Ester- and ether bond cleavage in immature kerogens

Ester- and ether bond cleavage in immature kerogens

Quaternary ammonium salt Aliquat 336 and 18-Crown-6 enhance hydrolysis of Timahdit-M kerogen when used as a phase transfer catalyst. The yield of hydrolysis products was higher with Aliquat than with 18-Crown-6, but the identified products were found in lower concentration, the difference being solu...

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Bibliographic Details
Published in:Organic geochemistry Vol. 24; no. 6; pp. 681 - 690
Main Authors: Amblès, Andre, Grasset, Laurent, Dupas, Germaine, Jacquesy, Jean-Claude
Format: Journal Article Conference Proceeding
Language:English
Published: Oxford Elsevier Ltd 01-06-1996
Elsevier Science
Subjects:
alkanols
alkyl succinic acids
Applied sciences
Crude oil, natural gas and petroleum products
diacids
Earth sciences
Earth, ocean, space
Energy
ester
ether
ether cleavage
Exact sciences and technology
Fuels
Geology and geochemistry. Geological and geochemical prospecting. Petroliferous series
Hydrocarbons
kerogen
monoacids
phase transfer catalyst
Prospecting and exploration
Prospecting and production of crude oil, natural gas, oil shales and tar sands
Sedimentary rocks
South America
Brazil
North Africa
Morocco
Serbia
Europe
diacids
monoacids
ether
alkyl succinic acids
ester
kerogen
phase transfer catalyst
ether cleavage
alkanols
Neogene
organic residues
Mesozoic
alkanes
fatty acids
hydrocarbons
Tertiary
ammonium
concentration
gas chromatography
Upper Permian
mass spectroscopy
hopanes
Paleozoic
sedimentary rocks
acids
Upper Cretaceous
Miocene
hydrolysis
oil shale
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Summary:Quaternary ammonium salt Aliquat 336 and 18-Crown-6 enhance hydrolysis of Timahdit-M kerogen when used as a phase transfer catalyst. The yield of hydrolysis products was higher with Aliquat than with 18-Crown-6, but the identified products were found in lower concentration, the difference being soluble heavy parts from kerogen which cannot be analyzed directly. Both reactions afforded series of aliphatic mono- and dicarboxylic acids, alkylsuccinic acids and alkanols, but differences in distributions were observed. The range of monocarboxylic acids was shorter with Aliquat than with 18-C-6, C 14C 18 compared to C 12C 32, but palmitic and stearic acids were dominant in the two cases. C 10 and C 12 alkyl succinic acids were identified in Aliquat products. Aromatic acids were the major hydrolysis products (59%) with crown ether; only one aromatic acid was found with Aliquat. Hydrocarbons and tertiary amines were obtained from both reactions, they were obviously present in the kerogen as trapped molecules. Many tertiary amines arising from the decomposition of the reagent were obtained with Aliquat. The results give evidence of an important reticulation involving ester groups in the Timahdit-M kerogen. Series of n-, iso- and anteisoalkanes were obtained through HI/LAD treatment of Irati and Aleksinac kerogens, originating probably from glycerol-ether lipids. C 27C 34 α,β-hopanes were also found to be linked to kerogen (Irati) by ether bonds. Reaction with CF 3CO 2H (Irati) afforded seven series of branched alkenes, indicating that branched saturated alkyl chains were bound to aromatic moieties of kerogen by ether groups. Acetates of cholesterol and 24-ethylcholesterol were identified in the BF 3-Et 2O/Ac 2O products. Esters of fatty acids (max C 16, C 18) were also identified. Only alkanes were produced on AII 3 reaction. Each reaction afforded the same series of n-alkanes. This would reflect modifications in the kerogen matrix during these various treatments, resulting in the release of tightly trapped molecules.
ISSN:0146-6380
1873-5290
DOI:10.1016/0146-6380(96)00059-9