US2726987A - Solvent dewaxing of lubricating oil - Google Patents

Solvent dewaxing of lubricating oil Download PDF

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US2726987A
US2726987A US308323A US30832352A US2726987A US 2726987 A US2726987 A US 2726987A US 308323 A US308323 A US 308323A US 30832352 A US30832352 A US 30832352A US 2726987 A US2726987 A US 2726987A
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solvent
wax
oil
waxy
water
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Robert A Macke
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ExxonMobil Technology and Engineering Co
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Exxon Research and Engineering 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
    • C10G73/00Recovery or refining of mineral waxes, e.g. montan wax
    • C10G73/02Recovery of petroleum waxes from hydrocarbon oils; Dewaxing of hydrocarbon oils
    • C10G73/06Recovery of petroleum waxes from hydrocarbon oils; Dewaxing of hydrocarbon oils with the use of solvents

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  • the present invention is directed toa method for solvent dewaxing lubricating oil.
  • a dewaxing solvent or solvent mixture is employed in which an appreciably greater amount of water is soluble than in the waxy oil-solvent solution.
  • the warm dewaxing solvent or solvent mixture containing dissolved water has dissolved therein warm waxy oil to form a solution at a temperature above the wax nucleation temperature but at which water in finely divided particles appears as a second liquid phase.
  • the said solvent and the water dissolved therein are selected such that upon dissolving the Waxy oil in the solvent at a temperature above the wax nucleation temperature free water in an amount within the range of .25 to 5% by volume passes into the waxy oil in the form of fine particles of which approximately 90% are in the size range of 5 to microns.
  • the free water separated out upon adding the waxy oil to the solvent at a temperature above the Wax nucleation temperature may be within the range of .25 to 5% by volume and satisfactory results will be obtained.
  • a lubricating oil feed stock containing wax within the range of 5% to by volume it will often be found that when the free water at the wax nucleation temperature is present in the range of .25 to 1.10% by volume the most satisfactory results are secured. It may be found when separating oil from wax mixtures where the wax is present in considerably greater amounts, for example over 50%, that larger amounts of free water, up to 5% by volume at the wax nucleation temperature, may give the most desirable results.
  • solvents and solvent mixtures which may be used in the practice of the present invention are as follows: Ketone-aromatic mixtures wherein the ketone may be acetone, methylethyl ketone, methyl normal propyl ketone and diethyl ketone or mixtures thereof and the aromatic material may be benzol or toluol or mixtures thereof.
  • Other solvent mixtures are ethylene dichloride in admixture with benzol or chloroform or carbon tetrachloride or mixtures thereof.
  • furfural in admixture with benzol.
  • Many other well known dewaxing solvents and solvent mixtures having the requisite characteristics will be apparent to a workman skilled in the art.
  • a workman skilled in the art may readily select a suitable dewaxing solvent or solvent mixture, a suitable solvent temperature and the amount of water to be dissolved therein and a suitable temperature for dissolving warm waxy oil in the solvent containing said dissolved water so that upon dissolving said warm waxy oil the amount of free water and the particle size range thereof which passes into the waxy oil-solution are in the ranges previously disclosed.
  • water from 10 is admixed with warm dewaxing solvent in 11.
  • Warm waxy oil from 12 is dissolved in the warm solvent containing the dissolved water in unit 13 to form a solution.
  • the resultant solution contains dispersed water particles and is chilled in unit 14 (in a commercial unit the cooling in 14 may actually be carried out in multiple refrigeration stages) to the desired dewaxing temperature to cause the separation of wax particles in the form of agglomerates which are readily separated, the wax and oil then being separated in step 15, as by filtering by a rotary filter to obrain as products a dewaxed oil fraction and a wax fraction.
  • the drawing is in the form of a flow sheet and it will be understood that various well known steps, such as the recovery of solvent from the dewaxed oil and from separated wax have been omitted for the purpose of simplifying the description.
  • Example I A waxy neutral oil having a viscosity of 43.3 Saybolt seconds at 210 F. was divided into two fractions. The first fraction was dissolved in a solvent mixture con taining 0.6% by volume dissolved water and the second fraction was dissolved in solvent mixture containing 1.65% by volume dissolved water. The composition of the solvent mixture used for dissolving both the first and the second fraction consisted of 58% by volume methylethyl ketone, 39% by volume toluol and 3% by volume benzol. The wax nucleation temperature was approximately 115 F. The amount of water soluble in the waxy oil-solvent solution at F.
  • Example II A waxy distillate motor oil having a viscosity of 53.2 Saybolt seconds at 210 F. was separated into first and second samples. These samples were dissolved in a solvent having the 511118 composition as used in Example I with the first sample having 0.6% by volume water dissolved in the solvent and the second sample having 1.15% by volume of water dissolved in the solvent. The wax nucleation temperature was approximately 115 F. The excess water in the waxy oil solvent solution determined at 100 F. (approximately the wax nucleation temperafilter rate of 13.5 gallons per square foot per hour or an improvement of filter rate of 22%. These results are tabulated in columns 3 and 4 in the table set out hereafter.
  • a method of dewaxing a waxy mineral oil including the steps of dissolving a waxy mineral oil at a temperature above the wax nucleation temperature in a solvent having admixed therewith water in such an amount that upon solution of the waxy oil in the solvent to form solvent-waxy oil solution, free water within the range of .25 to 5% by volume based on the solvent-waxy oil solution, with approximately 3 90% within the particle size range of 5 to microns is separated from the solvent-waxy oil solution at approximately wax nucleation temperature, chilling the resultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax free oil fraction.
  • a method of dewaxing a waxy mineral oil containing wax within the range of 5 to by volume including the steps of dissolving said waxy mineral oil at a temperature above the wax nucleation temperature in a solvent having admixed therewith water in such an amount that upon admixture with the waxy oil to form solvent-Waxy oil solution free water within the range of .25 to 1.10% by volume based on the solvent-waxy oil solution with approximately within the particle size range of 5 to 20 microns is separated from the solventwaxy oil solution at approximately wax nucleation temperature, chilling the resultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax tree oil fraction.
  • a method for dewaxing a waxy mineral oil containing wax within the range of 5 to 25% by volume which includes the steps of dissolving said waxy mineral oil at a temperature above the wax nucleation temperature in a ketone aromatic solvent mixture having added thereto water in such an amount that upon admixture with the waxy oil to form solvent-waxy oil solution, free water within the range of .25 to 1.10% by volume based on the solvent-waxy oil solution, with approximately 90% within the particle size range of 5 to 20 microns is separated from the solvent waxy oil solution at approximately wax nucleation temperature, chilling the re sultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax free oil fraction.

Description

Dec.
1955 R. A. MACKE 2,726,987
SOLVENT DEWAXING OF LUBRICATING OIL Filed Sept. 8, 1952 Wafer Warm Warm Waxy fl? Dewaxing Oil Solvent rSo/venf Comaining Dissolved Wafer lncorporafor- Chilling To Dewaxing Temperature l4 Separafion 0f Solids From Liquid l5 Wax Dewaxed Oil INVENTOR.
Robert A. Macke A T TORNE Y 2,726,987 lc Patented Dec. 13, 1955 SOLVENT DEWAXING F LUBRICATING OIL Robert A. Macke, Baytown, Tex., assignor, by mesne assignments, to Esso Research and Engineering Company, Elizabeth, N. 1., a corporation of Delaware Application September 8, 1952, Serial No. 308,323
3 Claims. (Cl. 196-18) The present invention is directed toa method for solvent dewaxing lubricating oil.
It is well known to the art to remove wax from a waxy oil by dissolving the waxy oil in solvent, chilling the resultant solution to cause wax to precipitate and then separating the precipitated wax by some suitable means such as filtration or gravity settling. The present application is directed to an improved method for solvent dewaxing oil. The practice of the present invention will now be described in detail in conjunction with the accompanying drawing in which:
The sole figure is in the form of a flow sheet."
In the practice of the present invention a dewaxing solvent or solvent mixture is employed in which an appreciably greater amount of water is soluble than in the waxy oil-solvent solution. The warm dewaxing solvent or solvent mixture containing dissolved water has dissolved therein warm waxy oil to form a solution at a temperature above the wax nucleation temperature but at which water in finely divided particles appears as a second liquid phase. The said solvent and the water dissolved therein are selected such that upon dissolving the Waxy oil in the solvent at a temperature above the wax nucleation temperature free water in an amount within the range of .25 to 5% by volume passes into the waxy oil in the form of fine particles of which approximately 90% are in the size range of 5 to microns. Subsequent cooling to reduce the temperature to the desired dewaxing temperature causes the separation of wax particles in the form of large agglomerates thereby allowing the ready separation of a wax phase from a wax free oil phase. It is to be emphasized that the important feature of the solvent or solvent mixture selected is not the total amount of water which the solvent or solvent admixture dissolves. Rather it is the amount of water which separates out as free water in the form of finely divided particles when the waxy oil is dissolved in the solvent and as the solvent waxy oil solution is cooled from the selected first temperature to the lower wax nucleation temperature. As stated heretofore, in the practice of the present invention the free water separated out upon adding the waxy oil to the solvent at a temperature above the Wax nucleation temperature may be within the range of .25 to 5% by volume and satisfactory results will be obtained. With a lubricating oil feed stock containing wax within the range of 5% to by volume it will often be found that when the free water at the wax nucleation temperature is present in the range of .25 to 1.10% by volume the most satisfactory results are secured. It may be found when separating oil from wax mixtures where the wax is present in considerably greater amounts, for example over 50%, that larger amounts of free water, up to 5% by volume at the wax nucleation temperature, may give the most desirable results.
Specific examples of solvents and solvent mixtures which may be used in the practice of the present invention are as follows: Ketone-aromatic mixtures wherein the ketone may be acetone, methylethyl ketone, methyl normal propyl ketone and diethyl ketone or mixtures thereof and the aromatic material may be benzol or toluol or mixtures thereof. Other solvent mixtures are ethylene dichloride in admixture with benzol or chloroform or carbon tetrachloride or mixtures thereof. Another example is furfural in admixture with benzol. Many other well known dewaxing solvents and solvent mixtures having the requisite characteristics will be apparent to a workman skilled in the art. A workman skilled in the art may readily select a suitable dewaxing solvent or solvent mixture, a suitable solvent temperature and the amount of water to be dissolved therein and a suitable temperature for dissolving warm waxy oil in the solvent containing said dissolved water so that upon dissolving said warm waxy oil the amount of free water and the particle size range thereof which passes into the waxy oil-solution are in the ranges previously disclosed.
Turning now specifically to the drawing which is in the form of a flow sheet, water from 10 is admixed with warm dewaxing solvent in 11. Warm waxy oil from 12 is dissolved in the warm solvent containing the dissolved water in unit 13 to form a solution. The resultant solution contains dispersed water particles and is chilled in unit 14 (in a commercial unit the cooling in 14 may actually be carried out in multiple refrigeration stages) to the desired dewaxing temperature to cause the separation of wax particles in the form of agglomerates which are readily separated, the wax and oil then being separated in step 15, as by filtering by a rotary filter to obrain as products a dewaxed oil fraction and a wax fraction. The drawing is in the form of a flow sheet and it will be understood that various well known steps, such as the recovery of solvent from the dewaxed oil and from separated wax have been omitted for the purpose of simplifying the description.
The present invention will be further described by way of the following examples:
Example I A waxy neutral oil having a viscosity of 43.3 Saybolt seconds at 210 F. was divided into two fractions. The first fraction was dissolved in a solvent mixture con taining 0.6% by volume dissolved water and the second fraction was dissolved in solvent mixture containing 1.65% by volume dissolved water. The composition of the solvent mixture used for dissolving both the first and the second fraction consisted of 58% by volume methylethyl ketone, 39% by volume toluol and 3% by volume benzol. The wax nucleation temperature was approximately 115 F. The amount of water soluble in the waxy oil-solvent solution at F. (approximately the wax nucleation temperature) was 0.6% by volume so that there was no excess Water in the first sample while there was 1.05% by volume excess water in the second sample in the form of finely divided particles. Both samples were chilled to 0 F. and the wax filtered. The first sample gave a dewaxed oil filter rate of 46 gallons per square foot per hour while the second sample, which illustrates the practice of the present invention, gave a dewaxed oil filter rate of 73 gallons per square foot per hour or an increase of 58%. These results are tabulated in columns 1 and 2 of the table set out hereafter.
Example II A waxy distillate motor oil having a viscosity of 53.2 Saybolt seconds at 210 F. was separated into first and second samples. These samples were dissolved in a solvent having the 511118 composition as used in Example I with the first sample having 0.6% by volume water dissolved in the solvent and the second sample having 1.15% by volume of water dissolved in the solvent. The wax nucleation temperature was approximately 115 F. The excess water in the waxy oil solvent solution determined at 100 F. (approximately the wax nucleation temperafilter rate of 13.5 gallons per square foot per hour or an improvement of filter rate of 22%. These results are tabulated in columns 3 and 4 in the table set out hereafter.
' It is not understood why the procedure of the present invention causes the substantial improvement in results which are obtained. One postulate which has been advanced in explanation of the advantageous results is that the free water droplets act as nuclei upon which the wax crystals form and in this way the actual number of nuclei formed are controlled and thereby control the size of the resultant wax crystals. Another postulate which has been proposed is that each finely divided particle of water serves as a body, upon the interface or" which wax nuclei form thereby causing a large wax agglomerate to form. In the art of filtration it is known that larger crystals or larger crystal agglomerates filter more rapidly than small crystals and thus either of the postulates advanced would result in a more rapid filtration rate. In any event the procedure of the present invention does result in substantially improved filtration rates.
I claim:
1. A method of dewaxing a waxy mineral oil including the steps of dissolving a waxy mineral oil at a temperature above the wax nucleation temperature in a solvent having admixed therewith water in such an amount that upon solution of the waxy oil in the solvent to form solvent-waxy oil solution, free water within the range of .25 to 5% by volume based on the solvent-waxy oil solution, with approximately 3 90% within the particle size range of 5 to microns is separated from the solvent-waxy oil solution at approximately wax nucleation temperature, chilling the resultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax free oil fraction.
2. A method of dewaxing a waxy mineral oil containing wax within the range of 5 to by volume including the steps of dissolving said waxy mineral oil at a temperature above the wax nucleation temperature in a solvent having admixed therewith water in such an amount that upon admixture with the waxy oil to form solvent-Waxy oil solution free water within the range of .25 to 1.10% by volume based on the solvent-waxy oil solution with approximately within the particle size range of 5 to 20 microns is separated from the solventwaxy oil solution at approximately wax nucleation temperature, chilling the resultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax tree oil fraction.
3. A method for dewaxing a waxy mineral oil containing wax within the range of 5 to 25% by volume which includes the steps of dissolving said waxy mineral oil at a temperature above the wax nucleation temperature in a ketone aromatic solvent mixture having added thereto water in such an amount that upon admixture with the waxy oil to form solvent-waxy oil solution, free water within the range of .25 to 1.10% by volume based on the solvent-waxy oil solution, with approximately 90% within the particle size range of 5 to 20 microns is separated from the solvent waxy oil solution at approximately wax nucleation temperature, chilling the re sultant solution containing particles of free water to a temperature substantially below the wax nucleation temperature to cause wax crystals to form and subsequently separating a wax crystal fraction from a wax free oil fraction.
References Cited in the file of this patent UNITEDSTATES PATENTS 2,478,456 Boudreaux Aug. 9, 1949 2,584,966 Reeves Feb. 5, 1952 2,688,587 Pokorny et al Sept. 7, 1954

Claims (1)

1. A METHOD OF DEWAXING A WAXY MINERAL OIL INCLUDING THE STEPS OF DISSOLVING A WAXY MINERAL OIL AT A TEMPERATURE ABOVE THE WAX NUCLEATION TEMPERATURE IN A SOLVENT HAVING ADMIXED THEREWITH WATER IN SUCH AN AMOUNT THAT UPON SOLUTION OF THE WAXY OIL IN THE SOLVENT TO FORM SOLVENT-WAXY OIL SOLUTION, FREE WATER WITHIN THE RANGE OF .25 TO 5% BY VOLUME BASED ON THE SOLVENT-WAXY OIL SOLUTION, WITH APPROXIMATELY 90% WITHIN THE PARTICLE SIZE RANGE OF 5 TO 20 MICRONS IS SEPARATED FROM THE SOLVENT-WAXY OIL SOLUTION AT APPROXIMATELY WAX NUCLEATION TEMPERATURE, CHILLING THE RESULTANT SOLUTION CONTAINING PARTICLES OF FREE WATER TO A TEMPERATURE SUBSTANTIALLY BELOW THE WAX NUCLEATION TEMPERATURE TO CAUSE WAX CRYSTALS TO FORM AND SUBSEQUENTLY SEPARATING A WAX CRYSTAL FRACTION FROM A WAX FREE OIL FRACTION.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3320153A (en) * 1964-12-10 1967-05-16 Chevron Res Process for dewaxing oils
US3972779A (en) * 1974-07-26 1976-08-03 Texaco Inc. Means for controlling dewaxing apparatus

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2478456A (en) * 1946-03-15 1949-08-09 Socony Vaeuum Oil Company Inc Solvent dewaxing
US2584966A (en) * 1948-09-10 1952-02-05 Socony Vacuum Oil Co Inc Chilling of oils
US2688587A (en) * 1951-03-28 1954-09-07 Standard Oil Dev Co Solvent dewaxing operation

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2478456A (en) * 1946-03-15 1949-08-09 Socony Vaeuum Oil Company Inc Solvent dewaxing
US2584966A (en) * 1948-09-10 1952-02-05 Socony Vacuum Oil Co Inc Chilling of oils
US2688587A (en) * 1951-03-28 1954-09-07 Standard Oil Dev Co Solvent dewaxing operation

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3320153A (en) * 1964-12-10 1967-05-16 Chevron Res Process for dewaxing oils
US3972779A (en) * 1974-07-26 1976-08-03 Texaco Inc. Means for controlling dewaxing apparatus

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