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文昌13-1/2油田珠江组储层主要属高孔、中高渗储层,储层胶结疏松,容易出砂。通过对文昌13-1/2油田珠江组储层的损害机理进行分析,优选了适用于文昌13-1/2油田珠江组储层的酸化体系——MH缓速酸体系。室内综合性能评价表明,MH缓速酸体系能够延缓酸岩反应速度,络合能力强,并能防止二次沉淀、抑制黏土水化膨胀、有效解除储层污染和堵塞。在WC13-1-A10、WC13-1-A7井酸化中效果显著。现场实践证明,MH缓速酸体系对文昌13-1/2油田珠江组储层具有较强针对性,对今后同类储层酸化增产措施的制定和实施有一定参考意义。 相似文献
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《海洋地质前沿》2021,37(10)
根据烃源岩生物标志化合物、孢粉藻类组合及分析,并结合整体沉积背景,分析白云凹陷不同相带烃源岩的地球化学特征,并确定不同相带烃源岩的成藏贡献。研究表明,文昌组中深湖相烃源岩有机质丰度属于中等级别,有机质类型为Ⅱ_1型,来源为藻类等水生生物,其干酪根δ~(13)C值最轻,δ~(13)C值-28‰。恩平组浅湖相和文昌组浅湖相有机质均来源于陆源高等植物,干酪根δ~(13)C值约为-27‰,有机质丰度属于中等-极好级别,有机质类型为Ⅱ_2-Ⅲ型。恩平组海侵湖相烃源岩富海相沟鞭藻及三芳甲藻甾烷,干酪根δ~(13)C值最重,约为-25‰。白云凹陷原油δ~(13)C值主要介于-28‰~-27‰,主要来源于文昌组和恩平组的浅湖相烃源岩,原油类型的分布受沉积相带的控制,个别近洼陷的井存在文昌组中深湖相烃源岩的贡献,恩平组海侵型烃源岩对成藏几乎无贡献。 相似文献
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基于壁心、分析化验、测井曲线等资料,对XX21-3油田馆陶组储层岩性特征、孔隙特征和物性特征等储层特征进行分析,结合区域沉积背景认为馆陶组储层为辫状河心滩沉积,水动力条件的不同是导致N1gⅢ上和N1gⅢ下2个亚油组具有不同物性特征的原因,为后期优选开发层位提供依据。M油田与XX21-3油田相邻,是已开发经验较为成熟的油田,且与XX21-3油田在构造、沉积、储层和原油性质等方面具有相似性。为了规避XX21-3油田在储量评价过程中的风险,挖掘潜力,通过类比和借鉴邻近M油田,认为:1XX21-3油田馆陶组块状底水稠油油藏在不考虑油水界面起伏的理想模式下确定的含油面积存在风险;2N1gⅢ上油组探明油底下推到最大圈闭线计算的控制储量潜力很大。 相似文献
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为研究环渤中凹陷挥发性原油特征、成藏主控因素和有利区带,利用原油族组分、原油物性、PVT高压物性实验分析等技术手段,对渤中凹陷及围区多个油田和含油气构造的原油组分和物性特征进行了统计分析,明确了渤中凹陷挥发性原油“五高三低”的特征以及各特征的数值范围。基于多组分相态变化的机理分析认为,渤中凹陷易于发育挥发性原油油藏的主控条件有3个:(1)优质烃源岩经过较高的热演化能够为挥发性原油提供轻质烃类组分;(2)渤中凹陷埋深较大,高温高压能够满足挥发性原油赋存的条件;(3)渤中凹陷快速沉降形成的区域泥岩盖层是挥发性原油能够保存的有利条件。基于渤中凹陷的温压梯度,推测渤中凹陷及围区埋深在2.5~4.3 km且有区域泥岩封盖的地层中易于发现挥发性油藏。 相似文献
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珠一坳陷是珠江口盆地的主要产油区,本次研究选取该区79口井共计261个原油样品的密度分析数据,剖析了其分布特征,探讨了其成因。研究结果显示:研究区原油密度以轻质油(140样品)和中质油(57样品)为主,含有少量凝析油(13样品)和重质油(51样品)。其中,轻—中质油在区内各个油田分布广泛;凝析油仅在惠州凹陷惠州26油田珠江组上段油层中分布;重质油主要分布在恩平凹陷、西江凹陷、惠州凹陷流花油田珠江组上段及其上覆地层,油藏埋深以2 000m为主,且现今油藏温度低于85℃。珠一坳陷所发现的凝析油主要为凹陷内浅湖—沼泽相烃源岩成熟阶段产物,其密度偏轻主要受油源所控制;轻—中质油密度主要受油源和成熟度控制,与浅湖—半深湖相原油、混源油及浅湖—沼泽相原油相比,半深—深湖相原油具有相对较高的密度,随着原油成熟度增加,其密度降低趋势明显;重质油密度主要受生物降解和水洗作用控制,生物降解和水洗作用导致原油轻组分丧失,原油密度变大。本研究成果可为珠一坳陷不同区域、不同层析原油类型、油品特征、资源量计算及产能预测提供可靠的基础数据。 相似文献
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X构造的原油按照物性的差异主要分为两类:第一类为凝析油,具有密度低、含蜡量低的特点;第二类为蜡质油,具有密度中等、含蜡量高的特点。为了明确原油物性差异的原因,对原油的地球化学特征进行了深入分析,发现这两类原油的饱和烃色谱存在明显的差异,但甾烷特征、萜烷特征以及碳同位素特征又比较相似,表现出同源的特点,推测次生作用是原油物性差异的主要原因。对这两类原油的轻烃色谱以及指纹参数进行了精细对比,发现:①凝析油和蜡质油的全烃色谱存在镜像关系;②凝析油的庚烷/甲基环己烷(石蜡度)偏高,甲苯/正庚烷(芳香度)偏低,蜡质油则相反;③凝析油和蜡质油的正构烷烃nC_(m+1)/nC_m存在协变关系,且凝析油的数值更大。认为X构造原油遭受了气侵,凝析油是蒸发分馏的产物,而蜡质油则是蒸发分馏的残留油。 相似文献
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我国近海探油已进入合作与自营并举,勘探与开发并进的新阶段。在1980—1986年间,我国在近海油气勘探区打探井348口。其中在渤海打井162口,东海打井12口,南海打井131口,台湾近海打井43口。目前巳有3个海上油气田投产,它们是:渤海埕北油田、北部湾涠10-3油田、台湾海峡长康油气田。总共年产石油70万吨、天然气100万立方米。7个海上油气田正在开发,即渤中28-1、渤中34-2/4、惠州21-1、绥中36-1、西江24-3、涠11-4油田、锦州20-2气田。上述油田计划打井172口,预计在高峰时年产原油500万吨、天然气5亿立方米。7个海上油气田正在进行开发可行性研究,有流花11-1、陆丰13-1、陆丰13-2、 相似文献
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The quantitative characterization of carbon isotopes of n-alkanes is commonly carried out in organic geochemical studies. Possible controls on carbon isotopes include source organic matter, maturity, fractionation during oil expulsion and migration, and the mixing of different oils. In this study of the origin of crude oils in the western Pearl River Mouth Basin, the influences of all of these factors have been considered in reaching a conclusion. Carbon isotopes of n-alkanes in the crude oils, and the extracts of the two effective source rocks (the Wenchang and Enping formations) in the basin, exhibit clear differences. The Wenchang source rocks have heavy δ13C values that remain almost constant or become slightly heavier with increasing carbon number. The Enping source rocks have light δ13C values that become lighter with increasing carbon number. Two groups of oils in this area were identified based on the carbon isotopes of the n-alkanes; groupIoils are similar to extracts of the Wenchang source rocks. However, the groupIIoils are different from both the Wenchang and Enping source rocks and the carbon isotopic profiles of their n-alkanes exhibit a “V” feature with increasing carbon number. The results of artificial thermal maturation experiments indicate that, from the early stage to the peak stage of oil generation (with EasyRo between 0.64% and 1.02%), the δ13C values of n-alkanes in the pyrolysis oils become heavier by about 3‰ with increasing thermal maturity, but the shape of the carbon isotopic profiles are not significantly changed. Calculated δ13C values of n-alkanes in “mixed” artificial pyrolysis oils indicate that the mixture of oils generated from the same source rocks with different maturities could not change the carbon isotopic profile of the n-alkanes, however, a mixing of the Wenchang and Enping oils could give the “V” feature in the profiles, similar to the groupIIoils in this area. The groupIIoils appear to be mixed Wenchang and Enping oils, the latter being the dominant component in the mixture. We conclude that the source organic matter and the degree of mixing are the main factors controlling the carbon isotopic characteristics of n-alkanes in crude oils in the western Pearl River Mouth Basin. 相似文献
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在烃源岩分布特征、有机质丰度、类型和成熟度分析的基础上,运用含油气盆地数值模拟技术,定量恢复了烃源岩热成熟演化史,探讨了油气差异分布特征。研究表明,文昌A凹陷各层系烃源岩分布广,厚度大,有机质丰度高;有机质类型文昌组偏Ⅱ1型,恩平组偏Ⅲ型,二者现今多处于高成熟—过成熟阶段。凹陷内烃源岩成熟时间早(文昌组约45.5Ma),现今成熟度高,以干气生成为主;凹陷边缘烃源岩成熟时间较晚(文昌组约30.0Ma),现今成熟度相对较低,以石油生成为主。凹陷现今油气差异分布的格局受制于有机质类型差异和热演化史不同,且下一步油气勘探方向,凹陷内以天然气为主,凹陷边缘以石油为主。 相似文献
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X.M. Xiao N.X. Li H.J. Gan Y.B. Jin H. Tian B.J. Huang Y.C. Tang 《Marine and Petroleum Geology》2009,26(8):1365-1378
The identification of a deeply-buried petroleum-source rock, owing to the difficulty in sample collection, has become a difficult task for establishing its relationship with discovered petroleum pools and evaluating its exploration potential in a petroleum-bearing basin. This paper proposes an approach to trace a deeply-buried source rock. The essential points include: determination of the petroleum-charging time of a reservoir, reconstruction of the petroleum generation history of its possible source rocks, establishment of the spatial connection between the source rocks and the reservoir over its geological history, identification of its effective source rock and the petroleum system from source to trap, and evaluation of petroleum potential from the deeply-buried source rock. A case study of the W9-2 petroleum pool in the Wenchang A sag of the Pearl River Mouth Basin, South China Sea was conducted using this approach. The W9-2 reservoir produces condensate oil and gas, sourced from deeply-buried source rocks. The reservoir consists of a few sets of sandstone in the Zhuhai Formation, and the possible source rocks include an early Oligocene Enping Formation mudstone and a late Eocene Wenchang Formation mudstone, with a current burial depth from 5000 to 9000 m. The fluid inclusion data from the reservoir rock indicate the oil and the gas charged the reservoir about 18–3.5 Ma and after 4.5 Ma, respectively. The kinetic modeling results show that the main stages of oil generation of the Wenchang mudstone and the Enping mudstone occurred during 28–20 Ma and 20–12 Ma, respectively, and that the δ13C1 value of the gas generated from the Enping mudstone has a better match with that of the reservoir gas than the gas from the Wenchang mudstone. Results from a 2D basin modeling further indicate that the petroleum from the Enping mudstone migrated upward along the well-developed syn-sedimentary faults in the central area of the sag into the reservoir, but that the petroleum from the Wenchang mudstone migrated laterally first toward the marginal faults of the sag and then migrated upward along the faults into shallow strata. The present results suggest that the trap structure in the central area of the sag is a favorable place for the accumulation of the Enping mudstone-derived petroleum, and that the Wenchang mudstone-derived petroleum would have a contribution to the structures along the deep faults as well as in the uplifted area around the sag. 相似文献
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The northwestern part of the Persian Gulf is one of the most prominent hydrocarbon exploration and production areas. Oilfields are located in structural highs formed around the Cenomanian depression known as Binak Trough. To evaluate the highly variable source rock maturity, timing of hydrocarbon generation as well as migration pattern and the remaining hydrocarbon potential of the early Cretaceous source rocks, burial and thermal histories were constructed for four production wells and one pseudo well. In addition two cross sections covering the depression and the structural highs around the trough were investigated by 2D basin modeling to provide a better regional overview on basin evolution.The modeling results indicate that whereas the Cretaceous source rocks are immature or early mature at the location of oilfields, they reached sufficient maturity to generate and expel considerable amounts of hydrocarbons in the Binak depression. The main phase of oil generation and expulsion from the Cretaceous source rocks is relatively recent and thus highly favorable for the conservation of hydrocarbon accumulations. Trap charging occurred through the late Miocene to Pliocene after the Zagros folding. 2D models predict that the Albian source rock still has significant hydrocarbon generation potential whereas the lower Neocomian source rock has reached already a high transformation ratio within the deep kitchen area. Oil migration occurs in both lateral and vertical directions. This migration pattern could explain the distribution of identified oil families in the northwestern part of the Persian Gulf. 相似文献
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Crude oil samples from Cretaceous and Tertiary reservoir sections in the Zagros Fold Belt oil fields, southern Iraq were investigated using non-biomarker and biomarker parameters. The results of this study have been used to assess source of organic matter, and the genetic link between oils and their potential source rocks in the basin. The oils are characterized by high sulphur and trace metal (Ni, V) contents and relatively low API gravity values (17.4–22.7° API). This indicates that these oils are heavy and generated from a marine source rock containing Type II-S kerogen. This is supported by their biomarker distributions of normal alkanes, regular isoprenoids, terpanes and steranes and the bulk carbon isotope compositions of their saturated and aromatic hydrocarbons. The oils are characterized by low Pr/Ph ratios (<1), high values of the C35 homohopane index and C31-22R/C30 hopane ratios, relatively high C27 sterane concentrations, and the predominance of C29-norhopane. These biomarkers suggest that the oils were generated predominantly from a marine carbonate source rock, deposited under reducing conditions and containing plankton/algal and microorganisms source input. The presence of gammacerane also suggests water column stratification during source rock deposition.The biomarker characteristics of the oils are consistent with those of the Middle Jurassic Sargelu carbonate as the effective source rock in the basin. Biomarker maturity data indicate that the oils were generated from early maturity source rocks. 相似文献
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Thirty-six Silurian core and cuttings samples and 10 crude oil samples from Ordovician reservoirs in the NC115 Concession, Murzuq Basin, southwest Libya were studied by organic geochemical methods to determine source rock organic facies, conditions of deposition, thermal maturity and genetic relationships. The Lower Silurian Hot Shale at the base of the Tanezzuft Formation is a high-quality oil/gas-prone source rock that is currently within the early oil maturity window. The overall average TOC content of the Hot Shale is 7.2 wt% with a maximum recorded value of 20.9 wt%. By contrast, the overlying deposits of the Tanezzuft Formation have an average TOC of 0.6 wt% and a maximum value of 1.1 wt%. The organic matter in the Hot Shale consists predominantly of mixed algal and terrigenous Type-II/III kerogen, whereas the rest of the formation is dominated by terrigenous Type-III organic matter with some Type II/III kerogen. Oils from the A-, B- and H-oil fields in the NC115 Concession were almost certainly derived from marine shale source rocks that contained mixed algal and terrigenous organic input reflecting deposition under suboxic to anoxic conditions. The oils are light and sweet, and despite being similar, were almost certainly derived from different facies and maturation levels within mature source rocks. The B-oils were generated from slightly less mature source rocks than the others. Based on hierarchical cluster analysis (HCA), principal component analysis (PCA), selected source-related biomarkers and stable carbon isotope ratios, the NC115 oils can be divided into two genetic families: Family-I oils from Ordovician Mamuniyat reservoirs were probably derived from older Palaeozoic source rocks, whereas Family-II oils from Ordovician Mamuniyat–Hawaz reservoirs were probably charged from a younger Palaeozoic source of relatively high maturity. A third family appears to be a mixture of the two, but is most similar to Family-II oils. These oil families were derived from one proven mature source rock, the Early Silurian, Rhuddanian Hot Shale. There is a good correlation between the Family-II and -III oils and the Hot Shale based on carbon isotope compositions. Saturated and aromatic maturity parameters indicate that these oils were generated from a source rock of considerably higher maturity than the examined rock samples. The results imply that the oils originated from more mature source rocks outside the NC115 Concession and migrated to their current positions after generation. 相似文献
17.
Jingqi Xu 《海洋学报(英文版)》2023,42(3):76-88
The hydrocarbon gases in the L1 gas field of the Lishui-Jiaojiang Sag have been commonly interpreted to be an accumulation of pure sapropelic-type thermogenic gas. In this study, chemical components, stable isotopic compositions, and light hydrocarbons were utilized to shed light on the origins of the hydrocarbon fluids in the L1gas pool. The hydrocarbon fluids in the L1 gas pool are proposed to be a mixture of three unique components:mid-maturity oil from the middle Paleocene coastal marine Lin... 相似文献
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埕北低断阶区沙二段是大港油田近年来重点勘探层系之一,研究目标层段原油特点及油源对比分析对油气勘探具有重要的意义.研究表明,原油物理性质总体表现出高成熟原油特征,具有四低一高的特点,即低密度,低黏度,低胶质+沥青含量、低含硫量及高含蜡量.原油地球化学性质和原油生物标志特征整体反映出生油母质形成于湖相沉积弱还原环境,具有丰富的藻类贡献,也表现出高成熟油特征.通过原油的物理四性分析和层系间油岩生物标志特征对比研究,分析认为其油气来源为两个方面:主要方面来自歧口凹陷和歧南次凹两大生油凹陷的双向供油,另一方面油气来自沙二段烃源岩的自生自储和沙三段的高成熟烃源岩. 相似文献
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Sixty crude oils from the Termit Basin (Eastern Niger) were analysed using biomarker distributions and bulk stable carbon isotopic compositions. Comprehensive oil-to-oil correlation indicates that there are two distinct families in the Termit Basin. The majority of the oils are geochemically similar and characterized by low Pr/Ph (pristane to phytane ratios) and high gammacerane/C30 hopane ratios, small amounts of C24 tetracyclic terpanes but abundant C23 tricyclic terpane, and lower δ13C values for saturated and aromatic hydrocarbon fractions. All of these geochemical characteristics indicate possible marine sources with saline and reducing depositional environments. In contrast, oils from well DD-1 have different geochemical features. They are characterized by relatively higher Pr/Ph and lower gammacerane/C30 hopane ratios, higher amounts of C24 tetracyclic terpane but a low content of C23 tricyclic terpane, and relatively higher δ13C values for saturated and aromatic hydrocarbon fractions. These geochemical signatures indicate possible lacustrine sources deposited under freshwater, suboxic-oxic conditions. This oil family also has a unique biomarker signature in that there are large amounts of C30 4α-methylsteranes indicating a freshwater lacustrine depositional environment.The maturity of the Termit oils is assessed using a number of maturity indicators based on biomarkers, alkyl naphthalenes, alkyl phenanthrenes and alkyl dibenzothiophenes. All parameters indicate that all of the oils are generated by source rocks within the main phase of the oil generation stage with equivalent vitrinite reflectance of 0.58%–0.87%. 相似文献
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The most petroliferous province in Syria is the Euphrates Graben system in the eastern part of the country. The source of the produced light and heavy oils has been a matter of debate from a petroleum geochemistry perspective as there are several possible source rock and just one proven source rock (R'mah formation). Based on gross composition and oil-oil correlation of biomarker and non-biomarker characteristics, three oil families have here been identified in the study area. Crude oils of Family 1 have been found to be generated from a marine and clay-rich source rock that is older than Jurassic in age based on age-related biomarker parameters (steranes and nordiacholestane ratios). Maturity-related parameters (aliphatic biomarkers and diamondoids) signal that the source of this oil family had a high maturation level. These features fit very well to the Tanf Formation (Abba Group) which is equivalent to Lower Silurian Hot Shales found elsewhere in the Middle East and North Africa. However, the Upper Cretaceous R'mah Formation and Shiranish Formation were found to be responsible for generating the majority of the crude oils studied (Family 2). Compositional and molecular differences between Families 2A and 2B were attributed to facies and subtle maturation variations. Geochemical oil-source rock correlations indicate that Family 2A was most likely sourced from the Shiranish Formation, while Family 2B was sourced from the R'mah Formation. Secondary alteration processes influenced bulk petroleum composition, most notably the depletion of light ends and the lowering of API gravity, particularly in the northwestern part of the graben. 相似文献