- International Energy Outlook (2006) Energy International Administration of the DDE, Washington, DC. [Google Scholar]
- Dorokhin V.P., Paliy A.O. (2004) Sostoaynye i perspektivy dobychy tayzelykh i bituminoznykh neftei i mire, Neftepromyslovoye delo (Rus.) 5, 47-50. [Google Scholar]
- Hsieh M.,Philp R.P. (2001) Ubiquitous occurrence of high molecular weight hydrocarbons in crude oils, Org. Geochem. 32, 8, 955-967. [CrossRef] [Google Scholar]
- Petrov Al.A. (1984) Uglevodorody nefti (Petroleum hydrocarbons), Nauka, Moscow. [Google Scholar]
- Tissot B.P., Welte D.H. (1981) Petroleum Formation & Occurence, Mir, Moscow [Google Scholar]
- Wakeman S.G.,Schaffner C.,Giger W. (1980) Polycyclic aromatic hydrocarbons in Recent lake sediments.-II. Compounds derived from biogenic precursors during early diagenesis, Geochim. Cosmochim. Ac. 44, 415-429. [CrossRef] [Google Scholar]
- Rullkotter T., Peakman T.M., tenHaven H.L. (1994) Early diagenesis of terrigenous triterpenoids and its implications for petroleum geochemistry, Org. Geochem. 3, 215-233. [CrossRef] [Google Scholar]
- Chaffee A.L.,Johns R.B. (1983) Polycyclic aromatic hydrocarbons in Australian Coals.-I. Angulary fused pentacyclic tri and tetraaromatic components of Victorian brown coal, Geochim. Cosmochim. Ac. 47, 2141-2155. [CrossRef] [Google Scholar]
- Moldowan J.M.,Fago F.I. (1988) Structure and significance of novel rearranged monoaromatic steroid hydrocarbon in petroleum, Geochim. Cosmochim. Ac. 52, 1145-1154. [CrossRef] [Google Scholar]
- Zubenko V.G., Gordadze G.N., Petrov Al.A. (1979) Vysokokipyatchshie aromaticheskie uglevodorody anastasjevskoy nefty, Neftekhimiya (Rus.) 19, 6, 833-838. [Google Scholar]
- Ostroukhov S.B., Aref'ev O.A., Petrov Al.A. (1983) Heksacyclicheskie monoaromaticheskye uglevodorody nefty, Neftekhimiya (Rus.) 23, 2, 152-159. [Google Scholar]
- Bogomolov A.I., Temyanko M.B., Khotyntseva L.I. (1984) Sovremennye metody issledovaniya neftei (Modern methods of petroleum investigations), Nedra, Leningrad. [Google Scholar]
- Kamyanov V.F., Aksenov V.S., Titov V.I. (1983) Geteroatomnye komponenty neftei (Heteroatomic petroleum components), Nauka, Novosibirsk. [Google Scholar]
- Kamyanov V.F., Filimonova T.A., Gorbunova L.V. et al. (1988) Neftyanye smoly i asfal'teny (Petroleum resins and asphaltenes), in Khimicheskiy sostav neftei Zapadnoi Sibiri (Chemical composition of west-Siberian crude oils), Nauka, Novosibirsk. [Google Scholar]
- Yen T.F.,Erdman J.G.,Pollack S.S. (1961) Investigation of structure of petroleum asphaltenes by X-ray diffraction, Anal. Chem. 33, 1587-1594. [Google Scholar]
- Dickie J.P.,Haller M.N.,Yen T.F. (1969) J. Colloid Interf. Sci. 29, 475. [CrossRef] [Google Scholar]
- Thanh N.X.,Hsieh M.,Philp R.P. (1999) Waxes and asphaltenes in crude oils, Org. Geochem. 30, 2/3, 119-132. [CrossRef] [Google Scholar]
- Golovko Yu.,Voronetskaya N.G.,Pevneva G.S.,Golovko A.K. (2006) Petroleum Napthenomono- and napthenobiarenes, Petrol. Chem. 46, 2, 73-83. [CrossRef] [Google Scholar]
- Kamyanov V.F., Golovko A.K., Gorbunova L.V. (2007) Hydrocarbon composition of oils as basis of their chemical classification, Neftekhimiya (Rus.) 47, 3, 3-13. [Google Scholar]
- Houben-Weyl (1953) Methoden der organischen chemie. B.II. Analytishe methoden, Verlag Georg Tieme, Stuttgart, 1032 s. [Google Scholar]
- Klimova V.A. (1975) Osnovnye mikrometody analiza organicheskikh coedineniy (Principal micromethods of organic compounds' analysis), Khimiya, Moscow, 207 s. [Google Scholar]
- Rezvukhin A.I., Ogorodnikov V.D., Polethshuk O.H. et al. (1983) Contchentratsionnay i temperaturnaya zavisimosti spektrov PMR smolisto-asphaltovykh komponentov neftey, Doklady AN SSSR (Rus) 268, 5, 1135-1138. [Google Scholar]
- Philp R.P., Bishop A.N. (1995) Exploration and reservoir geochemistry: concepts, applications, and results, Proceedings of First International Petroleum Conf.: Petrochem95, Technology Trends in Petrol. Industry, 57-79. [Google Scholar]
- DelRio J.C.,Philp R.P. (1992) High molecular weight hydrocarbons: a new frontier in organic geochemistry, Trends Analytical Chem. 11, 187-193. [CrossRef] [Google Scholar]
- DelRio J.C.,Philp R.P. (1992) Oligomerization of fatty acids as possible source for high molecular weight hydrocarbons and sulfur-containing conpounds in sediments, Org. Geochem. 18, 869-880. [CrossRef] [Google Scholar]
- DelRio J.C.,Philp R.P.,Allen J. (1992) Nature and geochemistry of high molecular weight hydrocarbons (above C40) in oils and solid bitumens, Org. Geochem. 18, 541-555. [CrossRef] [Google Scholar]
- Heath D.J.,Lewis C.A.,Rowland S.J. (1997) Org. Geochem. 26, 11-12, 769-776. [CrossRef] [Google Scholar]
- Solodkov V.K.,Galkina G.A.,Dragunskaya V.S.,Kamyanov V.A. (1977) O geokhimyi alkanov nefty Izvestiya AN Turkm. SSR, Ser. Phys.-Techn., Chem. Geol. Nauk. 4, 57-60. [Google Scholar]
- Ishiwatari Ri.,Fukushima K. (1979) Generation of unsaturated and aromatic hydrocarbons by thermal alteration of young kerogen, Geochim. Cosmochim. Ac. 43, 8, 1343-1349. [CrossRef] [Google Scholar]
- van Aarssen B.G.K.,Cox H.C.,Hoogendoorn P., de Leeuw J.W. (1990) A cadinene biopolymer in fossil and extant dammar resins as a source for cadinanes and bicadinanes in crude oils from South East Asia, Geochim. Cosmochim Ac. 54, 11, 3021-3031. [CrossRef] [Google Scholar]
- Simoneit B.R.T.,Grimalt J.O.,Wang T.G.,Cox R.E.,Hatcher P.J.,Nissenbaum A. (1986) Cyclic terpenoids of contemporary resinous plant detritus and of fossil woods, ambers and coals, Org. Geochem. 10, 877-889. [CrossRef] [Google Scholar]
- Philp R.P. (1985) Fossil Fuel Biomarkers, Elsevier, Amsterdam. [Google Scholar]
- Poinsot J., Adam P., Trendel J.M., Connan J., Albrecht P. (1995) Diagenesis of higher plant triterpenes in evaporitic sediments, Geochim. Cosmochim. Ac. 59, 22, 4653-4461. [Google Scholar]
- Simoneit B.R.T. (1977) Diterpenoid compounds and other lipids in deep-sea sediments and their geochemical significance, Geochim. Cosmochim. Ac. 41, 4, 463-476. [CrossRef] [Google Scholar]
- Heidy M.E.,Kaam-Peters V. (1998) A high resolution biomarker study of different lithofacies of organic sulfur-rich carbonate rocks of a Kimmerigian lagoon, Org. Geochem. 28, 3/4, 151-177. [CrossRef] [Google Scholar]
- Starobinets I.S., Kul'babayeva A.G., Nurmukhamedova M.A. (1980) O raspredelenyy individualnykh monocyclicheskykh aromatycheskykh uglevodorodov v neftyakh i o prochesakh ikh nakoplenya, Geologiya nefti i gasa (Rus.) 10, 32-37. [Google Scholar]
- Glebovskaya E.A., Meltsanskaya T.N., Surova N.Z. (1974) Organicheskoye vechshestvo covremennykh I iskopaemykh osadkov (Organic matter of modern and fossil sediments), Nedra, Moscow. [Google Scholar]
- Chetverikova O.P., Dubovik V.I., Pentina T.Yu. (1976) Issledovaniye organicheskogo vechshestva sovremennykh I iskopaemykh osadkov (Investigation of organic matter from modern and fossil sediments), Nedra, Moscow. [Google Scholar]
- Bendoraitis J.G. (1974) Hydrocarbons of biogenic origin in petroleum-aromatic triterpenes and bicyclic sesquiterpenes. Adv. Org. Geochem., Edition Technip., Paris, pp. 209-224. [Google Scholar]
- ten Haven H.L., de Leeuw J.W., Sinnighe Damste J.S. et al. (1988) Applications of bilogical markers in the recognition of palaeohypersaline environment, GSSP 40, 123-130. [Google Scholar]
- Dobryansky A.F. (1948) Geokhimiya Nefti (Petroleum geochemidtry), Gostoptekhizdat, Leningrad, 476 p. [Google Scholar]
- Kamyanov V.F., Gorbunova L.V., Ogorodnikov V.D. (1999) Novyi podkhod k classifikatsii kaustobiolitov, Neftekhimiya (Moskow) 39, 2, 134-143. [Google Scholar]
- Filimonova T.A., Gorbunova L.V., Kamyanov V.F. (1984) Izuchenye khimicheskoi prirody vysokomoleculayrnykh komponentov nefty mestorozdenya Russkoye, Neftekhimiya (Moskow) 24, 1, 3-10. [Google Scholar]
- Aref'ev O.A., Zabrodina M.N., Norenkova I.K. et al. (1978) Izvestiya AN SSSR Ser. Geol. 9, 134. [Google Scholar]
Issue |
Oil & Gas Science and Technology - Rev. IFP
Volume 63, Number 1, January-February 2008
Dossier: Molecular Structures of Heavy Oils and Coal Liquefaction Products
|
|
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Page(s) | 95 - 114 | |
DOI | https://doi.org/10.2516/ogst:2007082 | |
Published online | 29 January 2008 |
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