US2349039A - Solvent dewaxing of mineral oils - Google Patents
Solvent dewaxing of mineral oils Download PDFInfo
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- US2349039A US2349039A US454323A US45432342A US2349039A US 2349039 A US2349039 A US 2349039A US 454323 A US454323 A US 454323A US 45432342 A US45432342 A US 45432342A US 2349039 A US2349039 A US 2349039A
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- solvent
- wax
- dewaxing
- oil
- mineral oils
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10G—CRACKING 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
- C10G73/00—Recovery or refining of mineral waxes, e.g. montan wax
- C10G73/02—Recovery of petroleum waxes from hydrocarbon oils; Dewaxing of hydrocarbon oils
- C10G73/06—Recovery of petroleum waxes from hydrocarbon oils; Dewaxing of hydrocarbon oils with the use of solvents
Definitions
- This invention relates to the dewaxing of mineral oils, and more particularly it relates to dewaxing solvents.
- sulfur containing organic compounds of the general type of the above mentioned oxygen compounds and wherein the oxygen atom has been replaced by a sulfur atom are good dewaxing solvents in that they are com pletely miscible with the waxy oil at elevated temperatures and have a high solubility for the oil component and a low solubility for the wax component at dewaxing temperatures particularly at temperatures of F. and below.
- An object of this invention is to provide an improved solvent for use in the dewaxing of mineral oils.
- Another object of this invention is to make use of a certain class of sulfur containing organic compounds in the solvent dewaxing of mineral oils.
- Still another object of this invention is to provide a dewaxing solvent which may be used in connection with wax antisolvents.
- Example I One volume of treated waxy Mid-Continent lubricating oil stock of '70 seconds Saybolt universal viscosity at 210 F. was mixed with three volumes of diamyl sulfide and the mixture heated to F. to insure complete solution. The oilsolvent solution was then shock chilled to 0 F. in a Carbondale chiller to precipitate the wax and filtered in the conventional manner. The sulfide solvent was removed from the oil by distillation and gas stripping leaving an oil which had a pour point of 35 F.
- Example [1 One volume of treated waxy Mid-Continent lubricating oil stock of '70 seconds Saybolt universal viscosity at 210 F. was mixed with three volumes of amyl mercaptan andthe whole heated to 150 F. as in Example I. The resulting solution was shock chilled to 0 F. and filtered. The solvent was removed as previously described and the resulting oil had a pour point of 30 F.
- methyl thiocyclo pentane methyl 'thiocyclo hexane
- methyl thiobenzene methyl thiobenzene
- ethyl thiobenzene mono, di, and tri-thio phenols, mono, di, and trithio cresols, etc., or mixtures of the above compounds, such as caustic oils or selected fractions of caustic oils which result from the treating of sour petroleum distillates with caustic, or from acid sludge which results from acid treatment of petroleum distillates containing sulfur compounds.
- Example I I I On volume of treated waxy Mid-Continent lubricating oil stock of 70 seconds Saybolt Universal viscosity at 210 F. was mixed with three volumes of solvent composed of 60% amyl mercaptan and 40% acetone. The components were mixed thoroughly to insure complete solution, shock chilled to F. in a Carbondale chiller, filtered and the solvent removed by distillation. The resulting dewaxed oil had a pour point of F.
- Example IV One volume of the waxy oil used in Example III was mixed with three volumes of a solvent composed of 70% diamyl sulfide and acetone. The solution was mixed thoroughly, shock chilled to 0 F. as above, filtered, and the solvent removed by distillation. The oil resulting from the treatment had a pour point of 10 F.
- the oil to be dewaxed is mixed with the sulfur containing organic compound, as for example diamyl sulfide or amyl mercaptan with or without a wax anti-solvent, and the mixture warmed gently to insure complete and rapid solution, say to 120-- 140 F.
- the mixture is then chilled to the dewaxing temperature, say 0 F., in essentially any type of chilling apparatus available, and filtered in any suitable type of filter. Filtration is usually rapid since the wax crystals formed in our solvent are distinct and sharp edged.
- the slack wax may be These sulfur conwashed with additional solvent mixture at the dewaxing temperature to remove the adhering oilsolvent solution, while the combined filtrate solution and washings comprising dewaxed oil and solvent mixture are conducted to a solvent oil separating apparatus.
- This separating apparatus may comprise a conventional pipe heater and fractionator from which the solvent mixture is removed overhead as vapors and the oil exits from the lower portion thereof and is conducted to storage. The solvent vapors from the above mentioned fractionator are condensed and the condensate conducted to intermediate storage preparatory to reuse.
- dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising diamyl sulfide and a wax antisolvent, in which the antisolvent is acetone, chilling the mixture to precipitate the wax, and removing the precipitated wax.
- dewaxin mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising diamyl sulfide and a wax antisolvent, in which the antisolvent is methyl ethyl ketone, chilling the mixture to precipitate the wax, and removing the precipitated wax.
- dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising approximately by volume of diamyl sulfide and approximately 30% by volume of acetone as a wax antisolvent, chilling the mixture to precipitate the wax, and removing the precipitated wax.
- dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising approximately 70% by volume of diamyl sulfide and approximately 30% by volume of methyl ethyl ketone as a wax antisolvent, chilling the mixture to precipitate the wax, and removing the precipitated wax.
- a dewaxing solvent comprising approximately 70% by volume of diamyl sulfide and approximately 30% by volume of methyl ethyl ketone as a wax antisolvent
- dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising a major proportion of diamyl sulfide and a minor proportion of a wax antisolvent, in which the antisolvent is acetone, chilling the mixture to precipitate the wax and separating the precipitated wax.
- dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising a major proportion of diamyl sulfide and a minor proportion of a wax antisolvent, in which the antisolvent is methyl ethyl ketone, chilling the mixture to precipitate the wax and separating the precipitated wax.
Description
Patented May 16, 1944 SOLVENT DEWAXING OF MINERAL OILS Luke B. Goodson, Phillips, Tex., James V. Montgomery, Fort Huachuca, Ariz., and Robert W. Henry, Bartlesville, Okla, assignors to Phillips Petroleum Company, a corporation of Delaware No Drawing.
Original application October 28,
1940, Serial No. 363.208. Divided and this application August 10, 1942, Serial No. 454,323
6 Claims.
This invention relates to the dewaxing of mineral oils, and more particularly it relates to dewaxing solvents. M
This application is a division of our copending application, Serial No. 363,208, filed October 28, 1940, and now issued as U. S. Patent No. 2,303,543, dated December 1, 1942.
It is known that certain organic oxygen containing compounds of the class of aliphatic, cyclic and aromatic alcohols, ethers, and ketones are antisolvents for parafiin Wax at low temperatures and are useful agents for the process of solvent dewaxing.
We have found that certain sulfur containing organic compounds of the general type of the above mentioned oxygen compounds and wherein the oxygen atom has been replaced by a sulfur atom, such as aliphatic, cyclic, or aromatic thioalcohols, thioethers, thioketones, and thioesters are good dewaxing solvents in that they are com pletely miscible with the waxy oil at elevated temperatures and have a high solubility for the oil component and a low solubility for the wax component at dewaxing temperatures particularly at temperatures of F. and below.
An object of this invention is to provide an improved solvent for use in the dewaxing of mineral oils.
Another object of this invention is to make use of a certain class of sulfur containing organic compounds in the solvent dewaxing of mineral oils.
Still another object of this invention is to provide a dewaxing solvent which may be used in connection with wax antisolvents.
Still other objects and advantages Will be ap-' parent from a study or the disclosure which follows:
These above mentioned types of organic sulfur compounds may be used in a wide range of solvent to oil ratios, depending in some measure upon the particular compound employed and upon the method of separating the wax from the chilled solvent oil solution. We have found that 3 to 1 solvent to oil ratios give good results. These waxy oil solvent solutions may be slow chilled or shock chilled to the required dewax ins temperatures. Either method of chilling in the presence of our improved dewaxing solvent gives distinct and sharp edged wax crystals which permit rapid and efiicient filtration. For example, wax precipitated by shock chilling in Carbondale chillers from a 3:1 solvent to oil solution gave a good filter rate. The advantages of shock chilling over slow chilling are readily understood by those skilled in the art.
The application. of our invention will give substantially wax free oils having pour points well within the range of efiectiveness of pour point depressants such as Parafiow, etc. Furthermore. the use of known wax antisolvents with these compounds gives oils of practically the same pour point as the dewaxing temperature.
The following examples serve to demonstrate the utility of our invention:
Example I One volume of treated waxy Mid-Continent lubricating oil stock of '70 seconds Saybolt universal viscosity at 210 F. was mixed with three volumes of diamyl sulfide and the mixture heated to F. to insure complete solution. The oilsolvent solution was then shock chilled to 0 F. in a Carbondale chiller to precipitate the wax and filtered in the conventional manner. The sulfide solvent was removed from the oil by distillation and gas stripping leaving an oil which had a pour point of 35 F.
Example [1 One volume of treated waxy Mid-Continent lubricating oil stock of '70 seconds Saybolt universal viscosity at 210 F. was mixed with three volumes of amyl mercaptan andthe whole heated to 150 F. as in Example I. The resulting solution was shock chilled to 0 F. and filtered. The solvent was removed as previously described and the resulting oil had a pour point of 30 F.
This invention is not to be limited in any manner by the above given examples which are listed for illustration only. It is to be understood that the homologs of these compounds are closely related in physical and chemical properties and that any of the said homologs which exist in suitable boiling point range as to permit separation from the oil and wax and Within suitable melting point range as to remain in the liquid state at dewaxing temperatures, are suitable within degree as dewaxing solvents. Among these homologs and other sulfur bearing compounds which are useful as dewaxing solvents may be listed: normal propyl mercaptan; iso-propyl mercaptan; butyl mercaptan; hexyl mercaptan; heptyl mercaptan; cyclo propyl mercaptan; cyclo butyl mercaptan; cyclo amyl mercaptan; cyclo hexyl mercaptan; cyclo heptyl mercaptan; methyl sulfide; ethyl sulfide; methyl-ethyl sulfide; propyl sulfide; butyl sulfide; carbon disulfide; methyl thiocyclo propane; methyl thiocyclo butane,
methyl thiocyclo pentane, methyl 'thiocyclo hexane, methyl thiobenzene, ethyl thiobenzene, mono, di, and tri-thio phenols, mono, di, and trithio cresols, etc., or mixtures of the above compounds, such as caustic oils or selected fractions of caustic oils which result from the treating of sour petroleum distillates with caustic, or from acid sludge which results from acid treatment of petroleum distillates containing sulfur compounds.
These abovementioned compounds when used with wax antisolvents such as acetone, methylethyl ketone, diethyl ketone, dipropyl ketone, dibutyl ketone and other aliphatic ketones, such as mixed ketone, pyridine, picolines, furfural, aniline, nitrobenzene, etc., give exceptionally good results as dewaxing agents. taining compounds in most cases are sufficiently good oil solvents and have sufilciently low melting points that the addition of a third component, such as toluol in the benzol-acetone process, to lower the miscibility temperature or to prevent crystallization of the solvent is unnecessary. This point is a decided advantage since it is much easier to control a two-component sol-vent than one containing three components.
The following examples illustrate the use of solvents composed of mixtures of our organic sulfur compounds with wax antisolvents.
Example I I I On volume of treated waxy Mid-Continent lubricating oil stock of 70 seconds Saybolt Universal viscosity at 210 F. was mixed with three volumes of solvent composed of 60% amyl mercaptan and 40% acetone. The components were mixed thoroughly to insure complete solution, shock chilled to F. in a Carbondale chiller, filtered and the solvent removed by distillation. The resulting dewaxed oil had a pour point of F.
Example IV One volume of the waxy oil used in Example III was mixed with three volumes of a solvent composed of 70% diamyl sulfide and acetone. The solution was mixed thoroughly, shock chilled to 0 F. as above, filtered, and the solvent removed by distillation. The oil resulting from the treatment had a pour point of 10 F.
In carrying out our invention, We do not wish to be limited by any special type of dewaxing apparatus, since essentially any standard dewaxing equipment should be satisfactory. For dewaxing of the above mentioned Mid-Continent oil stock, the oil to be dewaxed is mixed with the sulfur containing organic compound, as for example diamyl sulfide or amyl mercaptan with or without a wax anti-solvent, and the mixture warmed gently to insure complete and rapid solution, say to 120-- 140 F. The mixture is then chilled to the dewaxing temperature, say 0 F., in essentially any type of chilling apparatus available, and filtered in any suitable type of filter. Filtration is usually rapid since the wax crystals formed in our solvent are distinct and sharp edged. The slack wax may be These sulfur conwashed with additional solvent mixture at the dewaxing temperature to remove the adhering oilsolvent solution, while the combined filtrate solution and washings comprising dewaxed oil and solvent mixture are conducted to a solvent oil separating apparatus. This separating apparatus may comprise a conventional pipe heater and fractionator from which the solvent mixture is removed overhead as vapors and the oil exits from the lower portion thereof and is conducted to storage. The solvent vapors from the above mentioned fractionator are condensed and the condensate conducted to intermediate storage preparatory to reuse.
The above-given solvent combinations and solvent concentrations may be varied and used in many ways as will be readily understood by those skilled in the art without departing from the spirit of our invention, and we do not wish to be limited in any manner by the afore-given specific examples We claim:
1. The process of dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising diamyl sulfide and a wax antisolvent, in which the antisolvent is acetone, chilling the mixture to precipitate the wax, and removing the precipitated wax.
2. The process of dewaxin mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising diamyl sulfide and a wax antisolvent, in which the antisolvent is methyl ethyl ketone, chilling the mixture to precipitate the wax, and removing the precipitated wax.
3. The process of dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising approximately by volume of diamyl sulfide and approximately 30% by volume of acetone as a wax antisolvent, chilling the mixture to precipitate the wax, and removing the precipitated wax.
4. The process of dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising approximately 70% by volume of diamyl sulfide and approximately 30% by volume of methyl ethyl ketone as a wax antisolvent, chilling the mixture to precipitate the wax, and removing the precipitated wax.
5. The process of dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising a major proportion of diamyl sulfide and a minor proportion of a wax antisolvent, in which the antisolvent is acetone, chilling the mixture to precipitate the wax and separating the precipitated wax.
6. The process of dewaxing mineral oils including the steps of mixing the waxy oil with a dewaxing solvent comprising a major proportion of diamyl sulfide and a minor proportion of a wax antisolvent, in which the antisolvent is methyl ethyl ketone, chilling the mixture to precipitate the wax and separating the precipitated wax.
LUKE B. GOODSON. JAMES V. MONTGOMERY. ROBERT W. HENRY.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US454323A US2349039A (en) | 1940-10-28 | 1942-08-10 | Solvent dewaxing of mineral oils |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US363208A US2303543A (en) | 1940-10-28 | 1940-10-28 | Dewaxing solvent for mineral oils |
US454323A US2349039A (en) | 1940-10-28 | 1942-08-10 | Solvent dewaxing of mineral oils |
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US2349039A true US2349039A (en) | 1944-05-16 |
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US454323A Expired - Lifetime US2349039A (en) | 1940-10-28 | 1942-08-10 | Solvent dewaxing of mineral oils |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3159563A (en) * | 1960-06-13 | 1964-12-01 | Shell Oil Co | Wax-oil separation process |
-
1942
- 1942-08-10 US US454323A patent/US2349039A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3159563A (en) * | 1960-06-13 | 1964-12-01 | Shell Oil Co | Wax-oil separation process |
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