期刊文献+
共找到13篇文章
< 1 >
每页显示 20 50 100
Large-scale Tazhong Ordovician Reef-flat Oil-Gas Field in the Tarim Basin of China 被引量:3
1
作者 ZHOU Xinyuan WANG Zhaoming +3 位作者 YANG Haijun ZHANG Lijuan HAN Jianfa WANG Zhenyu 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2009年第1期179-188,共10页
The Tazhong reef-fiat oil-gas field is the first large-scale Ordovician organic reef type oil-gas field found in China. Its organic reefs were developed in the early Late Ordovician Lianglitag Formation, and are the f... The Tazhong reef-fiat oil-gas field is the first large-scale Ordovician organic reef type oil-gas field found in China. Its organic reefs were developed in the early Late Ordovician Lianglitag Formation, and are the first large reefs of the coral-stromatoporoid hermatypic community found in China. The organic reefs and platform-margin grain banks constitute a reef-flat complex, mainly consisting of biolithites and grainstones. The biolithites can be classified into the framestone, baffiestone, bindstone etc. The main body of the complex lies around the wells from Tazhong-24 to Tazhong-82, trending northwest, with the thickness from 100 to 300 m, length about 220 km and width 5-10 km. It is a reef-flat lithologic hydrocarbon reservoir, with a very complex hydrocarbon distribution: being a gas condensate reservoir as a whole with local oil reservoirs. The hydrocarbon distribution is controlled by the reef complex, generally located in the upper 100-200 m part of the complex, and largely in a banded shape along the complex. On the profile, the reservoir shows a stratified feature, with an altitude difference of almost 2200 m from southeast to northwest. The petroleum accumulation is controlled by karst reservoir beds and the northeast strike-slip fault belt. The total geologic reserves had reached 297.667 Mt by 2007. 展开更多
关键词 Lianglitag Formation ORDOVICIAN organic reef oil-gas field reef-fiat complex TARIM
下载PDF
Mesozoic-Cenozoic Tectonics of the Yellow Sea and Oil-Gas Exploration 被引量:4
2
作者 WAN Tianfeng HAO Tianyao 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2010年第1期77-90,共14页
The purpose of the present study was to study the tectonics of the Yellow Sea. Although oilgas exploration has been undertaken for more than 30 years in the southern Yellow Sea, the exploration progress has achieved l... The purpose of the present study was to study the tectonics of the Yellow Sea. Although oilgas exploration has been undertaken for more than 30 years in the southern Yellow Sea, the exploration progress has achieved little. There are three tectonic periods with near N-S trending shortening and compression (260-200 Ma, 135-52 Ma and 23-0.78 Ma) and three tectonic periods with near E-W trending shortening and compression (200-135 Ma, 52--23 Ma and 0.78 Ma) at the Yellow Sea and adjacent areas during the Mesozoic and Cenozoic. The lndosinian tectonic period is the collision period between the Sino-Korean and Yangtze Plates, which formed the basic tectonic framework for the Yellow Sea area. There were strong intraplate deformations during the Yanshanian (200-135 Ma) and Sichuanian (135-52 Ma) periods with different tectonic models, which are also the main formation periods for endogenic metallic mineral deposits around the Yellow Sea. The three tectonic periods during the Cenozoic affect important influences for forming oil-gas reservoirs. The Eocene-Oligocene (52-23 Ma) is the main forming period for oil-gas sources. The Miocene-Early Pleistocene (23-0.78 Ma) was a period of favorable passage for oil-gas migration along NNE trending faults. Since the Middle Pleistocene (0.78 Ma) the NNE trending faults are closed and make good conditions for the reservation of oil-gas. The authors suggest that we pay more attention to the oil-gas exploration at the intersections between the NNE trending existing faults and Paleogene- Neogene systems in the southern Yellow Sea area. 展开更多
关键词 TECTONICS stress field oil-gas exploration MESOZOIC-CENOZOIC Yellow Sea
下载PDF
New Model of Predicting Remaining Recoverable Reserves and Application in the Oilfield
3
作者 Jiaguang Li,Shaobin Guo School of Energy Resources,China University of Geosciences(Beijing),Beijing 100083,China. 《地学前缘》 EI CAS CSCD 北大核心 2009年第S1期129-129,共1页
As a significant inducement during the development of oil and gas,the role of remaining recoverable reserves is more observable especially in the later phase of development of oilfield.Depended on the production decli... As a significant inducement during the development of oil and gas,the role of remaining recoverable reserves is more observable especially in the later phase of development of oilfield.Depended on the production decline method in petroleum reservoir engineering,a new model of predicting recoverable and remaining recoverable reserves has been 展开更多
关键词 oil-gas field prediction NEW model REMAINING recoverable RESERVES
下载PDF
柴达木盆地南八仙气田气源及其勘探意义 被引量:5
4
作者 赵林 洪峰 +1 位作者 戴金星 孙冬敏 《石油勘探与开发》 SCIE EI CAS CSCD 北大核心 2000年第3期25-27,共3页
根据天然气的地球化学特征、烃源岩的热演化和气势演化探讨柴达木盆地南八仙气田的气派,认为其天然气并非来自于赛什腾凹陷,而是主要来自于西侧的伊克雅汝乌凹陷。伊克雅汝乌凹陷是重要的煤成气生气中心,煤成气生气中心对气田的分布... 根据天然气的地球化学特征、烃源岩的热演化和气势演化探讨柴达木盆地南八仙气田的气派,认为其天然气并非来自于赛什腾凹陷,而是主要来自于西侧的伊克雅汝乌凹陷。伊克雅汝乌凹陷是重要的煤成气生气中心,煤成气生气中心对气田的分布有明显的控制作用,处于伊克雅汝乌生气中心或生气中心附近的有效圈闭是煤成气聚集的有利场所,因此伊克雅汝乌、冷湖构造带东南段和马海—南八仙地区具有良好的天然气勘探前景。图3表3参5(赵林摘) 展开更多
关键词 柴达木盆地 气田 气源 天然气勘探 地球化学特征
下载PDF
视电阻增大率在南八仙油气田油气水研究中的应用 被引量:4
5
作者 韩乾凤 晁吉俊 +1 位作者 杨效成 苟迎春 《测井技术》 CAS CSCD 2006年第5期442-444,共3页
南八仙油气田油气水分布规律复杂,不同层段的典型水层电阻率明显不同,有时会误判储层。针对此问题,认为视电阻增大率判断油气水层方法的关键是分层统计南八仙油田水层电阻率,把细分层段后的地层电阻率与同层段典型水层电阻率之比定义为... 南八仙油气田油气水分布规律复杂,不同层段的典型水层电阻率明显不同,有时会误判储层。针对此问题,认为视电阻增大率判断油气水层方法的关键是分层统计南八仙油田水层电阻率,把细分层段后的地层电阻率与同层段典型水层电阻率之比定义为视电阻增大率。然后在视电阻增大率-声波时差及视电阻增大率-补偿密度2个交会图上标出所有层段的试油、试采的油气水结论,建立起储层评价综合解释的统计经验判别标准,供认识油田的油气分布规律和编制开发方案时参考。 展开更多
关键词 测井解释 油气水层识别 视电阻增大率 南八仙油气田
下载PDF
测井方法识别南八仙油气田N2^2-N1储层的油气 被引量:3
6
作者 邓奎 许文平 +1 位作者 李亚萍 宋彦海 《天然气工业》 EI CAS CSCD 北大核心 2009年第7期12-15,共4页
柴达木盆地南八仙油气田N22—N1油气藏储层分布不稳定,横向上岩性变化大,进行地层对比和细分层工作存在着很大的困难;油气藏无统一的油气水界面和统一的压力系统,油气性质及油气比也存在较大差异,用常规的处理手段和处理程序无法计算和... 柴达木盆地南八仙油气田N22—N1油气藏储层分布不稳定,横向上岩性变化大,进行地层对比和细分层工作存在着很大的困难;油气藏无统一的油气水界面和统一的压力系统,油气性质及油气比也存在较大差异,用常规的处理手段和处理程序无法计算和预测储层的产油气比例,导致解释结果符合率低。为此,采用CONGAS凝析油气藏解释评价软件,根据三孔隙测井曲线对天然气的响应特征,通过计算三孔隙测井响应方程,计算出地面条件下的气油比和可动油气密度等参数,将计算的油气饱和度与气油比进行交绘,形成综合测井解释图版。通过对该图版的综合分析,结合储层物性,得到N22—N1油气藏储层油、气、水层的综合定量区分解释标准。应用该标准的综合解释符合率达到94.8%。 展开更多
关键词 南八仙油气田 凝析油气田 CONGAS软件 测井曲线 孔隙度 油气层识别
下载PDF
南八仙油气田中浅层天然气处理技术 被引量:1
7
作者 宋彦海 杨银山 +3 位作者 蓝春连 李杰山 邓奎 刘小军 《天然气工业》 EI CAS CSCD 北大核心 2009年第7期109-111,共3页
为了避免天然气在输送过程中形成天然气水合物而造成管线堵塞,在管输前必须对天然气进行油、气、水的分离处理,使天然气的水露点、烃露点能符合管输要求。柴达木盆地南八仙油气田中浅层天然气处理采用了加拿大进口橇装天然气处理装置,... 为了避免天然气在输送过程中形成天然气水合物而造成管线堵塞,在管输前必须对天然气进行油、气、水的分离处理,使天然气的水露点、烃露点能符合管输要求。柴达木盆地南八仙油气田中浅层天然气处理采用了加拿大进口橇装天然气处理装置,该装置具有自动化程度高、易于操作、占地面积小的优点,能有效地对天然气进行油、气、水的分离。为此,详细介绍了该天然气处理技术,并根据实际情况对处理系统的参数进行了调整与优化,保证了处理系统的安全、高效、平稳运行。 展开更多
关键词 南八仙油气田 中浅层天然气 处理装置 液态烃 温度控制 参数优化
下载PDF
柴达木盆地南八仙油气田油气相态特征 被引量:4
8
作者 王起琮 马达德 徐峰 《天然气工业》 EI CAS CSCD 北大核心 2006年第5期17-20,共4页
柴达木盆地南八仙油气田发育两套含油气层系深层的E31油气藏和浅层的N22—N1油气藏。7个样品的油、气高压物性实验结果揭示了凝析油气藏的相态特征和相态分布规律。浅层油气藏属于饱和烃类体系,油气藏类型包括油藏、油环凝析气藏、凝析... 柴达木盆地南八仙油气田发育两套含油气层系深层的E31油气藏和浅层的N22—N1油气藏。7个样品的油、气高压物性实验结果揭示了凝析油气藏的相态特征和相态分布规律。浅层油气藏属于饱和烃类体系,油气藏类型包括油藏、油环凝析气藏、凝析气顶油藏和凝析气藏;深层油气藏属于未饱和烃类体系,油气藏类型包括湿气藏、凝析气藏和油藏。研究表明,由于深、浅气藏流体组分及温度、压力条件不同,烃类相态也就不同。深入了解地下流体相态特征并确定油气藏类型对于高效合理地开发油气藏、提高油、气采收率具有重要的意义。 展开更多
关键词 柴达木盆地 南八仙油气田 凝析气藏 流体 相态 特征 分布 规律
下载PDF
南八仙气田排水采气工艺先导性试验及效果研究 被引量:10
9
作者 杨银山 《钻采工艺》 CAS 北大核心 2013年第4期44-47,136,共4页
南八仙气田于2001年投入试采,天然气年生产能力为2.5×108m3,年井口产水量为669m3,平均单井日产气为2.1×104m3,水气比为0.04m3/104m3。目前有生产气井32口,单井平均产气量为2.09×104m3/d。随着南八仙气田开发周期的延长,... 南八仙气田于2001年投入试采,天然气年生产能力为2.5×108m3,年井口产水量为669m3,平均单井日产气为2.1×104m3,水气比为0.04m3/104m3。目前有生产气井32口,单井平均产气量为2.09×104m3/d。随着南八仙气田开发周期的延长,气井出水趋势越来越严重,造成井口压力下降,携液困难,许多气井无法生产;通过对南八仙气田气井积液量的识别和积液程度的诊断,以及井下节流、涡轮工具排水、泡沫排水工艺的现场试验实施效果的分析,根据井深实际流速及对应的最小临界携液流速,优化涡流工具参数,设计了对应位置的涡流工具。选择涡流排水采气技术来改变井筒气液两相流态,降低了气井的临界携液流量。为下一步南八仙气田排水采气工艺的推广应用提供了依据。 展开更多
关键词 南八仙气田 气井 排水采气 先导性试验 效果分析
下载PDF
Positive carbon isotope excursions:global correlation and genesis in the Middle-Upper Ordovician in the northern Tarim Basin,Northwest China 被引量:6
10
作者 Cun-Ge Liu Li-Xin Qi +4 位作者 Yong-Li Liu Ming-Xia Luo Xiao-Ming Shao Peng Luo Zhi-Li Zhang 《Petroleum Science》 SCIE CAS CSCD 2016年第2期192-203,共12页
Stable carbon isotope ratio (δ13Ccarb) analysis has been widely applied to the study of the inter-conti- nental or global marine carbonate correlation. Large-scale Cambrian-Ordovician carbonate platforms were devel... Stable carbon isotope ratio (δ13Ccarb) analysis has been widely applied to the study of the inter-conti- nental or global marine carbonate correlation. Large-scale Cambrian-Ordovician carbonate platforms were developed in the Tarim Basin. But research on fluctuation character- istics and global correlation of δ13Ccarb is still weak. Based on conodont biostratigraphy and whole-rock δ13Ccarb data in the Tahe oil-gas field of the northern Tarim Basin, the global correlation and genesis of positive carbon isotope excursions in the Darriwilian--Early Katian was exam- ined. Three positive excursions were identified in the Tahe oil-gas field including the middle Darriwilian carbon iso- tope excursion (MDICE), the Guttenberg carbon isotope excursion (GICE), and a positive excursion within the Pygodus anserinus conodont zone which is named the Early Sandbian carbon isotope excursion (ESICE) in this paper. Furthermore, these positive excursions had no direct relation with sea level fluctuations. MDICE and GICE could be globally correlated. The Middle-Upper Ordovi- cian Saergan Formation source rocks of the Kalpin outcrops were in accordance with the geological time of MDICE and ESICE. GICE had close relationship with the source rock of the Lianglitag Formation in the basin.Massive organic carbon burial was an important factor controlling the genesis of these positive excursions. 展开更多
关键词 Tarim Basin Tahe oil-gas field - Middle-Upper Ordovician Carbon isotope DARRIWILIAN Sandbian Katian source rock
下载PDF
南八仙油气田中浅层(N_1—N_2~2)油气藏类型研究 被引量:3
11
作者 颉永琛 关平 +1 位作者 戴胜群 杨国军 《天然气地球科学》 EI CAS CSCD 北大核心 2012年第5期868-875,共8页
南八仙油气田属于复杂断块型油气田,N1—N22油气藏受构造、断层和岩性等多重因素影响,储层流体性质复杂,存在多套油气水系统,无统一的油气水界面。利用电测资料准确识别油气层的难度大,油气田的开发定位、开发方式难以确定,严重影响了... 南八仙油气田属于复杂断块型油气田,N1—N22油气藏受构造、断层和岩性等多重因素影响,储层流体性质复杂,存在多套油气水系统,无统一的油气水界面。利用电测资料准确识别油气层的难度大,油气田的开发定位、开发方式难以确定,严重影响了油气田的开发效益。通过综合应用油气藏流体性质、化验分析、高压物性、天然气组分分析、生产井产出物等资料,综合分析判断南八仙N1—N22油气藏类型,以气藏、凝析气藏为主,少量为带油环凝析气藏,并针对不同的油气藏类型,分析了依靠自然能量衰竭开发、注气保压开发和注水开发的可行性,为指导油气藏提高开发效益提供依据。 展开更多
关键词 南八仙油气田 油气藏类型 开发方式
原文传递
南八仙油气田成藏机理再认识 被引量:4
12
作者 颉永琛 关平 +1 位作者 杨国军 保吉成 《天然气地球科学》 EI CAS CSCD 北大核心 2012年第5期876-883,共8页
南八仙复杂断块油气田,其油气藏富集受构造、断层、岩性等多重因素的控制。深层E13气藏为原生高压气藏,且以凝析气藏为主;中浅层N1—N22气藏为次生正常压力油气藏,油气藏类型复杂多样。参考近期区域勘探研究成果,试采开发动态资料,分析... 南八仙复杂断块油气田,其油气藏富集受构造、断层、岩性等多重因素的控制。深层E13气藏为原生高压气藏,且以凝析气藏为主;中浅层N1—N22气藏为次生正常压力油气藏,油气藏类型复杂多样。参考近期区域勘探研究成果,试采开发动态资料,分析了南八仙"上油下气、以气为主"的成藏规律,认为E13气藏为2期充注,构造相对完整,圈闭保存条件好,形成异常高压原生气藏;E23原生油气藏受到后期仙北大断层的破坏,油气向浅层运移聚集;N1—N22油气藏为断层、岩性圈闭的产物,一期充注,属正常压力的次生油气藏,油气主要富集于圈闭条件较好的仙北大断层的下盘。 展开更多
关键词 南八仙油田 成藏机理 复杂断块油田
原文传递
Middle–Upper Ordovician(Darriwilian–Early Katian) Positive Carbon Isotope Excursions in the Northern Tarim Basin, Northwest China: Implications for Stratigraphic Correlation and Paleoclimate 被引量:9
13
作者 Cunge Liu Guorong Li +3 位作者 Dawei Wang Yongli Liu Mingxia Luo Xiaoming Shao 《Journal of Earth Science》 SCIE CAS CSCD 2016年第2期317-328,共12页
Three positive carbon isotope excursions are reported from Middle-Upper Ordovician in Tahe oil-gas field, northern Tarim Basin. Based on conodont biostratigraphy, the Middle Darriwilian Isotope Carbon Excursion(MDICE... Three positive carbon isotope excursions are reported from Middle-Upper Ordovician in Tahe oil-gas field, northern Tarim Basin. Based on conodont biostratigraphy, the Middle Darriwilian Isotope Carbon Excursion(MDICE) and the Guttenberg Carbon Isotope Excursion(GICE) are identified from Darriwilian to Early Katian by the aid of whole-rock carbon isotope data from two well cores. Positive excursion within conodont Pygodus anserinus zone is developed in Early Sandbian, and the fluctuation range is no less than MDICE. Because the range of this excursion in the generalized global carbon isotope curve is short, previous studies paid little attention to it, and named Early Sandbian Isotope Carbon Excursion(ESICE) in this paper. Furthermore, these positive excursions are not directly related to sea level fluctuations and the MDICE and GICE identified in northern Tarim can be globally correlated to that in southern China, North America, South America, and Europe. The Saergan Fm. source rocks of Middle-Upper Ordovician in Kalpin Dawangou outcrop are in accord with the geologic time of MDICE and ESICE, and GICE have strong ties to the source rock of Lianglitag Fm. in basin. Abundant organic carbon burial is an important factor in genesis of positive isotope carbon excursions. Positive oxygen isotope excursion, conodont fauna turnover, decreased conodont total diversity, and the change of sedimentary facies indicated that dramatic changes of paleoceanographic environment of Early-Middle Ordovician in Tarim Basin started from the end of Darriwillian, and an obvious icehouse climate of Late Ordovician occurred in ESICE. 展开更多
关键词 Tarim basin Tahe oil-gas field DARRIWILIAN Sandbian KATIAN carbon isotope paleoclimate source rock.
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部