US1391568A - Process for the cracking of hydrocarbon oils and the like - Google Patents

Process for the cracking of hydrocarbon oils and the like Download PDF

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US1391568A
US1391568A US333733A US33373319A US1391568A US 1391568 A US1391568 A US 1391568A US 333733 A US333733 A US 333733A US 33373319 A US33373319 A US 33373319A US 1391568 A US1391568 A US 1391568A
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cracking
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hydrocarbon
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Nelson John
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10GCRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
    • C10G9/00Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils
    • C10G9/40Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils by indirect contact with preheated fluid other than hot combustion gases

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  • This invention relates .to an im process for cracking I the like by means of a liquid contact suband has been divided .out from my sipplication 'Serial Number 219,950, filed p arch 2nd, 1918 of which thesubject is an apparatus suitab e for carrying the proce herein described into effect.
  • the improved of hydrocarbon oils of a liquid contactfor example, as molten lead is characterized by submitting the oil to the and the like by the ai action of the contact-substancein a series 0 Specification of Letters l atent.
  • the extent of the cracking may be varied within certain limits by varying the depth at which the hydrocarbon or its vapors are delivered beneath the surface of the contact-substance, and by the number of contact periods.
  • One object of the invention is to reduce the deposition 01? cartemperature'in constricted channels.
  • the selection of the liquid substance to be used depends, among other considerations, upon the working temperature required. n operating at moderate temperatures (such as are employed in the production of tile spirits for use in petrol engines) it s bath of molten lead'as the contact-substance, and to pass the hydrocars bon or its vapors into the bath at distance below its surface. The'gases and vapors passing through the liquid metal keep it agitated; local accumulation of car bonaceous matter is prevented, and the maintenance of a uniform temperature in the contact-substance is facilitated.
  • liquid contact-substance comes directly into contact with the hydrocarbon itself and is not used merely as a means for the external heating of the contact-chamber.
  • Thecracking takes place solely in contact with the molten metal
  • the oil be carried out in a series of steps as it is material to avoid subjecting. the oil or its vapors to the cracking volaa suitable melting If the oil to be I of contact between the oil and the contact-' substance is not necessarily short; it may be prolonged as desired to secure the maximum degree of conversion underthe particular conditions of working; it is each step of contact which is short.
  • the whole product or-any desired fraction thereof may be subjected to one or more re-treatments; for example the heavier fraction, condensed out of the hot vapors by means of a dephlegmator in the known manner, may be thus re-treated.
  • igure 1 shows diagrammatically a sectional elevation of apparatus for carrying out the invention
  • Fig. 2 shows a cross section of the device of Fig. 1;
  • F Fig. 3 shows aplan view of the device of igs. 4 and 5 show a sectional elevation and plan view, respectively, of a modified apparatus;
  • FIG. 6 and 7 show sectional elevation and cross sectional views, respectively, of a further modified apparatus.
  • Fig. 8 shows a cross sectional view of an arrangement similar to that shown in Figs. 4 and 5.
  • One form consists of a covered horizontal tank set in a furnace and containing a quantit of the liquid contact substance.
  • the tan is provided with oil-inlet and vapor-outlet pipes and with a series of internal vertical partitions so arranged that the hydrocarbon vapors are caused to flow alternately u over or down under the artitions and t us to bubble up through 't e liquid contact substance in the alternate compartments. insure a steady flow of the vapors, the lower edges of the alternate artltions may be serratedor provided witi perforations for breaking up the vapors into small streams.
  • a preferred apparatus of this type is shown diagrammatically in sectional elevation, cross-section, and plan respectively in Figs. 1, 2 and ings.
  • the covered horizontal tan is of V-shaped cross s'ection the oil is fedunder' pressure through the in let pipes K, contains the liquid contact subwhich stance ,E, for example, molten lead, and is provided with vapor-outlet pipes L.
  • the liquid contact subwhich stance ,E for example, molten lead
  • ports 1 B which 3 of the 'accompan 1n drawand into which rec pes tank. is divided into a series of compartments (of which four are shown. in the drawin by transverse partitionsiGlhaving at the upper partfor the'passage of the hydrocarbonvapors, and these compartments are of depending partitions H, the lowerparts of which are curved and immersed to a suitable depth in' the molten lead as shown.
  • the hydrocarbon vapors are by this arrangement caused to pass through the apparatus in the direction shown by the arrows and are subjected repeatedly to the action of the molten lead.
  • -' section of the tank is specially advantageous when two or more such units are mounted side by side in one furnace.
  • Figs. 4 and 5 show, in sectional elevatibn and plan respectively, a modified arrangement in which the horizontal tank C, whlch is preferably of V-shaped cross-section, is provided with a series of vertical cylindrical chambers A, open at their lower ends and extendingdownward through the cover 0 nearly to the bottomof the molten lead E contained in the tank.
  • Each cylinder is closed at the top by a cover A fitted with a vertically adjustable oil or vapor-inlet pipe d, and a vapor outlet pipe B which connects with the inlet pipe of the adjacent chamber.
  • Inspection plugs D are provided in the pipes B
  • the quantity of lead in the tank, and the depths to which the cylinders A and inlet pipes B are respectively immersed in the lead, must be so adjusted as to insure that the hydrocarbon vapors flow in succession from cylinder to cylinder through the connecting pipes B and pass out by the outlet pipe as indicated diagrammatically by the arrows, and do not escape beneath the lower edges of any of the cylinders.
  • a filling plug F for the molten lead is provided in the cover of the tank.
  • atmospheric air may be expelled from the tank by means of a reducin or indifferent gas or vapor; for example by introducing h drocarbon oil or vapor through the inlet C and driving out the air through the outlet C.
  • Dephlegmators may be interposed between the cylindrical chambers.
  • Figs. 6 and 7 show, in sectional elevation and cross-section respectively, a modified arrangement in which the molten lead .completely fills the covered tank C, and the vertical cylinders A, which are closed at their upper ends by the covers A are connected by means of vapor pipes A, A", and provided internally with vertical artitions A which extend downward for a s ort distance into the molten lead.
  • the cylinders A extend downward nearly to the bottom of the lead. The depths to which the cylinders A and partitions A are respectively immersed further divided by a series;
  • a chamber D formed in the cover (J and communicating with the interior of the tank 0, provides space for the expansion and contraction of the molten metal while minimizin the risk of oxidation thereof. 4 A plug D gives access to the chamber for inspection or filling purposes.
  • Fig. 8 shows a cr ss sectional view of an arrangement similar to that shown in Figs. 4 and 5, andin which means are provided for adjusting the position of the inlet pipe B so as to vary the extent of cracking by varying the depth at which the hydrocarbon is introduced beneath the surface of the contact substance.
  • the apparatus must in all cases be free from constrictions, interstices, or long channels of small cross-section, capable of being obstructed by carbonaceous deposits,at parts where high temperatures are reached.

Description

1. NELSON. CRACKING 0F HYDROCARBON OI'LS AiPLICATION FILED OCT-2711919.
AND THE LIKE.
PROCESS FOR THE I921. ETZSHEET 1.
Patented Sept; 20
NELSON. PROCESS FOR THE CRACKING 0F HYDROCARBON OILS AND THE UK APPLICATION FILED OCT- 27, I919.
1 ei mw w F I 1. NELSON.- PROCESS FOR THE CRACKING 0F HYDRO CARBON OILS AND THE LIKE.
. APPLICATION FILED OCT. 27, I9I9.
1,391,568. PatentedSept. 20, 1921.
3 SHEETS-SHEET 3.
ruary 21, 1918; France,
' substance, such,
I April 8,
. Egypt, No; 13/43 'Holland, No. 9,570,
process for the crackin JOHN NELSON, OF GLASGOW, SCOTLAND.
PROCESS FOR THE CRACKING HYDROCABBON OILS AND THE LIKE.
Original application filed March 2, 1918, Serial No. 219,950. Divided 27, 1919. Serial No; 333,733.
To all whom it mag concern:
- Be it known that I, JOHN NELSON, a subject of the King of England, residing in Glasgow, Scotland, have invented certain new and useful Improvements in a Process for the Cracking of Hydrocarbon Oils and the like, (for which I have filed applications in Great Britain, No. 116,304,'filed March 13, 1917; Australia, No. 6,800, 1918; New Zealand, No. 39,823, filed February 15, 1918; India, No. 3,555/18, filed Feb- No. 489,142, filed March 6, 1918; Italy, No. 483/49, filed February 28, 1918; Spain, No. 66,395, filed Februar 16, 1918; Portugal & Cols., No. 10,331, led February 22,1918; Roumania, No. 4,643, filed March 15, 1919; Argentina,
No. 14,921 filed April 22, 1918; Chile, No.
3,751, filed June 15', 1918; Urlulguay, No. 942, filed April 12, 1918; Mexico, 0. 17,244, filed 1918; Venezuela, No. 390, filed Cuba, No; 3,128, filed'April 8, 1918; Trinidad, No. 3 of 1918, filed March 20, 1918; China, No. 18,025, filed A ril'12, 1918; Cairo, Egypt, No. 80/43 A. filed May 3, 1918; Alexandria, Egypt, No. 174,- 314, .vol. 24, filed May 18, 1918 ;'-Mansourah, A. J filed May 23, 1918; dated June 1, 1918; filed June 6, 1918;
April 8, 1918;
Newfoundland, No. 264, Brit. N. Borneo, No. 111, South Africa, No. 179/18, filed March 22, 1918; Rhodesia, No. 1,368, filed March 27, 1918; Mysore, No. 6 of 1918-19, filed Dec. 3, 1918; Japan, No. 37,046, filed Mar. 8, 1918; Belgium, No. 20,893, filed-Feb. 28, 1918; Hungary, No. 3,039, filed Mar. 12, 1918; filed March 11,1918; Germany, No. 17 ,21'5,filed March 12,1918; Austria, No. 1,283, filed March 6, 1918;, Brazil, filed Dec. 4, 1918; Canada, No. 218,- 559, filed Marchfi, 1918,) of which the following is a specification.
This invention relates .to an im process for cracking I the like by means of a liquid contact suband has been divided .out from my sipplication 'Serial Number 219,950, filed p arch 2nd, 1918 of which thesubject is an apparatus suitab e for carrying the proce herein described into effect.
According to this invention the improved of hydrocarbon oils of a liquid contactfor example, as molten lead, is characterized by submitting the oil to the and the like by the ai action of the contact-substancein a series 0 Specification of Letters l atent.
filed March 13,
bonaceous matter,
preferred to use a roved hydrocarbon oi s and,
Patented Sept. 20, 1921. and this application filed October steps, each eriod of contact being of short duration. he temperaturemay be the same for each period of contact, or a decreasing temperature may be employed. The contact material is agitated during the treatment, as, for example, by the passage of the hydrocarbon vapors or gases. cracked contains tarry matters, or other objectionable products whichcannot be eliminated during the cracking process, the oil may be distilled from an auxiliary vessel and the distillate or vapors subjected to the cracking operation.
The extent of the cracking may be varied within certain limits by varying the depth at which the hydrocarbon or its vapors are delivered beneath the surface of the contact-substance, and by the number of contact periods. As one object of the invention is to reduce the deposition 01? cartemperature'in constricted channels. The apparatus herein described and forming the subject of the application above referred to affords special provision against this, as well as providing for the operation of the process herein set forth.
The selection of the liquid substance to be used depends, among other considerations, upon the working temperature required. n operating at moderate temperatures (such as are employed in the production of tile spirits for use in petrol engines) it s bath of molten lead'as the contact-substance, and to pass the hydrocars bon or its vapors into the bath at distance below its surface. The'gases and vapors passing through the liquid metal keep it agitated; local accumulation of car bonaceous matter is prevented, and the maintenance of a uniform temperature in the contact-substance is facilitated.
If temperatures exceeding those at which lead can be satisfactorily employed are required metals or alloys of higher oint than lead may be used.
It will be understood that the liquid contact-substance comes directly into contact with the hydrocarbon itself and is not used merely as a means for the external heating of the contact-chamber. Thecracking takes place solely in contact with the molten metal,
or substantiall so.
f the oil be carried out in a series of steps as it is material to avoid subjecting. the oil or its vapors to the cracking volaa suitable melting If the oil to be I of contact between the oil and the contact-' substance is not necessarily short; it may be prolonged as desired to secure the maximum degree of conversion underthe particular conditions of working; it is each step of contact which is short.
As the time during which thehydrocarbon and its product'remain in contact with the hot liquid, substance is brief, the whole product or-any desired fraction thereof may be subjected to one or more re-treatments; for example the heavier fraction, condensed out of the hot vapors by means of a dephlegmator in the known manner, may be thus re-treated. j
y invention will be better understood by reference to the attached drawings, formini a part thereof, and in'which:
igure 1 shows diagrammatically a sectional elevation of apparatus for carrying out the invention; I
Fig. 2 shows a cross section of the device of Fig. 1; F Fig. 3 shows aplan view of the device of igs. 4 and 5 show a sectional elevation and plan view, respectively, of a modified apparatus; I
I Figs. 6 and 7 show sectional elevation and cross sectional views, respectively, of a further modified apparatus; and
Fig. 8 shows a cross sectional view of an arrangement similar to that shown in Figs. 4 and 5. I
Various forms of apparatus may be used for carrying out the process. One form consists of a covered horizontal tank set in a furnace and containing a quantit of the liquid contact substance. The tan is provided with oil-inlet and vapor-outlet pipes and with a series of internal vertical partitions so arranged that the hydrocarbon vapors are caused to flow alternately u over or down under the artitions and t us to bubble up through 't e liquid contact substance in the alternate compartments. insure a steady flow of the vapors, the lower edges of the alternate artltions may be serratedor provided witi perforations for breaking up the vapors into small streams.
A preferred apparatus of this type is shown diagrammatically in sectional elevation, cross-section, and plan respectively in Figs. 1, 2 and ings. The covered horizontal tan is of V-shaped cross s'ection the oil is fedunder' pressure through the in let pipes K, contains the liquid contact subwhich stance ,E, for example, molten lead, and is provided with vapor-outlet pipes L. The
ports 1 B, which 3 of the 'accompan 1n drawand into which rec pes tank. is divided into a series of compartments (of which four are shown. in the drawin by transverse partitionsiGlhaving at the upper partfor the'passage of the hydrocarbonvapors, and these compartments are of depending partitions H, the lowerparts of which are curved and immersed to a suitable depth in' the molten lead as shown. The hydrocarbon vapors are by this arrangement caused to pass through the apparatus in the direction shown by the arrows and are subjected repeatedly to the action of the molten lead. The V-shaped cross-.
-' section of the tank is specially advantageous when two or more such units are mounted side by side in one furnace.
Figs. 4 and 5 show, in sectional elevatibn and plan respectively, a modified arrangement in which the horizontal tank C, whlch is preferably of V-shaped cross-section, is provided with a series of vertical cylindrical chambers A, open at their lower ends and extendingdownward through the cover 0 nearly to the bottomof the molten lead E contained in the tank. Each cylinder is closed at the top by a cover A fitted with a vertically adjustable oil or vapor-inlet pipe d, and a vapor outlet pipe B which connects with the inlet pipe of the adjacent chamber. Inspection plugs D are provided in the pipes B The quantity of lead in the tank, and the depths to which the cylinders A and inlet pipes B are respectively immersed in the lead, must be so adjusted as to insure that the hydrocarbon vapors flow in succession from cylinder to cylinder through the connecting pipes B and pass out by the outlet pipe as indicated diagrammatically by the arrows, and do not escape beneath the lower edges of any of the cylinders. A filling plug F for the molten lead is provided in the cover of the tank. To prevent oxidation of the lead, atmospheric air may be expelled from the tank by means of a reducin or indifferent gas or vapor; for example by introducing h drocarbon oil or vapor through the inlet C and driving out the air through the outlet C. Dephlegmators may be interposed between the cylindrical chambers.
Figs. 6 and 7 show, in sectional elevation and cross-section respectively, a modified arrangement in which the molten lead .completely fills the covered tank C, and the vertical cylinders A, which are closed at their upper ends by the covers A are connected by means of vapor pipes A, A", and provided internally with vertical artitions A which extend downward for a s ort distance into the molten lead. The cylinders A extend downward nearly to the bottom of the lead. The depths to which the cylinders A and partitions A are respectively immersed further divided by a series;
"extends downward into the molten in the lead must be so chosen as to insure that the hydrocarbon vapors flow through the apparatus as indicated diagrammatically by the arrows. The lower ed es Aflof the partitions may be serrated as s own in Fi 7. A chamber D, formed in the cover (J and communicating with the interior of the tank 0, provides space for the expansion and contraction of the molten metal while minimizin the risk of oxidation thereof. 4 A plug D gives access to the chamber for inspection or filling purposes.
It will be obvious that the apparatus shown in Figs. 4 and 5 may be modified by substituting, for the form of tank therein shown, a tank completely filled with the liquid contact substance as indicated in Figs. 6 and 7.
Fig. 8 shows a cr ss sectional view of an arrangement similar to that shown in Figs. 4 and 5, andin which means are provided for adjusting the position of the inlet pipe B so as to vary the extent of cracking by varying the depth at which the hydrocarbon is introduced beneath the surface of the contact substance.
The apparatus must in all cases be free from constrictions, interstices, or long channels of small cross-section, capable of being obstructed by carbonaceous deposits,at parts where high temperatures are reached.
What I claim as my invention and desire to secure by Letters Patent is 1. The herein described process for cracking hydrocarbon oils and the like, which comprises introducing the hydrocarbon into a liquid contact substance in successive steps of brief contact period.
2. The herein described process for cracking hydrocarbon oils and the like, which comprises introducing the hydrocarbon intoa liquid metal contact substance in successive steps of brief contact period.
3. The herein described process for cracking hydrocarbon oils and the like, which comprises introducing the hydrocarbon into molten lead in successive steps of brief contact period.
4. The herein described proce'ssfor cracking hydrocarbon oils and the like, which comprises introducing the vaporized hydrocarbon into a liquid contact substance in successive steps of brief contact period.
5. The herein described process for cracking hydrocarbon oils and the like, which comprises distilling the oil, and introducing the distillation products into a liquid contact substance in successive steps of brief contact period.
6. The herein described process for cracking hydrocarbon oils and the like, which comprises introducing the hydrocarbon into a liquid contact substance in successive steps of brief contact period, and varying the'extent of cracking by varying the depth at which the hydrocarbon is introduced beneath the surface of the contact substance.
In testimony whereof I aflix my signature.
/ JNO. NELSON.
US333733A 1918-03-02 1919-10-27 Process for the cracking of hydrocarbon oils and the like Expired - Lifetime US1391568A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2508120A (en) * 1948-02-10 1950-05-16 Harald E Lonngren Method and apparatus for conversion of hydrocarbons
US2876070A (en) * 1955-03-28 1959-03-03 Chemetron Corp Method for producing hydrogen sulfide by synthesis

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2508120A (en) * 1948-02-10 1950-05-16 Harald E Lonngren Method and apparatus for conversion of hydrocarbons
US2876070A (en) * 1955-03-28 1959-03-03 Chemetron Corp Method for producing hydrogen sulfide by synthesis

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