US2548122A - Corrosion inhibited gasoline - Google Patents

Corrosion inhibited gasoline Download PDF

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Publication number
US2548122A
US2548122A US29650A US2965048A US2548122A US 2548122 A US2548122 A US 2548122A US 29650 A US29650 A US 29650A US 2965048 A US2965048 A US 2965048A US 2548122 A US2548122 A US 2548122A
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Prior art keywords
gasoline
corrosive
corrosion
copper
disulfide
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US29650A
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Jr Thomas C Roddy
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Texaco Inc
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Texaco Inc
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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 OR C10K; LIQUIFIED PETROLEUM GAS; USE OF ADDITIVES TO FUELS OR FIRES; FIRE-LIGHTERS
    • C10L1/00Liquid carbonaceous fuels
    • C10L1/10Liquid carbonaceous fuels containing additives
    • C10L1/14Organic compounds
    • C10L1/24Organic compounds containing sulfur, selenium and/or tellurium
    • C10L1/2443Organic compounds containing sulfur, selenium and/or tellurium heterocyclic compounds
    • C10L1/2456Organic compounds containing sulfur, selenium and/or tellurium heterocyclic compounds sulfur with oxygen and/or nitrogen in the ring, e.g. thiazoles

Definitions

  • This invention relates to the inhibiting of corrosion of metals, particularly ferrous metals and copper, in contact with a light mineral hydrocarbon oil, such as gasoline.
  • One of the principal objects of the present invention is to provide a superior corrosion inhibitor for a light mineral hydrocarbon oil of this character, which can be effectively used in such extremely small quantities as not to affect the desirable properties and tests of the oil while at the same time effectively inhibiting corrosion of metal surfaces with which the oil comes in contact.
  • 2,2-dibenzothiazol disulfide which has the following structural formula is unexpectedly superior as a corrosion inhibitor for light hydrocarbon oils.
  • This material is a cream colored solid having a melting point of about 175 C., is soluble in benzene, chloroform and chlorobenzene and insoluble in water. Consequently, the inhibitor is not leached out when hibited, and then adding the slurry in controlled proportion.
  • this particular compound is unexpectedly more efiective in certain more highly corrosive light oil distillates, and also has a high protective effect in gasolines which are to be transported through pipe lines, thereby enabling such a small proportion of the inhibitor to be employed as to have substantially no effect on the desirable properties and tests of the gasoline.
  • the commercial tests generally employed for determining the corrosion inhibiting effect of the inhibitor in light oils of this character are the copper strip corrosion tests at 122 Rand 212 F. respectively.
  • a sample of the petroleum oil is heated in contact with a copper strip at the stated temperature for a period of three hours. If any discoloration of the copper strip has occurred at the termination of the test, the same is reported as positive, meaning that the light oil is corrosive to copper under the conditions of the test.
  • the discoloration will vary from a light red color for a mildly corrosive stock to a black color for a more highly corrosive oil. If no discoloration of the copper strip occurs, the test is reported as negative; and the sample is considered non-corrosive to metals under the conditions of the test.
  • a heavy straight run gasoline having a boiling range of -410 F. obtained from a high sulfur crude was acid treated with 12 pounds per barrel of used alkylation acid (about 88%, H2304) and then doctor sweetened.
  • the resultant gasoline, after treatment contained polysulfides; and motor fuel blends containing only a small proportion of this uninhibited stock were highly corrosive, producing a very black copper cup when the standard copper dish gum test (a sample of the gasoline is evaporated to dryness in a freshly polished copper dish or cup) was made. Tests made on this treated corrosive stock by the copper dish gum test with and without the addition of the specified inhibitors in the indicated amounts 'gav'ethe following-i results:
  • the 2,2'-dibenzothia'zol disulfide can be effec test at 122 F. in order to provide complete protection against'pipe line corrosion. More highly corrosive gasolines will ordinarily be rendered effectively non-corrosive by the addition-of around 3 to 10 pounds per 1,000 barrels, although somewhat smaller proportions are frequently satis-' factory.
  • the present invention enables untreated or highly corrosive light oil -products;to be effectively inhibited for satisfactory pipe line transportation, with a resultant substantial sav ingin treating cost as well as yield of product. 7
  • one or more of the hydrogen atoms of ⁇ the benzene rings in 2,2'-dibenzothiazol disulfide can be substituted by alkyl, aryl, aralkyl, alkaryl, hetei'ocyclic, amino and other organic groups.
  • R is methyl, ethyl, propyl, butyl and larger alkyl groups to improve the oil solubility of the inhibitor while maintaining its effective-' ness as an anti-corrosive.
  • R is methyl, ethyl, propyl, butyl and larger alkyl groups to improve the oil solubility of the inhibitor while maintaining its effective-' ness as an anti-corrosive.
  • 2-,2'-dibenzothiazol disulfide as'well as a-derivative thereof as defined above; is gen erically termed in the following description and claims a 2,2'-dibenzothiazol disulfide compound.
  • a gasoline from a high sulfur crude and which is normally corrosive to metal containing about 0.5 to 10 pounds per thousand barrels of a 2,2-olibenzothiazol disulfide compound having the formula where R is selected from the group consisting of hydrogen and alkyl, said small amount of the disulfide compound being efiective to render said gasoline non-corrosive to metal while having substantially no efiect on the desirable properties and tests of the gasoline.

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  • Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)

Description

Patented Apr. 10, 1951 CORROSION INHIBITED GASOLINE Thomas C. Roddy, Jr., Port Arthur, Tex, assignor to The Texas Company, New York, N. Y., a corporation of Delaware No Drawing. Application May 27, 1948, Serial N0. 29,650
2 Claims. 1
This invention relates to the inhibiting of corrosion of metals, particularly ferrous metals and copper, in contact with a light mineral hydrocarbon oil, such as gasoline. v
One of the principal objects of the present invention is to provide a superior corrosion inhibitor for a light mineral hydrocarbon oil of this character, which can be effectively used in such extremely small quantities as not to affect the desirable properties and tests of the oil while at the same time effectively inhibiting corrosion of metal surfaces with which the oil comes in contact.
Other objects and advantages of the invention will be apparent from the following description and the appended claims.
The problem of internal corrosion of metal surfaces of vessels, pipes, containers, etc. used in the storage, transportation, handling and utilization of light hydrocarbon oils has long been recognized. With the increasing use of pipe lines to transport such finished petroleum products great distances, the problem has been accentuated. A high degree of refining of the light petroleum distillates has not been a complete solution of the problem, since this frequently involves more expensive processing with greater loss in yield than the ultimate utilizalion of the product justifies. Various inhibitors have been proposed for this purpose, and 2-mercapto benzothiazole has achieved substantial commercial use. While this inhibitor has proved quite satisfactory in most cases, ithas been found not completely efiective on certain highly corrosive light oil products such as those from high sulfur crudes; and, in other cases, objectionably large proportions of the inhibitor are required to effect the desired protection.
It has now been discovered that 2,2-dibenzothiazol disulfide, which has the following structural formula is unexpectedly superior as a corrosion inhibitor for light hydrocarbon oils. This material is a cream colored solid having a melting point of about 175 C., is soluble in benzene, chloroform and chlorobenzene and insoluble in water. Consequently, the inhibitor is not leached out when hibited, and then adding the slurry in controlled proportion. It has been found that this particular compound is unexpectedly more efiective in certain more highly corrosive light oil distillates, and also has a high protective effect in gasolines which are to be transported through pipe lines, thereby enabling such a small proportion of the inhibitor to be employed as to have substantially no effect on the desirable properties and tests of the gasoline.
The commercial tests generally employed for determining the corrosion inhibiting effect of the inhibitor in light oils of this character are the copper strip corrosion tests at 122 Rand 212 F. respectively. In these tests, a sample of the petroleum oil is heated in contact with a copper strip at the stated temperature for a period of three hours. If any discoloration of the copper strip has occurred at the termination of the test, the same is reported as positive, meaning that the light oil is corrosive to copper under the conditions of the test. The discoloration will vary from a light red color for a mildly corrosive stock to a black color for a more highly corrosive oil. If no discoloration of the copper strip occurs, the test is reported as negative; and the sample is considered non-corrosive to metals under the conditions of the test. However, it has been found that certain light oils Which are non-corrosive to copper in the test at 122 F. may result in objectionable corrosion when transported through pipe lines over long periods of time, or when used in certain metallic equipment where long service life is essential. For this reason, the more rigorous copper strip corrosion test at 212 F. is also employed as a measure of the effectiveness of the inhibitor in light oils to provide the required protection for such long service life.
The following results were obtained in comparative tests on a gasoline which show the superiority of 2,2'-dibenzothiazol disulfide as a.
corrosion inhibitor. A heavy straight run gasoline having a boiling range of -410 F. obtained from a high sulfur crude was acid treated with 12 pounds per barrel of used alkylation acid (about 88%, H2304) and then doctor sweetened. The resultant gasoline, after treatment, contained polysulfides; and motor fuel blends containing only a small proportion of this uninhibited stock were highly corrosive, producing a very black copper cup when the standard copper dish gum test (a sample of the gasoline is evaporated to dryness in a freshly polished copper dish or cup) was made. Tests made on this treated corrosive stock by the copper dish gum test with and without the addition of the specified inhibitors in the indicated amounts 'gav'ethe following-i results:
tively used as a corrosion inhibitor for the various gasolines in an amount within the range of about 0.5 to 10 pounds per 1,000 barrels (barrel of 42 gallons), depending on the corrosiveness of the particular base stock. Ordinarily, a proportion of about 1 pound per 1,000 barrels is sufficient for commercial motor fuel gasolines which are 'initi'ally negative in the copper strip corrosion In further explanation of the foregoing table, the copper cups from the samples inhibited with Z-mercap-to benzothiazole Were peacock coloredaround the upper rim which was only momentarily. in contact with the corrosive sample, while by far the larger part of each cup was black. On the otherhand, the copper cups from the samples inhibited with 2,2-dibenzothiazol disulfide had no discoloration around the upper rim while the balance of each cup had only a'browndiscoloration indicating only slight corrcsiveness by this rigorous test.
Inorder toshow any possible adverse effect on the tests of a commercial motor gasoline, 2,2 dibenzothiazol disulfide was added to one portion of the gasoline in an amount of 10 pounds per; 1,000 barrels which was approximately fiveto ten times the dosage required to effectively inhibit this particular gasoline against pipe line corrosion. The followingcomparative tests were-obtainedon uninhibited and inhibited samples respectively of this test gasoline:
TabZe'lI Uninhibited' Gasoline Inhibited Gasoline Test.
Copper Strip Corrosion at 122 F Read Vapor Pressure, #/sq. in Acid H Copper Dish Gum 10 Gla'ss Dish Gum"...- ASTM Gu'rn. Lamp Sulfuri l 10% Distillation, F.
57.7. 3 pink. shade. Negative;
57.5 pi k shade.
Negative; d
4 7 check 8.
E; P Per Cent Recovered Per Cent Residue Per Cent Loss' Acidity of Distillation Residue. ASTM Octane; CFRR Octane u The foregoing data shows conclusivelythat the inhibitor of the present invention has no objec' tionable efiect on the product quality of themotor fuel.
The 2,2'-dibenzothia'zol disulfide can be effec test at 122 F. in order to provide complete protection against'pipe line corrosion. More highly corrosive gasolines will ordinarily be rendered effectively non-corrosive by the addition-of around 3 to 10 pounds per 1,000 barrels, although somewhat smaller proportions are frequently satis-' factory. The present invention enables untreated or highly corrosive light oil -products;to be effectively inhibited for satisfactory pipe line transportation, with a resultant substantial sav ingin treating cost as well as yield of product. 7
While the foregoing description discusses only the simple or unsubstituted 2,2-dibenzothiazol disulfide, it is to be-understood that the-inventionis not limited thereto but also includes derivatives formed by substituting organic groups for one or more of the hydrogen atoms on the benzenerings in 2,2'-dibenzothiazol disulfide. Theseare closely related compounds having the same basic structural formula which is believed responsible for the superior anti-corrosive properties. For; example, one or more of the hydrogen atoms of} the benzene rings in 2,2'-dibenzothiazol disulfide can be substituted by alkyl, aryl, aralkyl, alkaryl, hetei'ocyclic, amino and other organic groups.- Of particular-interest in this connectionare compounds having the structural formula:
where R is methyl, ethyl, propyl, butyl and larger alkyl groups to improve the oil solubility of the inhibitor while maintaining its effective-' ness as an anti-corrosive. For convenience, the unsubstituted 2-,2'-dibenzothiazol disulfide, as'well as a-derivative thereof as defined above; is gen erically termed in the following description and claims a 2,2'-dibenzothiazol disulfide compound.
While 2,2" -dibenzothiazol disulfide has heretofore been suggested as an additive in substantially larger proportionsforlubricating oil to impart extreme pressure properties and oxidation resistance'to-"the lubricant, and als'ohas been suggested as an additive in substantially larger proportions for a Diesel fuel heavier than-gasoline to improve the stability and anti corrosive" properties thereof, it has not previously been suggested as an additive for gasoline. Conse-- quently, its unex-pected superiority over the mercaptoarylthiazoletype-0f compound for thi .pur-r pose, particularly for corrosive gasolines from high sulfur crudes, had not been previously discovered. Moreover, its effective use in the extremely small proportion range of 0.5 to 10 pounds per thousand barrels, which does not alter the essential tests and properties of the gasoline while at the same time satisfactorily inhibiting corrosive attack of the gasoline on metal, is critically and unexpectedly different from the prior suggestions relating to the use of this disulfide type of compound in the heavier hydrocarbon oils.
Obviously many modifications and variations of the invention, as hereinbefore set forth, may be made Without departing from the spirit and scope thereof and, therefore, only such limitations should be imposed as are indicated in the appended claims.
I claim:
1. A gasoline from a high sulfur crude and which is normally corrosive to metal, containing about 0.5 to 10 pounds per thousand barrels of a 2,2-olibenzothiazol disulfide compound having the formula where R is selected from the group consisting of hydrogen and alkyl, said small amount of the disulfide compound being efiective to render said gasoline non-corrosive to metal while having substantially no efiect on the desirable properties and tests of the gasoline.
2. A gasoline according to claim 1, where R of the formula forthe disulfide compound is hydrogen.
THOMAS C. RODDY, JR.
\ REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS

Claims (1)

1. A GASOLINE FROM A HIGH SULFUR CRUDE AND WHICH IS NORMALLY CORROSIVE TO METAL, CONTAINING ABOUT 0.5 TO 10 POUNDS PER THOUSAND BARRELS OF AT 2,2''-DIBENZOTHIAZOL SULFIDE COMPOUND HAVING THE FORMULA
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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2218283A (en) * 1939-03-08 1940-10-15 Socony Vacuum Oil Co Inc Stabilized mineral oil composition
US2316011A (en) * 1939-10-28 1943-04-06 Standard Oil Dev Co Fuels for internal combustion engines

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2218283A (en) * 1939-03-08 1940-10-15 Socony Vacuum Oil Co Inc Stabilized mineral oil composition
US2316011A (en) * 1939-10-28 1943-04-06 Standard Oil Dev Co Fuels for internal combustion engines

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