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The role of reservoir mediums in natural oil cracking:Preliminary experimental results in a confined system 被引量:5

The role of reservoir mediums in natural oil cracking:Preliminary experimental results in a confined system
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摘要 Large amounts of data regarding the influence of temperature and pressure on the thermal stability of crude oil have been pub-lished;however,the role of reservoir mediums has received little attention.Experiments involving oil cracking in the presence of montmorillonite,illite,calcite,quartz and water were conducted in closed gold tubes to investigate the effects of these reservoir mediums on oil destruction.This was done by screening variations in the chemical and stable carbon isotopic components of nC10+ and gasoline-range hydrocarbons(nC8-)present in various systems.Results indicated that reservoir mediums have an active role in oil cracking under experimental conditions.The concentrations of nC10+ in the cracked residues progressively decreased in systems containing oil+water+illite,oil+water+montmorillonite,oil+water,oil+water+quartz and oil+water+calcite.In comparison with the system containing oil+water,our results indicated a retardation effect for oil cracking in systems in the presence of illite and montmorillonite,and an acceleration effect on oil destruction in systems in the presence of calcite and quartz.nC10+ became increasingly depleted in 13C in systems with oil+water+illite,oil+water+calcite,oil+water+montmorillonite,oil+water+ quartz and oil+water.No obvious correlation was observed between concentrations and stable carbon isotopic components of nC6-nC8 and nC10+ in the individual systems.The discrepancies in chemical and stable carbon isotopic components of nC6-nC8 and nC10+ in the pyrolyzed residues highlighted the important role of reservoir mediums to control carbon-carbon cleavage of nC10+ and then the isomerization,cyclolization and aromatization reactions;as well as governing the occurrence and thermal destruction of nC6-nC8 under experimental conditions.This research may have critical implications in reconstructing chemical kinetic models for natural oil cracking. Large amounts of data regarding the influence of temperature and pressure on the thermal stability of crude oil have been pub- lished; however, the role of reservoir mediums has received little attention. Experiments involving oil cracking in the presence of montmorillonite, illite, calcite, quartz and water were conducted in closed gold tubes to investigate the effects of these reservoir mediums on oil destruction. This was done by screening variations in the chemical and stable carbon isotopic components of nClo+ and gasoline-range hydrocarbons (nCs_) present in various systems. Results indicated that reservoir mediums have an active role in oil cracking under experimental conditions. The concentrations of nClo+ in the cracked residues progressively decreased in systems containing oil+water+illite, oil+water+montmorillonite, oil+water, oil+water+quartz and oil+water+calcite. In compari- son with the system containing oil+water, our results indicated a retardation effect for oil cracking in systems in the presence of illite and montmorillonite, and an acceleration effect on oil destruction in systems in the presence of calcite and quartz, nClo~ be- came increasingly depleted in 13C in systems with oil+water+illite, oil+water+calcite, oil+water+montmorillonite, oil+water+ quartz and oil+water. No obvious correlation was observed between concentrations and stable carbon isotopic components of nC6-nC8 and nClo+ in the individual systems. The discrepancies in chemical and stable carbon isotopic components of nC6-nC8 and nClo+ in the pyrolyzed residues highlighted the important role of reservoir mediums to control carbon-carbon cleavage of nClo~ and then the isomerization, cyclolization and aromatization reactions; as well as governing the occurrence and thermal de- struction of nC6-nC8 under experimental conditions. This research may have critical implications in reconstructing chemical ki- netic models for natural oil cracking.
出处 《Chinese Science Bulletin》 SCIE EI CAS 2010年第33期3787-3793,共7页
基金 supported by the National Natural Science Foundation of China(40672084) the National Basic Research Program of China(2006CB202303) the Earmarked Fund of the State Key Laboratory of Organic Geochemistry(OGL-200916) the Science Funding of State Key Laboratory of Enhanced Oil Recovery(Research Institute of Petroleum Exploration and Development)
关键词 裂解作用 实验条件 密闭系统 原油裂解 水库 介质 天然 同位素组成 natural oil cracking, reservoir mediums, stable carbon isotopes, chemical kinetic model
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