US3116127A - Gasoline containing organometal compound - Google Patents

Gasoline containing organometal compound Download PDF

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Publication number
US3116127A
US3116127A US141637A US14163761A US3116127A US 3116127 A US3116127 A US 3116127A US 141637 A US141637 A US 141637A US 14163761 A US14163761 A US 14163761A US 3116127 A US3116127 A US 3116127A
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lead
percent
gasoline
volume
octane number
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US141637A
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Ballinger Peter
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California Research LLC
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California Research LLC
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Priority claimed from US59519A external-priority patent/US3073853A/en
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10LFUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
    • C10L1/00Liquid carbonaceous fuels
    • C10L1/10Liquid carbonaceous fuels containing additives
    • C10L1/14Organic compounds
    • C10L1/30Organic compounds compounds not mentioned before (complexes)
    • C10L1/305Organic compounds compounds not mentioned before (complexes) organo-metallic compounds (containing a metal to carbon bond)
    • C10L1/306Organic compounds compounds not mentioned before (complexes) organo-metallic compounds (containing a metal to carbon bond) organo Pb compounds

Definitions

  • This invention relates to a novel gasoline containing organometal compound. More particularly, the invention is concerned with a superior new lead sulfide antiknock compound for hydrocarbon fuels of the gasoline boiling range.
  • Gasoline compositions of high octane number are commonly required for modern spark ignition internal combustion automobile and aircraft engines. Engines of these types in general use today are designed with high compression ratios for more efficient operation. Since the present trend is toward engines of still higher compression ratios for increased power and improved performance, there is a constant demand for gasoline compositions of even higher octane number.
  • a superior new gasoline composition of high octane number is provided by a hydrocarbon base fuel boiling in the gasoline boiling range, containing trimethyl lead methyl sulfide, a novel lead compound, in amounts sufficient to improve the octane number, preferably, at least 0.5 milliliter per gallon of base fuel.
  • the improved gasoline compositions containing the new antiknock compound of the invention show unexpectedly high octane numbers.
  • Hydrocarbon base fuels, together with trimethyl lead methyl sulfide and mixtures thereof in accordance with the invention have octane numbers which are practically equivalent to similar base fuels employing the conventional lead tetraethyl additive in the same lead content. This is surprising since it has been generally accepted heretofore that other lead compounds are distinctly less ethcient than lead tetraethyl with respect to octane number improvement. Furthermore, it has been widely recognized that sulfur is ordinarily antagonistic to lead antidetonants.
  • the hydrocarbon base fuel of the composition, according to the invention is prepared by conventional refining and blending processes. It normally contains straightchain paraffins, branched-chain parafiins, olefins, aromatics and naphthenes. Since straight-chain paraffins have a tendency to adversely affect octane number, the content of such hydrocarbons is ordinarily low.
  • the base fuel is a hydrocarbon fuel boiling in the gasoline boiling range.
  • such fuels have an ASTM (D-86) distillation with an initial boiling point of about 100 F. and a final boiling point of about 425 F.
  • the unleaded base fuel has a research octane number of at least 85 as determined by the accepted CFR engine test method.
  • the base fuel preferably contains at least 20 percent by volume of aromatic hydrocarbons. Less than 30 perice cent by volume of olefinic hydrocarbons are present in the fuel. The .total paraifin and naphthene hydrocarbon content of the preferred fuel may be as much as percent by volume.
  • fuels containing in the range of 20 to 60 percent by volume of paraiiinic and naphthenic hydrocarbons are preferred for volatility and other desirable gasoline characteristics.
  • the more preferred hydrocarbon base fuels are also those which contain from 20 to 60 percent by volume aromatic hydrocarbons and from 0 to 30 percent by volume of olefinic hydrocarbons.
  • a gasoline having all-around desirable characteristics has a clear octane number of at least 95 and contains about 50 to 60 percent by volume of paraffin and naphthene hydrocarbons, about 30 to 40 percent aromatic hydrocarbons and about 5 to 15 percent olefinic hydrocarbons.
  • the trimethyl lead methyl sulfide is illustrated by the general formula
  • lead compounds per gallon not more than about 4 milliliters of lead compounds per gallon is ordinarily used in the compositions.
  • other octane-improving additives may be employed in addition to trimethyl lead methyl sulfide.
  • These include other lead compounds such as lead tetraethyl, carbonyl derivatives of iron and cyclopentadienyl derivatives of metals such as manganese or iron.
  • Other gasoline additives such as scavengets like ethylene chloride or bromide, oxidation inhibitors, corrosion inhibitors, surface ignition suppressants like phosphorus compounds, detergents, and the like may be present.
  • EXAMPLE I This example shows the preparation of trimethyl lead methyl sulfide. Twenty-four grams (0.5 mole) of methyl mercaptan are cooled to 0 C. and dissolved in 500 ml. of 4 N sodium hydroxide at 0 C. To this solution is added with stirring a solution of 144.0 g. (0.5 mole) of trimethyl lead chloride in Water. On standing for one-half hour, a heavy liquid separates and is removed in a separatory funnel, dried with calcium chloride, and fractionated to a pat temperature of 70 C. at a pressure of 1 mm. of mercury. The boiling point is found to be 43 C. at a pressure of 0.75 mm. of mercury. The refractive index 11 is 1.6116. The infrared spectrum checks that of the predicted compound by comparison with the spectra of known alkyl lead compounds, alkyl sulfides, and mercaptides.
  • the hydrocarbon base fuel contains 51 perecent by volume of the paraffins and naphthenes, 25 percent olefins, and 24 percent aromatics.
  • the fuel has a sulfur content of about 0.06 percent by weight.
  • the table shows the effect on octane number by the addition of trimethyl lead methyl sulfide compared with lead tetraethyl.
  • the octane numbers in this comparison are based on the Research Method D-8 and the Motor Method D-357 of the ASTM Manual of Engine Test Methods for Rating Fuels. The latter method, which is more stringent than the research method, illustrates more accurately the desirable qualities of the improved gasoline composition of the invention.
  • Such fine metal dispersions of lead are useful as catalysts for certain reactions.
  • the fine lead particles may be converted to lead oxides which are useful as lubrication agents.
  • the lead compound of the invention may also be used as a free radical initiator in polymerization reactions.
  • Composition consisting essentially of a hydrocarbon base fuel boiling in the gasoline boiling range having an octane number of at least 85 and containing at least percent by volume of aromatic hydrocarbons, not more than percent by volume of olefinic hydrocarbons and at least 25 percent by volume of parafiinic and naphthenic hydrocarbons, said hydrocarbon fuel having incorporated therein trimethyl lead methyl sulfide in an amount sufficient to improve the octane number.
  • Composition consisting essentially of a hydrocarbon base fuel boiling in the gasoline boiling range having an octane number of at least and containing at least 20 percent by volume of aromatic hydrocarbons, not more than 25 percent by volume of olefinic hydrocarbons and at least 25 percent by volume of paraffinic and naphthenic hydrocarbons, said hydrocarbon fuel having incorporated therein from about 0.5 ml. to about 4 ml. of trimethyl lead methyl sulfide.

Description

United States Patent 3,116,127 GASOLINE CONTAINING ORGANOMETAL COMPOUND Peter Ballinger, San Rafael, Calif., assignor to Cailfornia Research Corporation, San Francisco, Cal1f., a corporation of Delaware No Drawing. Original application Sept. 30, 1960, er. No. 59,519. Divided and this application Sept. 29, 1961, Ser. No. 141,637
2 Claims. (Cl. 4469) This invention relates to a novel gasoline containing organometal compound. More particularly, the invention is concerned with a superior new lead sulfide antiknock compound for hydrocarbon fuels of the gasoline boiling range.
Gasoline compositions of high octane number are commonly required for modern spark ignition internal combustion automobile and aircraft engines. Engines of these types in general use today are designed with high compression ratios for more efficient operation. Since the present trend is toward engines of still higher compression ratios for increased power and improved performance, there is a constant demand for gasoline compositions of even higher octane number.
Improved methods of refining and blending gasoline base stocks, and additives such as lead tetraethyl, have been employed to meet the demands for higher octane number gasoline compositions. However, it has been generally realized that there is at present a limit to the improvement in octane number that can be obtained by such conventional methods and additives. New gasoline base stocks with the combination of different additives are greatly needed, therefore, to avoid present limitations and provide gasoline compositions of high octane number for future use in automobile and aircraft engines.
It has now been found that a superior new gasoline composition of high octane number is provided by a hydrocarbon base fuel boiling in the gasoline boiling range, containing trimethyl lead methyl sulfide, a novel lead compound, in amounts sufficient to improve the octane number, preferably, at least 0.5 milliliter per gallon of base fuel.
The improved gasoline compositions containing the new antiknock compound of the invention show unexpectedly high octane numbers. Hydrocarbon base fuels, together with trimethyl lead methyl sulfide and mixtures thereof in accordance with the invention, have octane numbers which are practically equivalent to similar base fuels employing the conventional lead tetraethyl additive in the same lead content. This is surprising since it has been generally accepted heretofore that other lead compounds are distinctly less ethcient than lead tetraethyl with respect to octane number improvement. Furthermore, it has been widely recognized that sulfur is ordinarily antagonistic to lead antidetonants.
The hydrocarbon base fuel of the composition, according to the invention is prepared by conventional refining and blending processes. It normally contains straightchain paraffins, branched-chain parafiins, olefins, aromatics and naphthenes. Since straight-chain paraffins have a tendency to adversely affect octane number, the content of such hydrocarbons is ordinarily low.
As already mentioned, the base fuel is a hydrocarbon fuel boiling in the gasoline boiling range. Generally described, such fuels have an ASTM (D-86) distillation with an initial boiling point of about 100 F. and a final boiling point of about 425 F. Preferably, the unleaded base fuel has a research octane number of at least 85 as determined by the accepted CFR engine test method. Also, the base fuel preferably contains at least 20 percent by volume of aromatic hydrocarbons. Less than 30 perice cent by volume of olefinic hydrocarbons are present in the fuel. The .total paraifin and naphthene hydrocarbon content of the preferred fuel may be as much as percent by volume. For best over-all engine performance, fuels containing in the range of 20 to 60 percent by volume of paraiiinic and naphthenic hydrocarbons are preferred for volatility and other desirable gasoline characteristics. The more preferred hydrocarbon base fuels are also those which contain from 20 to 60 percent by volume aromatic hydrocarbons and from 0 to 30 percent by volume of olefinic hydrocarbons. Most preferably, a gasoline having all-around desirable characteristics has a clear octane number of at least 95 and contains about 50 to 60 percent by volume of paraffin and naphthene hydrocarbons, about 30 to 40 percent aromatic hydrocarbons and about 5 to 15 percent olefinic hydrocarbons.
The trimethyl lead methyl sulfide is illustrated by the general formula For practical purposes, not more than about 4 milliliters of lead compounds per gallon is ordinarily used in the compositions. if desired, other octane-improving additives may be employed in addition to trimethyl lead methyl sulfide. These include other lead compounds such as lead tetraethyl, carbonyl derivatives of iron and cyclopentadienyl derivatives of metals such as manganese or iron. Other gasoline additives, such as scavengets like ethylene chloride or bromide, oxidation inhibitors, corrosion inhibitors, surface ignition suppressants like phosphorus compounds, detergents, and the like may be present.
The following examples illustrate the composition of trimethyl lead methyl sulfide in accordance with this invention. Unless otherwise specified the proportions are on a Weight basis.
EXAMPLE I This example shows the preparation of trimethyl lead methyl sulfide. Twenty-four grams (0.5 mole) of methyl mercaptan are cooled to 0 C. and dissolved in 500 ml. of 4 N sodium hydroxide at 0 C. To this solution is added with stirring a solution of 144.0 g. (0.5 mole) of trimethyl lead chloride in Water. On standing for one-half hour, a heavy liquid separates and is removed in a separatory funnel, dried with calcium chloride, and fractionated to a pat temperature of 70 C. at a pressure of 1 mm. of mercury. The boiling point is found to be 43 C. at a pressure of 0.75 mm. of mercury. The refractive index 11 is 1.6116. The infrared spectrum checks that of the predicted compound by comparison with the spectra of known alkyl lead compounds, alkyl sulfides, and mercaptides.
In further illustration of the superior new gasoline antiknock compound of the invention, several compositions and tests thereon are given in the following examples. These tests show the improved effect of the combination of particular hydrocarbon base fuels with trimethyl lead methyl sulfide.
The following table is a summary of the pertinent data of the examples. The hydrocarbon base fuel contains 51 perecent by volume of the paraffins and naphthenes, 25 percent olefins, and 24 percent aromatics. The fuel has a sulfur content of about 0.06 percent by weight. The table shows the effect on octane number by the addition of trimethyl lead methyl sulfide compared with lead tetraethyl. The octane numbers in this comparison are based on the Research Method D-8 and the Motor Method D-357 of the ASTM Manual of Engine Test Methods for Rating Fuels. The latter method, which is more stringent than the research method, illustrates more accurately the desirable qualities of the improved gasoline composition of the invention.
In the table, the effect of trimethyl lead methyl sulfide and lead tetraethyl is based on gasoline compositions containing an equal lead concentration. For the purpose of practical comparison this is 3.17 grams of lead per gallon. Such amounts are equivalent to the 3 cc. of tetraethyl lead per gallon employed in many gasolines. The gasolines containing the trimethyl lead methyl sulfide have approximately 0.02 percent of lead-bound sulfur in addition to the sulfur already present.
Table Example Re- Motor No. Lead Compound search Octane Octane Nonebase fuel 94. 4 82. 5 Tetraethyl Lead 99. 2 87. 7 Trimethy lead methyl sulfide 99. 1 87.5
Such fine metal dispersions of lead are useful as catalysts for certain reactions. The fine lead particles may be converted to lead oxides which are useful as lubrication agents. The lead compound of the invention may also be used as a free radical initiator in polymerization reactions.
This application is a division of Peter Ballinger US. patent application Serial No. 59,519, filed September 30, 1960, on Organometal Compound.
I claim:
1. Composition consisting essentially of a hydrocarbon base fuel boiling in the gasoline boiling range having an octane number of at least 85 and containing at least percent by volume of aromatic hydrocarbons, not more than percent by volume of olefinic hydrocarbons and at least 25 percent by volume of parafiinic and naphthenic hydrocarbons, said hydrocarbon fuel having incorporated therein trimethyl lead methyl sulfide in an amount sufficient to improve the octane number.
2. Composition consisting essentially of a hydrocarbon base fuel boiling in the gasoline boiling range having an octane number of at least and containing at least 20 percent by volume of aromatic hydrocarbons, not more than 25 percent by volume of olefinic hydrocarbons and at least 25 percent by volume of paraffinic and naphthenic hydrocarbons, said hydrocarbon fuel having incorporated therein from about 0.5 ml. to about 4 ml. of trimethyl lead methyl sulfide.
References Cited in the file of this patent UNITED STATES PATENTS 3,010,980 Richardson Nov. 28, 1961

Claims (1)

1. COMPOSITION CONSISTING ESSENTIALLY OF A HYDROCARBON BASE FUEL BOILING IN THE GASOLINE BOILING RANGE HAVING AN OCTANE NUMBER OF AT LEAST 85 AND CONTAINING AT LEAST 20 PERCENT BY VOLUME OF AROMATIC HYDROCARBONS, NOT MORE THAN 25 PERCENT BY VOLUME OF OLEFINIC HYDROCARBONS AND AT LEAST 25 PERCENT BY VOLUME OF PARAFFINIC AND NAPTHENIC HYDROCARBONS, SAID HYDROCARBON FUEL HAVING INCORPORATED THEREIN TRIMETHYL LEAD METHYL SULFIDE IN AN AMOUNT SUFFICIENT TO IMPROVE THE OCTANE NUMBER.
US141637A 1960-09-30 1961-09-29 Gasoline containing organometal compound Expired - Lifetime US3116127A (en)

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US59519A US3073853A (en) 1960-09-30 1960-09-30 Trimethyl lead methyl sulfide
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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3010980A (en) * 1960-09-30 1961-11-28 California Research Corp Trialkyl lead selenides

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3010980A (en) * 1960-09-30 1961-11-28 California Research Corp Trialkyl lead selenides

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