US1963517A - Conversion of hydrocarbons - Google Patents

Conversion of hydrocarbons Download PDF

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US1963517A
US1963517A US467621A US46762130A US1963517A US 1963517 A US1963517 A US 1963517A US 467621 A US467621 A US 467621A US 46762130 A US46762130 A US 46762130A US 1963517 A US1963517 A US 1963517A
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gas
hydrocarbons
heating
temperature
products
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US467621A
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Robert E Burk
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Standard Oil Co
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Standard Oil Co
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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
    • C10G9/14Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils in pipes or coils with or without auxiliary means, e.g. digesters, soaking drums, expansion means
    • 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
    • C10G11/00Catalytic cracking, in the absence of hydrogen, of hydrocarbon oils
    • C10G11/02Catalytic cracking, in the absence of hydrogen, of hydrocarbon oils characterised by the catalyst used
    • 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
    • C10G9/34Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils by direct contact with inert preheated fluids, e.g. with molten metals or salts
    • C10G9/36Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils by direct contact with inert preheated fluids, e.g. with molten metals or salts with heated gases or vapours

Definitions

  • This invention relates to the conversion of hydrocarbon materials into hydrocarbon products of different boiling point, and more particularly the conversion of hydrocarbon materials which are of low value to products of utility for motor fuels and chemical application.
  • the sole figure is a diagrammatic elevational view of apparatus such as may be employed for carrying out the invention.
  • hydrocarbon material is subjected to heat at temperatures above those which have been heretofore usual in cracking operations.
  • the raw material so employed may be of gaseous or vaporous character, as hydrocarbons heavier than the customary motor fuel range, and particularly such materials as are resultant from refinery operations, for instance tars from cracking operations, residual materials, gas, etc.
  • Such materials in other words as can be brought into vaporous or gaseous state, and while the process is applicable with hydrocarbons such as gas oil and similar cuts, from an economic standpoint, it is more advantageous with hydrocarbons of the general category of cracking-coil tars, residual tars, wastes, and gas.
  • the oil or tar to be utilized is brought into a vaporous condition in any suitable manner, and in some instances, it is advantageous to assist vaporization by the passage of refinery or light gas or hydrogen through the oil, particularly where the type of vaporization employed involves the heating of a body of oil, as contrasted with a spray or flash type of vaporization. Even in the latter however, an atomization by means of sion chamber 3. Where the operation is carried on at temperatures of about 1600 F. or somewhat lower, the product involves considerable quantities of unsaturated aliphatics. With higher temperatures, the aromatics are more predominant, and with temperatures for instance of 1800-1850 F., important proportions of such aromatics as toluene, xylene, besides benzene, occur.
  • the temperature factor and the time of subjection to heating are reciprocals, in regard to feasible production without undue coking.
  • the vapors of the tar or the like are forwarded with refinery gas, residual gas from cracking installations, or the like.
  • the heating time desirable may range from an exposure for instance of 1.5 seconds where operating at the lower temperatures of the range indicated, to 0.05 second where operating at the higher temperatures of the range indicated.
  • the amount of gas fed with the vapor of a heavy hydrocarbon may be varied in accordance with the throughput desired, and the temperature and the conditions generally. For instance, a feasible range of operating ratios may involve mite-2.5 cu. ft. 'of gas to an amount of tar vaporized from 0 to c. c.
  • the gas contributes a quota in the products ultimately obtained, and it'particularly however has a utility in facilitating throughput. Excessive gas feed above such point of advantage is economically undesirable because using heat unproductively in such heating as is involved for K the excess bulk of gas.
  • refinery or like gas, or hydrogen may be satisfactorily employed in the process. Since such gas will ordinarily be a hydrocarbon gas this last-named term, it will be understood, is used herein to designate any such suitable gas, including hydrogen by itself, as an equivalent.
  • the gas may be introduced at 6, from any suitable source, or it may in whole or in part be obtained by recycling through connection 7 from the end of the condenser system.
  • the vaporous material passes from the heating zone, it is subjected to the action of a catalyst before proceeding to the condensers.
  • a catalyst for instance, the vaporous material while still at a temperature of about 1350- 1625 F. is passed through a zone in which a. catalyst is exposed.
  • An example of an advantageous catalyst is zinc, and an especially thorough contact with the hydrocarbons may be had with both in the vaporous state.
  • liquid hydrocarbon material employed may be if desired a gas oil, but more advantageously will be a mixture of heavy materials on the order of cracking-coil tars or residual materials of low value. Gas oil or the like may where desired be employed in mixture with these.
  • Coke is removed without shutting down the apparatus by first blowing steam through and then air. This is followed by steam again, after which the hydrocarbon materials are again intrcduced.
  • a cracking-coil tar preferably a fifty per cent. cut therefrom presenting an initial boiling point around 300 F. and an end point around 700 R
  • such material is vaporized, as by spraying into a heated chamber, and vapors are forwarded with tail gas from a. condenser system, through heated tubes of nonferrous surface.
  • tail gas from a. condenser system
  • a condensate is obtained showing for instance 22.5 per cent. off at 440 F., of freezing point 5 F. and freezing point 42 F. when mixed with 20 per cent. aviation gasoline.
  • a condensate may be obained showing 20 per cent. off at 403 F., of freezing point 5" F., and freezing point 42 F. when mixed with 20 per cent. aviation gasoline.
  • the lower distillation cuts taken from the condensates produced may be employed as such are preferably in blends, for motor fuel. From the higher fractions, naphthalene, anthracene and the like may be obtained, and finally a resinous product utilizable for insulative and moulding purposes.
  • a process of converting hydrocarbons to productsof difierent boiling point which comprises vaporizing a petroleum cracking-residuum tar by a hydrocarbon gas and heating to a temperature from about 1600 to not over 2100 F., subjecting to the action of zinc vapor While still at an elevated temperature, and cooling and condensing the products.
  • a process of converting hydrocarbons to products of different boiling point which comprises vaporizing a petroleum cracking-residuum tar, subjecting such vapors with a hydrocarbon gas, in the feed proportion of 0.53 cubic feet of gas per 10-50 cc. of tar vaporized, to a temperature of about 1825 F. for a heating time of 0.051.5 sec., subjecting to the action of zinc vapor while still at an elevated temperature, and cooling and condensing the product.
  • a process of converting hydrocarbons to products of different boiling point which comprises intermingling a stream of preformed hydrocarbon gas added from an external source with a tarry petroleum residuum while heating the same sufficiently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1600 to not over 2100 F. for a heating time of 0.09-1.5 sec., and while still at an elevated temperature subjecting to the action of a catalyst which is a vapor at such temperature, and cooling and condensing the products.
  • a process of converting hydrocarbons to products of different boiling point which comprises intermingling a stream of preformed hydrocarbon gas added from an external source with a tarry petroleum residuum while heating the same sumciently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1.600 to not over 2100F., for a heating time of 0.09-1.5 sec., and cooling and condensing the products.
  • a process of converting hydrocarbons to products of different boiling point which comprises intermingling a stream of preformed hydrocarbon gas from an external source with a tarry petroleum residuum while heating the same sufliciently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1600 to not over 2100 F., for a heating time of 0.09-1.5 sec., subjecting to the action of zinc vapor while still at an elevated temperature, and cooling and condensing the products.

Description

June 19, 1934. R. E. BURK 1,963,517
CONVERSION OF HYDROCARBONS Filed July 12, 1950 CONVERSION J CHAMBER CONDENSER HEAVY PETROLEUM \IAPOEIZER EECEWEIZ INVENTOR. K0567)? c? Bur/ A TTORNEYJ Patented June 19, 1934 CONVERSION or HYDROCARBONS Robert E. Burk, Cleveland, Ohio, assignor to The Standard Oil Company, Cleveland, Ohio, a corporation of Ohio Application July 12, 1930, Serial No. 467,621
Claims.
This invention relates to the conversion of hydrocarbon materials into hydrocarbon products of different boiling point, and more particularly the conversion of hydrocarbon materials which are of low value to products of utility for motor fuels and chemical application.
To the accomplishment of the foregoing and related ends, the invention, then, consists of the features hereinafter fully described, and particu-- larly pointed out in the claims, the following description and the annexed drawing setting forth in detail certain embodiments of the invention, these being illustrative however of but a few of the various ways in which the principle of the invention may be employed.
In said annexed drawing:
The sole figure is a diagrammatic elevational view of apparatus such as may be employed for carrying out the invention.
In proceeding in accordance with the invention, hydrocarbon material is subjected to heat at temperatures above those which have been heretofore usual in cracking operations. The raw material so employed may be of gaseous or vaporous character, as hydrocarbons heavier than the customary motor fuel range, and particularly such materials as are resultant from refinery operations, for instance tars from cracking operations, residual materials, gas, etc. Such materials in other words as can be brought into vaporous or gaseous state, and while the process is applicable with hydrocarbons such as gas oil and similar cuts, from an economic standpoint, it is more advantageous with hydrocarbons of the general category of cracking-coil tars, residual tars, wastes, and gas.
The oil or tar to be utilized is brought into a vaporous condition in any suitable manner, and in some instances, it is advantageous to assist vaporization by the passage of refinery or light gas or hydrogen through the oil, particularly where the type of vaporization employed involves the heating of a body of oil, as contrasted with a spray or flash type of vaporization. Even in the latter however, an atomization by means of sion chamber 3. Where the operation is carried on at temperatures of about 1600 F. or somewhat lower, the product involves considerable quantities of unsaturated aliphatics. With higher temperatures, the aromatics are more predominant, and with temperatures for instance of 1800-1850 F., important proportions of such aromatics as toluene, xylene, besides benzene, occur. With a still higher temperature, the naphthalene and anthracene become more important. Thus typically, products of aromatic character may be had, and with utility for motor fuels and naphthalene and anthracene, etc. yield as well. 'The products from conversion chamber 3 thence proceed to a condenser 4 and receiver 5.
In subjecting the hydrocarbons to heat, it is desirable to avoid contact with iron surfaces, and I employ by preference equipment in which the surfaces presented are for instance sillimanite or similar non-metallic surfaces, or if a .metallic surface be desired, chromium, or a non-ferrous alloy of chromium or a high chromium steel in some instances.
In a general sense, the temperature factor and the time of subjection to heating are reciprocals, in regard to feasible production without undue coking. Desirably, the vapors of the tar or the like are forwarded with refinery gas, residual gas from cracking installations, or the like. In general, the heating time desirable may range from an exposure for instance of 1.5 seconds where operating at the lower temperatures of the range indicated, to 0.05 second where operating at the higher temperatures of the range indicated. The amount of gas fed with the vapor of a heavy hydrocarbon may be varied in accordance with the throughput desired, and the temperature and the conditions generally. For instance, a feasible range of operating ratios may involve mite-2.5 cu. ft. 'of gas to an amount of tar vaporized from 0 to c. c.
The gas contributes a quota in the products ultimately obtained, and it'particularly however has a utility in facilitating throughput. Excessive gas feed above such point of advantage is economically undesirable because using heat unproductively in such heating as is involved for K the excess bulk of gas. As previously indicated, refinery or like gas, or hydrogen, may be satisfactorily employed in the process. Since such gas will ordinarily be a hydrocarbon gas this last-named term, it will be understood, is used herein to designate any such suitable gas, including hydrogen by itself, as an equivalent. As indicated in the drawing, the gas may be introduced at 6, from any suitable source, or it may in whole or in part be obtained by recycling through connection 7 from the end of the condenser system.
Preferably also, as the vaporous material passes from the heating zone, it is subjected to the action of a catalyst before proceeding to the condensers. For instance, the vaporous material while still at a temperature of about 1350- 1625 F. is passed through a zone in which a. catalyst is exposed. An example of an advantageous catalyst is zinc, and an especially thorough contact with the hydrocarbons may be had with both in the vaporous state.
As pointed out, the liquid hydrocarbon material employed may be if desired a gas oil, but more advantageously will be a mixture of heavy materials on the order of cracking-coil tars or residual materials of low value. Gas oil or the like may where desired be employed in mixture with these.
Coke is removed without shutting down the apparatus by first blowing steam through and then air. This is followed by steam again, after which the hydrocarbon materials are again intrcduced.
As an example, employing a cracking-coil tar, preferably a fifty per cent. cut therefrom presenting an initial boiling point around 300 F. and an end point around 700 R, such material is vaporized, as by spraying into a heated chamber, and vapors are forwarded with tail gas from a. condenser system, through heated tubes of nonferrous surface. With a feed ratio of 12.17 c. c. of tar vaporized to each 0.44 cu. ft. of gas, and a heating temperature of 1517 F., with exposure 0.675 sec., a condensate is obtained showing for instance 22.5 per cent. off at 440 F., of freezing point 5 F. and freezing point 42 F. when mixed with 20 per cent. aviation gasoline.
As another example: With a feed rate of 12.3 c. c. of such cracking coil tar vaporized to each 0.44 cu. ft. of gas, and a temperature of 1619 F., and heating time 0.64 sec., a condensate may be obained showing 20 per cent. off at 403 F., of freezing point 5" F., and freezing point 42 F. when mixed with 20 per cent. aviation gasoline.
As another example: Such cracking coil tar vaporized and fed at the rate of 15.35 c. 0. per each 0.85 cu. ft. of gas, and a temperature of 1828 F., and heating time 0.3116 sec., 9. condensate may be obtained showing 32.5 per cent. oil at 402 F., of freezing point 10 F. and 8 F. when mixed with 20 per cent. aviation gasoline.
As another example: Such cracking coil tar vaporized and fed at the rate of 14 c. 0. per each 1.3 cu. ft. of gas, and heated at 1900 F. for 0.207 sec., a. condensate may be had showing 34.4 per cent. of! at 391 F., freezing point 13 F., and 3 F. when mixed with 20 per cent. aviation gasoline.
As another example: With such cracking coil tar vaporized and fed at the rate of 14 c. 0. per each 2.15 cu. ft. of gas, and heated at 1940 F. for 0.126 sec., a condensate may be had showing 34.75 per cent. oil. at 393 F., with freezing point 18 F., and 0 1'. when mixed with 20 per cent. aviation gasoline.
As another example: with such cracking coil tar vaporized and fed at the rate of 14.15 c. 0. per each 2.6 cu. ft. of gas. and heated at 1967 F. for 0.096 sec., a condensate may be had showing 33.3 per cent. of! at 268 F., with freezing point 32 F., and 2 F. when mixed with 20 per cent. aviation gasoline.
The lower distillation cuts taken from the condensates produced may be employed as such are preferably in blends, for motor fuel. From the higher fractions, naphthalene, anthracene and the like may be obtained, and finally a resinous product utilizable for insulative and moulding purposes.
Other modes of applying the principle of the invention may be employed, change being made as regards the details described, provided the features stated in any of the following claims, or the equivalent of such, be employed.
I therefore particularly point out and distinctly claim as my invention:-
1. A process of converting hydrocarbons to productsof difierent boiling point, which comprises vaporizing a petroleum cracking-residuum tar by a hydrocarbon gas and heating to a temperature from about 1600 to not over 2100 F., subjecting to the action of zinc vapor While still at an elevated temperature, and cooling and condensing the products.
2. A process of converting hydrocarbons to products of different boiling point, which comprises vaporizing a petroleum cracking-residuum tar, subjecting such vapors with a hydrocarbon gas, in the feed proportion of 0.53 cubic feet of gas per 10-50 cc. of tar vaporized, to a temperature of about 1825 F. for a heating time of 0.051.5 sec., subjecting to the action of zinc vapor while still at an elevated temperature, and cooling and condensing the product.
3. A process of converting hydrocarbons to products of different boiling point, which comprises intermingling a stream of preformed hydrocarbon gas added from an external source with a tarry petroleum residuum while heating the same sufficiently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1600 to not over 2100 F. for a heating time of 0.09-1.5 sec., and while still at an elevated temperature subjecting to the action of a catalyst which is a vapor at such temperature, and cooling and condensing the products.
4. A process of converting hydrocarbons to products of different boiling point, which comprises intermingling a stream of preformed hydrocarbon gas added from an external source with a tarry petroleum residuum while heating the same sumciently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1.600 to not over 2100F., for a heating time of 0.09-1.5 sec., and cooling and condensing the products.
5. A process of converting hydrocarbons to products of different boiling point, which comprises intermingling a stream of preformed hydrocarbon gas from an external source with a tarry petroleum residuum while heating the same sufliciently, vaporizing the residuum thereby, heating the mixture to a temperature of about 1600 to not over 2100 F., for a heating time of 0.09-1.5 sec., subjecting to the action of zinc vapor while still at an elevated temperature, and cooling and condensing the products.
ROBERT E. BURK.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3729407A (en) * 1971-04-05 1973-04-24 Sun Oil Co Hydrogenation process utilizing recovered catalyst

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3729407A (en) * 1971-04-05 1973-04-24 Sun Oil Co Hydrogenation process utilizing recovered catalyst

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