps the entire retort.
- the means employed to agitato and gradually move the material being treated for1 ward through the retort consists of a drag or scraper conveyor comprised of wedge shaped shoes mounted on a hollow shaft lll() through which the steam is conveyed to the various points of use; it is obvious that the conveyor and agitating members may be otherwise loca-ted and arranged; and other suitable types of conveyor might be ernployed. I-t is also obvious that various othe-r means could be used to feed the raw material to be treated into the retort, or to remove the spentvmaterial from the reto-rt.
- Apparatus for distilling oil shale comprising a heating furnace, a closed horizontal retort, extending through such furnace and subjected to graduated external heat; means for admitting shale into the cooler end of said retort; reciprocating means for stirring the shale when said means moves in one direction and to move the shale along the bottom of the retort in the other direction; means for drawing off distilled products progressively along said retort; means to inject low pressure steam through the agitating means along the bottom of the retort While the shale is in process of distillation; and means for discharging the spent shale at the hottest end of the retort, substantially as described.
- a heating furnace a closed tubular retort, extending through said furnace, a valved feeder connected With one end of said retort, mean's for forcibly ejecting shale from the said feeder into said retort, a valved discharger at the hotter'end of said retort; reciprocating means adapted tostir the shale when moving in one direction .and to -forward the shale When moving in the other direction and also to inject steam along the bottom ofzthe retort While the shale is in process of distillation to prevent scorching of the gaseous products as the shale is moved through the retort; and means for discharg ing the spent shale at the hottest end of the retort ⁇ substantially as described.
- a heating furnace a closed tubular retort, extending through said furnace, a feeder connected With-one cnd'of said retort, a d'zscharge at the other end of said retort, a pipe ,extending through said ⁇ retort, a steam supply connected With said pipe, combined stirrers and pushers connected With said pipe within the retort and perforated for the escape of steam along the bottom of the retort, and means for reciprocatingsaid pipe to agitate the material and propel it through the said retort.
- a heating furnace a closed tubular retort extending through said furnace, a valved feeder connected with one end of said retort, means for forcibly ejecting shale from the said feeder into said retort, a valved discharger at the other end of said retort, with a pipe extending through said retort, a steam supply connected with said pipe, a series of stirrers or pushers connected with said pipe Within the retort and perforated for directing steam against the bottom of the retort, and means for reciprocating said pipe in both directions under tension to alternately stir the material and propel it forward through the said retort;
- a heating furnace a closed retort extending through said furnace, a feeder connected with one end of said retort, a discharger at the other end of said retort, a pipe extending through said retort, a steam supply connected with said pipe, combined stirring and pushing shoes connected vwith said pipe Within the retort and perforated for the escape of steam; and means for positively pulling said pipe and the stirring and pushing shoes first in one direction and then in the'other, thereby alternately stirring the material and intermittently propelling it through the retort; substantially as described.
- a heating furnace a closed tubular retort extending through said furnace, a valved feeder connected with one end of said retort, means for forcibly ejecting shale from the said feeder into said retort, and a valved dscharger at theother end of said retort, with a perforated pipe extending through said retort, a steam supply connected with said pipe, a series of stirring and ushing shoes connected with said pipe Wit in the retort and perforated for the escape of steam along the bottom of the retort, and means for positively pulling said pipe and the stirring and pushing shoes first in -one direction and then in the other to alternately stirthe material and propel it forward through the said retort.
Landscapes
- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Oil, Petroleum & Natural Gas (AREA)
- Organic Chemistry (AREA)
- Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
Description
Apr. l0, 1923 l 1,451,575
G. E. HOLMES OIL SHALE RETO'RT Api" 10, 1923 G. E. HQLMES OIL SHALE RETORT Filed Dec. 2'7, 1919 2 sheets-sheet 2 f f r f INVENTOR.
WI TNESS:
l bearing mineral, .from the solid or I to be operated preferably in a Patented pr. 10, 1923.
GEORGE EDWARD HOLMES, or sm .LAKE CITY, Uran.
OIL-slum: amour.
Application led December -27, 1919. Serial No. 847,665.
Salt Lake City, in the county of Salt ake 5 and State of Utah, have invented certain' new and useful Improvements in Oil-Shale Retorts, and I hereby declare that the fol-v lowing is a full, clear, and exact description thereof, reference being had to the accom- '10 panying drawings, which form part of thisl specification.
This invention is an apparatus for and process of distilling or separating the oil ,contained in oil shale, asphalt or other oil residual matter thereof 'and is particularly designed for use in refining plants in which oil shale is treated for the purpose of extracting its oil contents.
The principal object of my invention is to provide a simple and efficient means for and method of distilling off the oil from the shale without scorching or burnin the distillate by an apparatus and metho adapted continuous manner and with a maximum vrecovery of the products of distillation.
'A further object of my invention is to providemeans to fractionate or make an approximate separation of the distillate into portions according to their relative points of vaporization 'so that the final refining processes will be simplified.
To facilitate an understanding of the method and apparatus I will explain one practical form of apparatus embodying the invention and -illustrated in the accompanying drawings, which will enable others skilled in the art to adapt and use the invention; but as it is capable of being utilized and embodied in various forms of appara'- tus; and as such apparatus would naturally be modified in accordance with the particular material to be treated, it is not restricted to the specific construction and arrangement of parts illustrated in the drawings; and therefore I refer to the claims following the description for summaries of the novel essentials of the invention and the various novel combinations of parts and novel specic features or elements embraced within the invention, for all of which protection is desired.
In said drawings:
Fig. 1 is a diagrammatic side elevation ofthe retort and longitudinal section of its setting. y
Fig. 2 is an enlarged longitudinal section through the feed end of the apparatus.
Fig. 3 is an enlarged detail section through the discharge end of the apparatus.
Fig. 4 is a transverse section on line 4 4, Fig. 1.
Fig. 5 is an enlarged transverse section, of the retort on line 5 5, Fig. 2.
Fig. 6 is a detail section of the conveyor.
In the accompanying drawings 10 designates a horizontal 'metal container or shell herein termed a retort which is made up of one or more sections which are fastened together by means of suitable flanges 32 and bolts 33. This retort l0 is suitably supported, so as to'permit of expansion and contraction due to' temperature changes, in a heating furnace 34.
lExperiment showed that slow, low temperature, which would cause fractional, destructive distillation was necessary to secure the best results in the distillation of oil shade. Hence I preferably employ along horizontal retort elliptic in shape; relatively narrow and higher than its width, for the reason that shale is to be conveyed along its Hoor; narrow to permit of the ready transference of heat; and -higher than its width in that steam, with its tendency to rise. in a straight line, is introduced in the bottom of the retort.
At the feed end of the retort is a hopper l, communicating by a .gate valve2 with a secondary hopper 3 which connects by means of a gate-valve 4 with a feeding cylinder 5, in which is a vplunger feeder 6 which is reciprocated forward and backwards by any suitable means. Preferably it is operated by means of a piston 7 in a cylinder 8 and by admittingsteam first on one side and then on the other side of pis ton 7 the contents of hopper 3'are gradually fed into the receiving end 9 of the retort 10. 100
The material thus fed into the receiving end 9 of retort -10 by plunger feeder 6 is then alternately agitated and conveyed forward through the retort by any` suitable means.
As shown a reciprocating scraper conveyor 105 36 is employed. rlliis conveyer 36, as shown,
comprises a longitudinally disposed pipe or rod 14 to which are attached--at suitable intervals-wedge-shaped shoes orA bladesv 15, tapered oppositel to the desired direction of movement of t e material.
The reciprocating conve or 36 is preferably actuated by means o steam cylinders 12 and 13 and pistons 12, 13l located at opposite ends of the retort as shown, Preferably the pistons 12, 13a are of the single acting type, and are actuated in alternation so that the conveyor rod 14 is always moved under tension and never under compression. The conveyor rod 14 with its conveyor shoes 15 is thus alternately pulled forward by piston 13a at the discharge end of the retort and then pulled backwards by means of piston 12 at the feed end of the retort. The shoes 15 as they are moved forward and backward gradually work the shale or other oil bearing materlal forward through the retort which is thus subjected to the heat generated in the combustion chamber and furnace and its contained oils are thus vaporized and driven ofi'.
The forward and backward, or reciprocating motion of the conveyor along the bottom of the retort, has a cleaning edect that keeps the shale constantly in motion, prevents iuxinfr along the sides of the retort, and expedites among the material the ready transference of heat.
At the discharge end of the retort is an outlet gate-valve 22 through which the material drops into a receiving hopper 23, from which it can be discharged as desired.
At different points along the retort, pipes 17 aretapped into the top wall of the retort 10. These pipes 17 connect to collector pipes 18 which may lead to separate suitable condensing ap-paratus where the collected oil vapors are condensed.
The furnace 34 may be of any suitable and preferred construction. In the drawings it is shown as comprised of a firebox 26, combustion chamber 27 and flue gas passageway 29, which connects with the usual stack flue 38 by means of tunnel 30, which is equipped Vwith a damper 31. The lirebox 26 may be equipped to burn gas or oil by means of any suitable burner, indicated at 35, or may be provided with grates or other suitable means to burn coal or other solid fuel.
As the oil shale or other oil bearing material'is alternately agitating and moved forward through the retort the oil contained therein is vaporized and such temperatures should be maintained in the furnace and combustion chamber that all oil in the shale or other material being treated'will be separated therefrom by the time the material reaches the discharge end of the retort 11. The spent or waste material is then dropped through gate valve 22 into receiving hopper y 23 from which it can be removed from tim? to time through `discharge gate 24 into cars 25.
I have found by experience that it is very desirable to thoroughly inject steam un'der the oil shale to prevent it fiuxing or sticking to the bottom .and sides of the retort, and also to reduce the temperature of the gases as they are distilled from the shale.
The introduction of steam into the retort in the manner hereinafter described, also incre-ases the volume of hydrocarbon vapors produced from distillation of the shale, increasing the volume between two and three times. "The action is chemical. The superheated steam' in the presence of a fixed carbon readily disassoclates; some of the hydrogen of the water team) will unite with the nitrogen in the s ale forming ammonia N H3. Other of the nitrogen will unite with the carbon forming the hydrocarbon series, thereby increasing the Volume of the retorted vapors.
To so introduce o-r inject steam into the shale, the reciprocating conveyor shaft 14 is preferably made of ahollow rod or pipe and extended through the front head 37 of cylinder 13 and the extended end of this hollow shaft is connected to a steam m-ain 2O by any suitable flexible means, a flexible steam-hose 19 being indicated. A regulating valve 21 is provided to control the amount of steam introduced throu h the conveyor shaft 14 into the retort. uitable holes or slots 14a may be provided at regular intervals in the bottom of conveyor shaft 14, or to connect with passageways 15 in conveyor shoes 15 (as indicated in Fig. 6) so that the steam will thoroughly agitate and penetrate the shale or material as it is moved forward through the retort.
The introduction of low pressure steam through the piston at the hotter end of the retort serves to regulate the temperature of the piston operatlng in such hotter end, thereby preventing it from burning. The low pressure steam introduced through the piston becomes superheated from the heat applied to the retort and such superheated steam admitted through the length of the retort assists and hastens the transfer of heat inside the retort from outlet to the intake end. It thus hastens distillation, and as the steam is drawn ofi' throu h the vents, it acts as a carrier for the volati ized hydrocarbons, and sweeps the entire retort.
The method of treating the shale or oil bearing minerals will be obvious from the foregom description.
While have shown and described m invention as embodied in an apparatus w erein the means employed to agitato and gradually move the material being treated for1 ward through the retort consists of a drag or scraper conveyor comprised of wedge shaped shoes mounted on a hollow shaft lll() through which the steam is conveyed to the various points of use; it is obvious that the conveyor and agitating members may be otherwise loca-ted and arranged; and other suitable types of conveyor might be ernployed. I-t is also obvious that various othe-r means could be used to feed the raw material to be treated into the retort, or to remove the spentvmaterial from the reto-rt.
It Will be obvious from the foregoing that the invention doespnot reside so much in the particular construction of the .elemental parts of the apparatus, as in the general arrangement and method of operating same; and obviously the elemental features of the apparatus and specific arrangement thereof can be changed and varied to suit the designer While retaining the essential charac-A teristics and substantial'.beneficialresults o the invention.
What I claim is: A y
1. Apparatus for distilling oil shale, comprising a heating furnace, a closed horizontal retort, extending through such furnace and subjected to graduated external heat; means for admitting shale into the cooler end of said retort; reciprocating means for stirring the shale when said means moves in one direction and to move the shale along the bottom of the retort in the other direction; means for drawing off distilled products progressively along said retort; means to inject low pressure steam through the agitating means along the bottom of the retort While the shale is in process of distillation; and means for discharging the spent shale at the hottest end of the retort, substantially as described. A
2. In an apparatus for distilling oil shale, a heating furnace, a closed tubular retort, extending through said furnace, a valved feeder connected With one end of said retort, mean's for forcibly ejecting shale from the said feeder into said retort, a valved discharger at the hotter'end of said retort; reciprocating means adapted tostir the shale when moving in one direction .and to -forward the shale When moving in the other direction and also to inject steam along the bottom ofzthe retort While the shale is in process of distillation to prevent scorching of the gaseous products as the shale is moved through the retort; and means for discharg ing the spent shale at the hottest end of the retort` substantially as described. l
3. In an apparatus for'distilling oil shale, a heating furnace, a closed tubular retort, extending through said furnace, a feeder connected With-one cnd'of said retort, a d'zscharge at the other end of said retort, a pipe ,extending through said`retort, a steam supply connected With said pipe, combined stirrers and pushers connected With said pipe within the retort and perforated for the escape of steam along the bottom of the retort, and means for reciprocatingsaid pipe to agitate the material and propel it through the said retort.
4. In an apparatus for distilling oil shale, a heating furnace, a closed tubular retort extending through said furnace, a valved feeder connected with one end of said retort, means for forcibly ejecting shale from the said feeder into said retort, a valved discharger at the other end of said retort, with a pipe extending through said retort, a steam supply connected with said pipe, a series of stirrers or pushers connected with said pipe Within the retort and perforated for directing steam against the bottom of the retort, and means for reciprocating said pipe in both directions under tension to alternately stir the material and propel it forward through the said retort;
5. In an apparatus for distilling oil shale, a heating furnace, a closed retort extending through said furnace, a feeder connected with one end of said retort, a discharger at the other end of said retort, a pipe extending through said retort, a steam supply connected with said pipe, combined stirring and pushing shoes connected vwith said pipe Within the retort and perforated for the escape of steam; and means for positively pulling said pipe and the stirring and pushing shoes first in one direction and then in the'other, thereby alternately stirring the material and intermittently propelling it through the retort; substantially as described. A
6. In an apparatus for distilling oilshale, a heating furnace, a closed tubular retort extending through said furnace, a valved feeder connected with one end of said retort, means for forcibly ejecting shale from the said feeder into said retort, and a valved dscharger at theother end of said retort, with a perforated pipe extending through said retort, a steam supply connected with said pipe, a series of stirring and ushing shoes connected with said pipe Wit in the retort and perforated for the escape of steam along the bottom of the retort, and means for positively pulling said pipe and the stirring and pushing shoes first in -one direction and then in the other to alternately stirthe material and propel it forward through the said retort.
In testimony that I claim the foregoing as my own I aix my signature.
GEORGE EDWARD HOLMES.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US347665A US1451575A (en) | 1919-12-27 | 1919-12-27 | Oil-shale retort |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US347665A US1451575A (en) | 1919-12-27 | 1919-12-27 | Oil-shale retort |
Publications (1)
Publication Number | Publication Date |
---|---|
US1451575A true US1451575A (en) | 1923-04-10 |
Family
ID=23364698
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US347665A Expired - Lifetime US1451575A (en) | 1919-12-27 | 1919-12-27 | Oil-shale retort |
Country Status (1)
Country | Link |
---|---|
US (1) | US1451575A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2615834A (en) * | 1948-08-02 | 1952-10-28 | Franklin E Poindexter | Horizontal retort with reciprocating agitator |
US4308103A (en) * | 1980-06-02 | 1981-12-29 | Energy Recovery Research Group, Inc. | Apparatus for the pyrolysis of comminuted solid carbonizable materials |
-
1919
- 1919-12-27 US US347665A patent/US1451575A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2615834A (en) * | 1948-08-02 | 1952-10-28 | Franklin E Poindexter | Horizontal retort with reciprocating agitator |
US4308103A (en) * | 1980-06-02 | 1981-12-29 | Energy Recovery Research Group, Inc. | Apparatus for the pyrolysis of comminuted solid carbonizable materials |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US3361644A (en) | Shale retorting process | |
US4058205A (en) | Apparatus for treating oil shale | |
US1972929A (en) | Apparatus for coking solid carbonizable materials | |
US2600425A (en) | Furnace reactor | |
US2462366A (en) | Heating of granular materials | |
US2875137A (en) | Solids feeding process and apparatus | |
US1451575A (en) | Oil-shale retort | |
US1810828A (en) | Method of carbonizing coal | |
US8764861B2 (en) | Process and plant for refining oil-containing solids | |
US3939057A (en) | Process for treating oil shale | |
US4251323A (en) | Method for calcining delayed coke | |
US1580656A (en) | Process and apparatus relating to the combustion of solid fuel | |
US2966446A (en) | Shale retorting process | |
US1675315A (en) | Process of continuously distilling carbonaceous fuel | |
US2395231A (en) | Cupola furnace | |
US2463693A (en) | Method and retort for the distillation of solid hydrocarbonaceous materials | |
US1172682A (en) | Process for carbonizing coal. | |
US1772189A (en) | Method of producing carbonized briquettes | |
US2980592A (en) | Retorting process and apparatus | |
US1639390A (en) | Carbonizing apparatus | |
US1622722A (en) | Process of and apparatus for distilling bituminiferous material | |
US1474357A (en) | Distillation of bituminous material | |
US1696731A (en) | Apparatus and process for utilizing coal | |
US1838883A (en) | Process for producing carbonized particles from finely pulverized coal | |
US1486794A (en) | Apparatus for the treatment of coal or similar carbonaceous substances |