EP2072611A1 - Schmiermittelzusammensetzung, die für Motoren geeignet ist, die mit alternativen Kraftstoffen angetrieben werden - Google Patents
Schmiermittelzusammensetzung, die für Motoren geeignet ist, die mit alternativen Kraftstoffen angetrieben werden Download PDFInfo
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- EP2072611A1 EP2072611A1 EP08168853A EP08168853A EP2072611A1 EP 2072611 A1 EP2072611 A1 EP 2072611A1 EP 08168853 A EP08168853 A EP 08168853A EP 08168853 A EP08168853 A EP 08168853A EP 2072611 A1 EP2072611 A1 EP 2072611A1
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- hydrocarbyl
- dispersant
- lubricant composition
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- emulsion
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M133/00—Lubricating compositions characterised by the additive being an organic non-macromolecular compound containing nitrogen
- C10M133/02—Lubricating compositions characterised by the additive being an organic non-macromolecular compound containing nitrogen having a carbon chain of less than 30 atoms
- C10M133/04—Amines, e.g. polyalkylene polyamines; Quaternary amines
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M133/00—Lubricating compositions characterised by the additive being an organic non-macromolecular compound containing nitrogen
- C10M133/52—Lubricating compositions characterised by the additive being an organic non-macromolecular compound containing nitrogen having a carbon chain of 30 or more atoms
- C10M133/56—Amides; Imides
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M149/00—Lubricating compositions characterised by the additive being a macromolecular compound containing nitrogen
- C10M149/12—Macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
- C10M149/14—Macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds a condensation reaction being involved
- C10M149/16—Macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds a condensation reaction being involved between the nitrogen-containing monomer and an aldehyde or ketone
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/02—Amines, e.g. polyalkylene polyamines; Quaternary amines
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/28—Amides; Imides
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2217/00—Organic macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2217/02—Macromolecular compounds obtained from nitrogen containing monomers by reactions only involving carbon-to-carbon unsaturated bonds
- C10M2217/022—Macromolecular compounds obtained from nitrogen containing monomers by reactions only involving carbon-to-carbon unsaturated bonds containing monomers having an unsaturated radical bound to an amino group
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2217/00—Organic macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2217/04—Macromolecular compounds from nitrogen-containing monomers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
- C10M2217/043—Mannich bases
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2040/00—Specified use or application for which the lubricating composition is intended
- C10N2040/04—Oil-bath; Gear-boxes; Automatic transmissions; Traction drives
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2050/00—Form in which the lubricant is applied to the material being lubricated
- C10N2050/01—Emulsions, colloids, or micelles
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2060/00—Chemical after-treatment of the constituents of the lubricating composition
- C10N2060/14—Chemical after-treatment of the constituents of the lubricating composition by boron or a compound containing boron
Definitions
- the present disclosure relates to lubricant and emulsion compositions, and methods of use thereof.
- biorenewable fuels such as alcohol-based fuels
- biorenewable fuel powered internal combustion engines resulted from the shortages or threatened shortages such as that which occurred in the 1970s.
- the automotive companies reduced their efforts to find alternative fuels, e.g., methanol- and ethanol- based fuels, because such fuels required changes in the design of engines to permit the engines to operate.
- alternative fuels e.g., methanol- and ethanol- based fuels
- biorenewable fuels in internal combustion engines poses unique problems. For example, alcohol-based fuels are much more corrosive than traditional gasoline. In response, the automotive industry has engineered fuel tanks, engine parts, and fuel delivery systems with corrosion-resistant materials, such as stainless steel.
- lubricant compositions used therein to reduce harm to these and other parts under certain driving conditions, such as the eponymous "Aunt Minnie" driving cycle (a driving cycle that simulates a vehicle being used infrequently for short-distance trips, without the engine fully warming up to optimal operating temperatures before shutoff in cold climates.)
- lubricant compositions for use in biorenewable-fueled engines must form stable emulsions without separation of an aqueous layer. Such aqueous phase separation can result in corrosive wear on engine parts, pre-ignition problems, engine stall, and reduced fuel economy, among other undesirable problems.
- lubricant compositions which are useful in internal combustion engines fueled by biorenewable fuels and will prevent or minimize aqueous phase separation when used in such engines. It is also desirable that such lubricant compositions can be used in internal combustion engines which can operate on both gasoline and bioreneweable fuels (so-called “flexible-fuel” or “variable-fuel” vehicles) because it may not always be possible, such as during an interim or changeover period, to find service stations selling biorenewable fuels. In such cases, it would be desirable for the vehicle to operate on gasoline instead of biorenewable fuels.
- a lubricant composition suitable for use in engines fueled by gasoline or biorenewable fuels or both, comprising an oil of lubricating viscosity, and a dispersant system comprising at least one dispersant selected from the group consisting of hydrocarbyl-substituted succinimides, hydrocarbyl-substituted amines, and Mannich base adducts derived from a hydrocarbyl-substituted phenol condensed with an aldehyde and an amine
- an emulsion composition comprising a biorenewable fuel, an oil of lubricant viscosity, and a dispersant system comprising at least one dispersant selected from the group consisting of hydrocarbyl-substituted succinimides, hydrocarbyl-substituted amines, or Mannich base adducts derived from a hydrocarbyl-substituted phenol condensed with an aldehyde and an amine.
- a method of reducing aqueous separation in an emulsion composition comprising providing an emulsion composition comprising a biorenewable fuel and an oil of lubricating viscosity; and providing to said emulsion composition a dispersant system comprising at least one dispersant selected from the group consisting of hydrocarbyl-substituted succinimides, hydrocarbyl-substituted amines, or Mannich base adducts derived from a hydrocarbyl-substituted phenol condensed with an aldehyde and an amine.
- the present disclosure relates to lubricant and emulsion compositions
- a dispersant system comprising at least one dispersant selected from the group consisting of hydrocarbyl-substituted succinimides, hydrocarbyl-substituted amines, Mannich base adducts derived from a hydrocarbyl-substituted phenol condensed with an aldehyde and an amine, and mixtures thereof.
- Emulsion compositions such as such as alcohol-based fuels comprising hybrid fractions, can be used as biorenewable fuels in internal combustion engines.
- a biorenewable fuel can comprise a carbon-based fraction (e.g., gasoline or diesel) and an alcohol-based fraction (e.g., methanol or ethanol), wherein the two fractions can be induced to form a fuel emulsion that can then be used to power an internal combustion engine.
- a key problem in providing suitable and stable emulsion compositions arises from the limited miscibility of gasoline and alcohol. Due to such limited miscibility, even a small amount of water (which is highly miscible with alcohol) can destabilize the emulsion composition and induce phase separation.
- Phase separation of emulsion compositions can pose acute problems when such emulsion compositions are used as fuel for internal combustion engines. For example, if an emulsion composition destabilizes and an aqueous phase separates, the aqueous phase can be drawn into the engine by the fuel pump and combust in the engine. This combustion can be damaging to the engine because the aqueous phase creates a leaner combustion mixture (e.g., air to fuel ratio is higher than ideal), which tends to combust at higher temperatures and can damage the engine. Thus, there is a need to prevent or minimize aqueous phase separation in biorenewable fuels.
- a leaner combustion mixture e.g., air to fuel ratio is higher than ideal
- the term “major amount” is understood to mean an amount greater than or equal to 50 wt. %, for example from about 80 to about 98 wt.% relative to the total weight of the composition.
- the term “minor amount” is understood to mean an amount less than 50 wt. % relative to the total weight of the composition.
- hydrocarbon As used herein, the terms "hydrocarbon”, “hydrocarbyl” or “hydrocarbon based” are understood to mean that the group being described has predominantly hydrocarbon character within the context of this invention. These include groups that are purely hydrocarbon in nature, that is, they contain only carbon and hydrogen. They may also include groups containing substituents or atoms which do not alter the predominantly hydrocarbon character of the group. Such substituents may include halo, alkoxy, nitro, etc. These groups also may contain hetero atoms. Suitable hetero atoms will be apparent to those skilled in the art and include, for example, sulfur, nitrogen and oxygen. Therefore, while remaining predominantly hydrocarbon in character within the context of this invention, these groups may contain atoms other than carbon present in a chain or ring otherwise composed of carbon atoms.
- biorenewable fuel and its grammatical derivatives are understood to mean fuels which are derived from resources other than petroleum.
- resources include, but are not limited to, corn, maize, soybeans and other crops; grasses, such as switchgrass, miscanthus, and hybrid grasses; vegetable oils; natural fats; and mixtures thereof.
- a dispersant system suitable for use herein can comprise at least one dispersant.
- Useful dispersants include, but are not limited to, basic nitrogen-containing ashless dispersants, such as hydrocarbyl succinimides; hydrocarbyl succinamides; mixed ester/amides of hydrocarbyl-substituted succinic acids formed by reacting a hydrocarbyl-substituted succinic acylating agent stepwise or with a mixture of alcohols and amines, and/or with amino alcohols; Mannich condensation products of hydrocarbyl-substituted phenols, formaldehyde and polyamines; and amine dispersants formed by reacting high molecular weight alphatic or alicyclic halides with amines, such as polyalkylene polyamines. Mixtures of such dispersants can also be used.
- Mannich dispersants which are condensation products of hydrocarbyl-substituted phenols, formaldehyde and polyamines are described, for example, in U.S. Pat. Nos. 3,368,972 ; 3,413,347 ; 3,539,633 ; 3,697,574 ; 3,725,277 ; 3,725,480 ; 3,726,882 ; 3,798,247 ; 3,803,039 ; 3,985,802 ; 4,231,759 and 4,142,980 .
- Amine dispersants and methods for their production from high molecular weight aliphatic or alicyclic halides and amines are described, for example, in U.S. Pat. Nos. 3,275,554 ; 3,438,757 ; 3,454,555 ; and 3,565,804 .
- amines containing basic nitrogen or basic nitrogen and additionally one or more hydroxyl groups can be used in the formation of dispersants suitable for use herein.
- the amines can be polyamines such as polyalkylene polyamines, hydroxy-substituted polyamines and polyoxyalkylene polyamines.
- polyalkylene polyamines include diethylene triamine, triethylene tetramine, tetraethylene pentamine, pentaethylene hexamine, and dipropylene triamine.
- Pure polyethylene polyamines can be used, as well as mixtures of linear, branched and cyclic polyethylene polyamines having an average in the range of about 2.5 to about 7.5 nitrogen atoms per molecule, such as about 3 to about 5 nitrogen atoms per molecule.
- Examples of hydroxy-substituted amines include, but are not limited to, N-hydroxyalkyl-alkylene polyamines such as N-(2-hydroxyethyl)ethylene diamine, N-(2-hydroxyethyl)piperazine, and N-hydroxyalkylated alkylene diamines of the type described in U.S. Pat. No. 4,873,009 .
- Polyoxyalkylene polyamines typically include polyoxyethylene and polyoxypropylene diamines and triamines having average molecular weights in the range of 200 to 2500.
- the at least one dispersant can contain hydrocarbyl substituents such as olefinic hydrocarbons.
- hydrocarbyl substituents such as olefinic hydrocarbons.
- suitable olefinic hydrocarbons includes isobutene, such as those made by cracking a hydrocarbon stream to produce a hydrocarbon mixture of essentially C 4 -hydrocarbons.
- thermocracking processes streamcracker
- C 4 cuts comprising C 4 paraffins and C 4 olefins, with a major component being isobutene.
- Butadiene and acetylene are substantially removed from the stream by additional selective hydrogenation or extractive distillation techniques.
- raffinate I The resulting stream is referred to as "raffinate I" and is suitable for polyisobutylene (PIB) synthesis and has the following typical composition: 44-49% of isobutene, 24-28% of 1-butene, 19-21 % of 2-butene, 6-8% of n-butane, 2-3% of isobutane.
- the components of the raffinate I stream may vary depending on operating conditions. Purification of the raffinate I stream provides an essentially pure isobutene product.
- Relatively low molecular weight PIB for can also be used to produce dispersants suitable for use herein, such as those derived from polymerization of isobutene.
- the resulting product can have a terminal vinylidene group content ranging from about 50 to about 60 percent by weight of the polymerization product.
- the terminal vinylidene group content is believed to have an effect on the reactivity of the PIB during an alkylation process for making a succinic acid adduct, an amine adduct, or an alkyl phenol adduct.
- Highly reactive PIB can also be used to produce dispersants suitable for use herein, such as those derived from the polymerization of a mixture of raffinate I and isobutene.
- a hydrocarbyl subsitutent produced from the polymerization of a mixture of raffinate I and isobutene can be more reactive than PIB, as evidenced by its terminal vinylidene group content.
- the terminal vinylidene content of a polymerized mixture of raffinate I and isobutene is typically above about 70% by weight.
- the polymerization product can have a number average molecular weight ranging from about 500 to about 5,000, such as from about 1,000 to about 2,500, for example from about 1,300 to about 2,200.
- the polymerization reaction used to form the polymerization product is generally carried out in the presence of a conventional Ziegler-Natta or metallocene catalyst system.
- the polymerization medium can include solution, slurry, or gas phase processes, as known to those skilled in the art.
- the solvent may be any suitable inert hydrocarbon solvent that is liquid under reaction conditions for polymerization of alpha-olefins.
- hydrocarbon solvents examples include, but are not limited to, straight chain paraffins comprising from about 5 to about 8 carbon atoms, such as hexane; aromatic hydrocarbons, for example, aromatic hydrocarbons having a single benzene nucleus, such as benzene and toluene; and saturated cyclic hydrocarbons having boiling point ranges approximating those of the straight chain paraffinic hydrocarbons and aromatic hydrocarbons described above.
- the solvent selected can be a mixture of one or more of the foregoing hydrocarbons.
- the liquid phase for polymerization is can be liquid propylene. It is desirable that the polymerization medium be free of substances that will interfere with the catalyst components.
- the dispersant system described herein can comprise at least first and second dispersants each independently selected from the group consisting of hydrocarbyl-substituted succinimides, hydrocarbyl-substituted amines, and Mannich base adducts derived from hydrocarbyl-substituted phenols condensed with aldehydes.
- the first and second dispersants can each independently comprise a hydrocarbyl substituent having a number average molecular weight ranging from about 500 to about 5,000, such as from about 1,000 to about 2,500, for example from about 1,300 to about 2,200, as determined by gel permeation chromatography.
- Hydrocarbyl-substituted succinic acylating agents can be used to make hydrocarbyl-substituted succinimides suitable for use herein.
- the hydrocarbyl-substituted succinic acylating agents can include, but are not limited to, hydrocarbyl-substituted succinic acids, hydrocarbyl-substituted succinic anhydrides, the hydrocarbyl-substituted succinic acid halides (such as acid fluorides and acid chlorides), and the esters of the hydrocarbyl-substituted succinic acids and lower alcohols (e.g., those containing up to 7 carbon atoms), that is, hydrocarbyl-substituted compounds which can function as carboxylic acylating agents.
- hydrocarbyl-substituted succinic acylating agents can be hydrocarbyl-substituted succinic acids and the hydrocarbyl-substituted succinic anhydrides and mixtures of such acids and anhydrides.
- Hydrocarbyl-substituted acylating agents can be made by reacting a polyolefin of desirable molecular weight (with or without chlorine) with an appropriate carboxylic reactant, such as succinic acid, succinic anhydride, maleic acid, maleic anhydride, fumaric acid, fumaric anhydride, malic acid, malic anhydride, tartaric acid, tartaric anhydride, itaconic acid, itaconic anhydride, citraconic acid, citraconic anhydride, mesaconic acid, mesaconic anhydride, ethylmaleic acid, ethylmaleic anhydride, dimethylmaleic acid, dimethylmaleic anhydride, hexamaleic acid, hexamaleic anhydride, and the like, including corresponding acid halides and lower aliphatic esters.
- the dispersant can be the reaction product of a polyolefin and a succinic acid or anhydride
- Hydrocarbyl-substituted succinic anhydrides can be prepared by heating a mixture of the desired anhydride and an aliphatic olefin under reaction conditions well known in the art.
- the molecular weight of the olefin can vary depending upon the intended use of the substituted succinic anhydrides.
- the substituted succinic anhydrides can have a hydrocarbyl group of from 8-500 carbon atoms.
- Dispersants comprising a hydrocarbyl group comprising from about 8 to about 150 carbon atoms are herein referred to as "relatively low molecular weight dispersants,” whereas dispersants comprising a hydrocarbyl group comprising more than about 150 carbon atoms up to about 500 carbon atoms are herein referred to as “relatively high molecular weight dispersants.”
- Mn number average molecular weight
- the olefins used to make these substituted succinic anhydrides can include a mixture of different molecular weight components resulting from the polymerization of low molecular weight olefin monomers such as ethylene, propylene and isobutylene.
- the mole ratio of anhydride to olefin can vary widely. It can vary, for example, from 5:1 to 1:5, such as from about 1:1 to about 1:1.6. With olefins such as ethylene-alpha-olefin copolymers and polyisobutylene having a number average molecular weight of about 500 to about 7000, such as of about 800 to about 3000 or higher, the anhydride is can be used in stoichiometric excess, for example about 1.1 to 3 moles anhydride per mole of olefin. The unreacted anhydride can be vaporized from the resultant reaction mixture.
- olefins such as ethylene-alpha-olefin copolymers and polyisobutylene having a number average molecular weight of about 500 to about 7000, such as of about 800 to about 3000 or higher
- the anhydride is can be used in stoichiometric excess, for example about 1.1 to 3 moles anhydride per
- Hydrocarbyl-substituted succinic anhydrides can include polyalkyl or polyalkenyl succinic anhydrides prepared by the reaction of the desired anhydride with the desired polyolefin or chlorinated polyolefin, under reaction conditions well known in the art.
- succinic anhydrides can be prepared by the thermal reaction of a polyolefin and maleic anhydride, as described in U.S. Pat. Nos. 3,361,673 ; 3,676,089 ; and 5,454,964 .
- the substituted succinic anhydrides can be prepared by the reaction of chlorinated polyolefins with maleic anhydride, as described, for example, in U.S. Pat. No.
- hydrocarbyl-substituted succinic anhydrides can be found, for example, in U.S. Pat. Nos. 4,234,435 ; 5,620,486 and 5,393,309 . These hydrocarbyl substituents can contain from about 40 to about 500 carbon atoms.
- Polyalkenyl succinic anhydrides can be converted to polyalkyl succinic anhydrides by using conventional reducing conditions such as catalytic hydrogenation.
- a catalyst can be palladium on carbon.
- polyalkenyl succinimides can be converted to polyalkyl succinimides using similar reducing conditions.
- the polyalkyl or polyalkenyl substituent on the succinic anhydrides employed herein can be derived from polyolefins which are polymers or copolymers of mono-olefins, such as 1-mono-olefins, for example ethylene, propylene and butylene.
- the mono-olefin can have from about 2 to about 24 carbon atoms, such as about 3 to 12 carbon atoms.
- Other non-limiting examples of mono-olefins include propylene, butylene, isobutylene, 1-octene, and 1-decene.
- Polyolefins prepared from such mono-olefins can include polypropylene, polybutene, polyisobutene, and the polyalphaolefins produced from 1-octene and 1-decene.
- Dispersants can be prepared, for example, by reacting the hydrocarbyl-substituted succinic acids or anhydrides with an amine.
- amines include polyamines and hydroxyamines.
- polyamines that may be used include, but are not limited to, aminoguanidine bicarbonate (AGBC), diethylene triamine (DETA), triethylene tetramine (TETA), tetraethylene pentamine (TEPA), pentaethylene hexamine (PEHA) and heavy polyamines.
- a heavy polyamine is a mixture of polyalkylenepolyamines comprising small amounts of lower polyamine oligomers such as TEPA and PEHA but primarily oligomers comprising 7 or more nitrogen atoms, 2 or more primary amines per molecule, and more extensive branching than conventional polyamine mixtures.
- Non-limiting examples of polyamines that are also suitable for preparing the dispersants described herein include N-arylphenylenediamines, such as N-phenylphenylenediamines, for example, N-phenyl-1,4-phenylenediamine, N-phenyl-1,3-phenylendiamine, and N-phenyl-1,2-phenylenediamine; aminothiazoles such as aminothiazole, aminobenzothiazole, aminobenzothiadiazole and aminoalkylthiazole; aminocarbazoles; aminoindoles; aminopyrroles; aminoindazolinones; aminomercaptotriazoles; aminoperimidines; aminoalkyl imidazoles, such as 1-(2-aminoethyl) imidazole, 1-(3-aminopropyl) imidazole; and aminoalkyl morpholines, such as 4-(3-aminopropyl) morpholine. These polyamines are described in more
- Additional polyamines useful in forming the hydrocarbyl-substituted succinimides include polyamines having at least one primary or secondary amino group and at least one tertiary amino group in the molecule as taught in U.S. Pat. Nos. 5,634,951 and 5,725,612 .
- Non-limiting examples of suitable polyamines include N,N,N",N"-tetraalkyldialkylenetriamines (two terminal tertiary amino groups and one central secondary amino group), N,N,N',N"-tetraalkyltrialkylenetetramines (one terminal tertiary amino group, two internal tertiary amino groups and one terminal primary amino group), N,N,N',N",N'"-pentaalkyltrialkylenetetramines (one terminal tertiary amino group, two internal tertiary amino groups and one terminal secondary amino group), tris(dialkylaminoalkyl)aminoalkylmethanes (three terminal tertiary amino groups and one terminal primary amino group), and like compounds, wherein the alkyl groups are the same or different and typically contain no more than about 12 carbon atoms each, and which can contain from about 1 to about 4 carbon atoms each. In an aspect, these alkyl groups can be methyl and
- Hydroxyamines suitable for use herein include, but are not limited to, compounds, oligomers or polymers containing at least one primary or secondary amine capable of reacting with the hydrocarbyl-substituted succinic acid or anhydride.
- suitable hydroxyamines include aminoethylethanolamine (AEEA), aminopropyldiethanolamine (APDEA), ethanolamine, diethanolamine (DEA), partially propoxylated hexamethylene diamine (for example HMDA-2PO or HMDA-3PO), 3-amino-1,2-propanediol, tris(hydroxymethyl)aminomethane, and 2-amino-1,3-propanediol.
- the mole ratio of amine to hydrocarbyl-substituted succinic acid or anhydride can range from about 1:1 to about 2.5:1, such as from about 1.5:1 to about 2:1.
- the foregoing dispersants can also be post treated dispersants made, for example, by treating a dispersant with maleic anhydride and boric acid as described, for example, in U.S. Pat. No. 5,789,353 , or by treating the dispersant with nonylphenol, formaldehyde and glycolic acid as described, for example, in U.S. Pat. No. 5,137,980 .
- at least one of the first and second dispersants is a post treated dispersant.
- Mannich base dispersants can be a reaction product of an alkyl phenol, typically having a long chain alkyl substituent on the ring, with one or more aliphatic aldehydes containing from 1 to about 7 carbon atoms (especially formaldehyde and derivatives thereof), and polyamines (especially polyalkylene polyamines). Examples of Mannich condensation products, and methods for their production are described in U.S. Pat. Nos.
- Hydrocarbon sources suitable for preparation of the Mannich polyamine dispersants can include those derived from substantially saturated petroleum fractions and olefin polymers, such as polymers of mono-olefins comprising from about 2 to about 6 carbon atoms.
- the hydrocarbon source can contain at least about 40, such as at least about 50 carbon atoms, to provide substantial oil solubility to the dispersant.
- the olefin polymers having a GPC number average molecular weight between about 600 and 5,000 can be useful due to their of easy reactivity and low cost. However, polymers of higher molecular weight can also be used.
- Other non-limiting examples of hydrocarbon sources include isobutylene polymers and polymers made from a mixture of isobutene and a raffinate I stream.
- Mannich base dispersants suitable for use herein include those formed by condensing about one molar proportion of long chain hydrocarbon-substituted phenol with from about 1 to 2.5 about moles of formaldehyde and from about 0.5 to about 2 moles of polyalkylene polyamine.
- Polymeric polyamine dispersants suitable for use herein include polymers containing basic amine groups and oil solubilizing groups (for example, pendant alkyl groups having at least about 8 carbon atoms). Such materials are illustrated by interpolymers formed from various monomers, such as decyl methacrylate, vinyl decyl ether, or relatively high molecular weight olefins, with aminoalkyl acrylates and aminoalkyl acrylamides. Examples of polymeric polyamine dispersants are set forth in U.S. Pat. Nos. 3,329,658 ; 3,449,250 ; 3,493,520 ; 3,519,565 ; 3,666,730 ; 3,687,849 ; and 3,702,300 .
- polymeric polyamines include hydrocarbyl polyamines wherein the hydrocarbyl group is comprises the polymerization product of isobutene and a raffinate I stream as described above.
- PIB-amine and PIB-polyamines may also be used.
- Mixtures of the first and second dispersants can be made by combining the components in a conventional manner.
- a higher molecular weight dispersant can be present in the mixture can be in an amount ranging from about 30 to about 70% by weight, such as from about 45 to about 65% by weight of the total weight of the mixed dispersants.
- a lower molecular weight dispersant can be present in the mixture in an amount ranging from about 70 to about 30% by weight, such as from about 35 to about 45% by weight of the total weight of the mixed dispersants.
- the ratio of the first to second dispersant can vary widely. It can vary, for example, from about 1:3 to about 3:1, such as from about 1:1 to about 1:3.
- Non-limiting examples of other components include antiwear agents, detergents, diluents, defoamers, demulsifiers, anti-foam agents, corrosion inhibitors, extreme pressure agents, seal well agents, antioxidants, pour point depressants, rust inhibitors and friction modifiers.
- Base oils suitable for use in formulating the disclosed compositions can be selected from any of the synthetic or mineral oils or mixtures thereof.
- Mineral oils include animal oils and vegetable oils (e.g., castor oil, lard oil) as well as other mineral lubricating oils such as liquid petroleum oils and solvent treated or acid-treated mineral lubricating oils of the paraffinic, naphthenic or mixed paraffinic-naphthenic types. Oils derived from coal or shale are also suitable. Further, oils derived from a gas-to-liquid process are also suitable.
- the base oil can be present in a major amount, wherein "major amount” is understood to mean greater than or equal to 50%, for example from about 80 to about 98 percent by weight of the lubricant composition.
- the base oil typically has a viscosity of, for example, from about 2 to about 150 cSt and, as a further example, from about 5 to about 15 cSt at 100°C.
- the base oils can normally have a viscosity in the range of about SAE 15 to about SAE 250, and more usually can range from about SAE 20W to about SAE 50.
- Suitable automotive oils also include cross-grades such as 15W-40, 20W-50, 75W-140, 80W-90, 85W-140, 85W-90, and the like.
- Non-limiting examples of synthetic oils include hydrocarbon oils such as polymerized and interpolymerized olefins (e.g., polybutylenes, polypropylenes, propylene isobutylene copolymers, etc.); polyalphaolefins such as poly(1-hexenes), poly-(1-octenes), poly(1-decenes), etc.
- hydrocarbon oils such as polymerized and interpolymerized olefins (e.g., polybutylenes, polypropylenes, propylene isobutylene copolymers, etc.); polyalphaolefins such as poly(1-hexenes), poly-(1-octenes), poly(1-decenes), etc.
- alkylbenzenes e.g., dodecylbenzenes, tetradecylbenzenes, di-nonylbenzenes, di-(2-ethylhexyl)benzenes, etc.
- polyphenyls e.g., biphenyls, terphenyl, alkylated polyphenyls, etc.
- Alkylene oxide polymers and interpolymers and derivatives thereof where the terminal hydroxyl groups have been modified by esterification, etherification, etc. constitute another class of known synthetic oils that can be used.
- Such oils are exemplified by the oils prepared through polymerization of ethylene oxide or propylene oxide, the alkyl and aryl ethers of these polyoxyalkylene polymers (e.g., methyl-polyisopropylene glycol ether having an average molecular weight of about 1000, diphenyl ether of polyethylene glycol having a molecular weight of about 500-1000, diethyl ether of polypropylene glycol having a molecular weight of about 1000-1500, etc.) or mono- and polycarboxylic esters thereof, for example, the acetic acid esters, mixed C 3-8 fatty acid esters, or the C 13 Oxo acid diester of tetraethylene glycol.
- esters of dicarboxylic acids e.g., phthalic acid, succinic acid, alkyl succinic acids, alkenyl succinic acids, maleic acid, azelaic acid, suberic acid, sebacic acid, fumaric acid, adipic acid, linoleic acid dimer, malonic acid, alkyl malonic acids, alkenyl malonic acids, etc.
- alcohols e.g., butyl alcohol, hexyl alcohol, dodecyl alcohol, 2-ethylhexyl alcohol, ethylene glycol, diethylene glycol monoether, propylene glycol, etc.
- these esters include dibutyl adipate, di(2-ethylhexyl)sebacate, di-n-hexyl fumarate, dioctyl sebacate, diisooctyl azelate, diisodecy
- Esters useful as synthetic oils also include those made from C 5-12 monocarboxylic acids and polyols and polyol ethers such as neopentyl glycol, trimethylol propane, pentaerythritol, dipentaerythritol, tripentaerythritol, etc.
- the base oil which can be used to make the compositions as described herein can be selected from any of the base oils in Groups I-V as specified in the American Petroleum Institute (API) Base Oil Interchangeability Guidelines.
- Such base oil groups are as follows:
- Group I contain less than 90% saturates and/or greater than 0.03% sulfur and have a viscosity index greater than or equal to 80 and less than 120;
- Group II contain greater than or equal to 90% saturates and less than or equal to 0.03% sulfur and have a viscosity index greater than or equal to 80 and less than 120;
- Group III contain greater than or equal to 90% saturates and less than or equal to 0.03% sulfur and have a viscosity index greater than or equal to 120;
- Group IV are polyalphaolefins (PAO); and
- Group V include all other base oils not included in Group I, II, III or IV.
- test methods used in defining the above groups are ASTM D2007 for saturates; ASTM D2270 for viscosity index; and one of ASTM D2622, 4294, 4927 and 3120 for sulfur.
- Group IV base oils i.e. polyalphaolefins (PAO) include hydrogenated oligomers of an alpha-olefin, the most important methods of oligomerisation being free radical processes, Ziegler catalysis, and cationic, Friedel-Crafts catalysis.
- PAO polyalphaolefins
- the polyalphaolefins typically have viscosities in the range of 2 to 100 cSt at 100°C., for example 4 to 8 cSt at 100°C. They can, for example, be oligomers of branched or straight chain alpha-olefins having from about 2 to about 30 carbon atoms, non-limiting examples include polypropenes, polyisobutenes, poly-1-butenes, poly-1-hexenes, poly-1-octenes and poly-1-decene. Included are homopolymers, interpolymers and mixtures.
- Base oils suitable for use herein can be made using a variety of different processes including but not limited to distillation, solvent refining, hydrogen processing, oligomerisation, esterification, and re-refining.
- the base oil can be an oil derived from Fischer-Tropsch synthesized hydrocarbons.
- Fischer-Tropsch synthesized hydrocarbons can be made from synthesis gas containing H 2 and CO using a Fischer-Tropsch catalyst.
- Such hydrocarbons typically require further processing in order to be useful as the base oil.
- the hydrocarbons can be hydroisomerized using processes disclosed in U.S. Pat. No. 6,103,099 or 6,180,575 ; hydrocracked and hydroisomerized using processes disclosed in U.S. Pat. No. 4,943,672 or 6,096,940 ; dewaxed using processes disclosed in U.S. Pat. No. 5,882,505 ; or hydroisomerized and dewaxed using processes disclosed in U.S. Pat. No. 6,013,171 ; 6,080,301 ; or 6,165,949 .
- Unrefined, refined and rerefined oils either mineral or synthetic (as well as mixtures of two or more of any of these) of the type disclosed hereinabove can be used in the base oils.
- Unrefined oils are those obtained directly from a mineral or synthetic source without further purification treatment.
- a shale oil obtained directly from retorting operations a petroleum oil obtained directly from primary distillation or ester oil obtained directly from an esterification process and used without further treatment would be an unrefined oil.
- Refined oils are similar to the unrefined oils except they have been further treated in one or more purification steps to improve one or more properties.
- Rerefined oils are obtained by processes similar to those used to obtain refined oils applied to refined oils which have been already used in service. Such rerefined oils are also known as reclaimed or reprocessed oils and often are additionally processed by techniques directed to removal of spent additives, contaminants, and oil breakdown products.
- Biorenewable fuels suitable for use in formulating the disclosed lubricant and emulsion compositions can comprise any fuel which is derived from resources other than petroleum. Such resources include, but are not limited to, corn, maize, soybeans and other crops; grasses, such as switchgrass, miscanthus, and hybrid grasses; vegetable oils; natural fats; and mixtures thereof.
- the biorenewable fuel can comprise monohydroxy alcohols, such as those comprising from 1 to about 5 carbon atoms.
- suitable monohydroxy alcohols include methanol, ethanol, propanol, n-butanol, isobutanol, t-butyl alcohol, amyl alcohol, and isoamyl alcohol.
- the disclosed lubricant composition can comprise at least 10%, such as about 15%, by volume of said biorenewable fuel.
- compositions disclosed herein can be used to lubricate anything.
- the lubricating composition can be an engine composition that is used to lubricate an engine.
- the disclosed lubricating compositions can be used to lubricate anything, e.g., any surface, such as those present in an environment where biorenewable fuel is used.
- a method of reducing thin-film friction of a fluid between surfaces comprising providing to the fluid the disclosed composition.
- the lubricating compositions can be provided to any machinery wherein aqueous separation in an emulsion is an issue, such as a vehicle powered by biorenewable fuels wherein aqueous separation of an emulsion composition can cause a multitude of undesirable effects.
- a method of reducing aqueous separation in an emulsion composition comprising providing the disclosed dispersant system to an emulsion composition comprising a biorenewable fuel and an oil of lubricating viscosity.
- Also disclosed herein is a method of lubricating a machine, such as an engine, transmission, automotive gear, a gear set, and/or an axle with the disclosed emulsion composition.
- a method of improving fuel efficiency in a machine such as an engine, transmission automotive gear, a gear set, and/or an axle comprising placing the disclosed lubricating composition in the machine, such as an engine, transmission, automotive gear, a gear set, and/or an axle.
- Lubricant compositions according to the present disclosure were formulated as shown in Tables 1 though 3 below. Each Example was treated at an equal activity level of about 2.3 wt.% solid. Each of Examples A to E contains a single dispersant, e.g., 100% of one dispersant. Each of Examples F to W contains a mixed system of two dispersants in various ratios.
- Dispersant 1 was a 1300 MW N PIBSA plus a polyamine, wherein the dispersant was post treated with boric acid and maleic anhydride, and is commercially available as HiTEC® 643D.
- Dispersant 2 was a 2100 MW N PIBSA plus a polyamine post treated with nonylphenol, formaldehyde, and glycolic acid, wherein the dispersant has a 1.6 SA/PIB mol ratio, and is commercially available as HiTEC® 1921.
- Dispersant 3 was a 2100 MW N PIBSA plus a polyamine, wherein the dispersant has a 1.6 SA/PIB mol ratio, and is commercially available as HiTEC® 1932.
- Dispersant 4 was a 2100 MW N PIBSA plus a polyamine, wherein the dispersant has a 1.75 SA/PIB mol ratio, and is commercially available as HiTEC® 1932X.
- Dispersant 5 was a 1300 MW N PIBSA plus a polyamine post treated with boric acid, wherein the dispersant has a 1.75 SA/PIB mol ratio, and is commercially available as HiTEC® 743.
- Example was subjected to the E85 Emulsion Screener Test, in which a mixture of 10% E85 fuel, 10% water, and 80% test oil is blended by a Waring blender or equivalent for 1 minute at room temperature, and the resulting emulsion is placed in a graduated cylinder and evaluated after 24 hours at 25° C for emulsion retention, oil separation, and aqueous phase separation.
- the desired result of the emulsion test was no aqueous separation (0%) and at least 85% emulsion remaining.
- Example A, C, F, I, J, K, R, S, T, V, and W performed acceptably, whereas Examples B, D, E, G, H, L, M, N, O, P, Q and U performed poorly.
- Example F comprising Dispersant 1 and Dispersant 2 in a ratio of 75:25 (or 3:1) formed a stable emulsion with no separation of an oil or aqueous layer.
- Example G comprising a lower level of Dispersant 1 did not form a stable emulsion and resulted in separation of both an oil and aqueous layer.
- Examples V and W which comprised a mixture of Dispersant 5 and Dispersant 4 at ratios of 50:50 (or 1:1) and 25:75 (or 1:3), respectively, resulted in no separation of an aqueous layer with more than 85% emulsion remaining.
- each dispersant individually (Examples E and D, respectively) resulted in separation of both an oil and an aqueous layer.
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
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- Lubricants (AREA)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/955,956 US20090156445A1 (en) | 2007-12-13 | 2007-12-13 | Lubricant composition suitable for engines fueled by alternate fuels |
Publications (1)
Publication Number | Publication Date |
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EP2072611A1 true EP2072611A1 (de) | 2009-06-24 |
Family
ID=40577905
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP08168853A Withdrawn EP2072611A1 (de) | 2007-12-13 | 2008-11-11 | Schmiermittelzusammensetzung, die für Motoren geeignet ist, die mit alternativen Kraftstoffen angetrieben werden |
Country Status (4)
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US (2) | US20090156445A1 (de) |
EP (1) | EP2072611A1 (de) |
JP (2) | JP2009144151A (de) |
CN (1) | CN101457170A (de) |
Cited By (1)
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EP2915871A1 (de) * | 2014-02-26 | 2015-09-09 | Afton Chemical Corporation | Schmierölzusammensetzung und Zusatz dafür mit verbesserter Kolbenablagerungskontrolle und Stabilität von Emulsionen |
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US20140274837A1 (en) * | 2013-03-14 | 2014-09-18 | Exxonmobil Research And Engineering Company | Method for improving emulsion characteristics of engine oils |
ES2657163T3 (es) * | 2013-09-17 | 2018-03-01 | Vanderbilt Chemicals, Llc | Método de reducción de la separación acuosa en una composición en emulsión adecuada para un motor alimentado con combustible E85 |
EP4194530A1 (de) * | 2015-03-25 | 2023-06-14 | The Lubrizol Corporation | Verwendung von schmiermittelzusammensetzungen für direkteinspritzende motoren |
WO2019108723A1 (en) * | 2017-11-30 | 2019-06-06 | The Lubrizol Corporation | Hindered amine terminated succinimide dispersants and lubricating compositions containing same |
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-
2012
- 2012-01-05 US US13/344,157 patent/US20120108478A1/en not_active Abandoned
-
2013
- 2013-07-25 JP JP2013154385A patent/JP2013213228A/ja active Pending
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Cited By (1)
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EP2915871A1 (de) * | 2014-02-26 | 2015-09-09 | Afton Chemical Corporation | Schmierölzusammensetzung und Zusatz dafür mit verbesserter Kolbenablagerungskontrolle und Stabilität von Emulsionen |
Also Published As
Publication number | Publication date |
---|---|
JP2013213228A (ja) | 2013-10-17 |
JP2009144151A (ja) | 2009-07-02 |
CN101457170A (zh) | 2009-06-17 |
US20120108478A1 (en) | 2012-05-03 |
US20090156445A1 (en) | 2009-06-18 |
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