渤海海域蓬莱9-A油田输导脊研究及应用

根据三维地震、钻井、测井、薄片、包裹体资料及骨架砂体输导脊对比分析,对蓬莱9-A油田潜山不整合面输导脊形成的主控因素进行研究。分析表明,潜山不整合面输导脊的形成主要与潜山的物性和岩性有关,输导脊与构造脊不一定叠合,其中半风化岩石中裂缝发育是横向输导的关键;骨架砂体输导脊受控于高差和浮力,输导脊与构造脊是叠合的;潜山不整合面输导脊可以作为浅层成藏的油气中转站,输导脊圈闭面积、断层与输导脊的配置控制了浅层油藏丰度,输导脊汇油面积越大,断层切至输导脊汇油圈闭的高部位,对应浅层圈闭油藏丰度较高,并在已钻井获得证实。研究表明在无烃源岩覆盖的斜坡区与凸起区输导脊具有重要的控藏意义。

渤海海域蓬莱9-1花岗岩潜山大型油气田储层发育特征与主控因素

蓬莱9-1油田是近年来中国近海首次发现的一个以中生代花岗岩潜山风化壳为储层的大型油气田。在花岗岩潜山这个新的勘探领域,储层特征及储层形成机理条件是制约高效勘探的关键。通过镜下薄片鉴定、扫描电镜分析、矿物X-衍射分析、岩心与岩屑录井、测井曲线等资料综合分析,认为由表及里随着风化淋滤作用的逐渐减弱,蓬莱9-1花岗岩潜山可以划分为土壤带、砂-砾质风化带、裂缝带和基岩带,储集空间由孔隙型—裂缝-孔隙型—孔隙-裂缝型—裂缝型呈现有规律的变化。花岗岩潜山储层发育主要受表生岩溶作用、有机酸溶蚀作用、构造变形作用及微古地貌作用共同控制。这个认识对中国燕山期侵入的花岗岩潜山风化壳油气勘探开发具有借鉴意义。

渤海海域蓬莱9-1油田花岗岩潜山储层成因机制及石油地质意义

蓬莱9-1油田作为中国最大的花岗岩潜山油田,储层成因演化复杂,展布范围变化大。利用地球化学、地球物理、实验模拟等手段,结合野外地质观察,深入探讨了蓬莱9-1油田花岗岩潜山储层的成因机制及油气成藏模式。研究表明:蓬莱9-1油田花岗岩潜山为华北板块板内裂解背景下沿断裂主动侵入形成,其侵入时期为侏罗纪160~170 Ma,属于环太平洋构造域的燕山构造幕岩浆活动产物。表生岩溶和构造改造两大主要作用控制了花岗岩储层的形成,燕山期风化剥蚀控制储层宏观发育,新生代构造运动形成的断裂与节理则加速花岗岩内幕储层改造。横向上花岗岩储层厚度展布范围与断裂发育密度呈现正相关性;垂向上可划分为黏土带、砂质带、碎裂带、裂缝带和基岩带,花岗岩潜山中上部的砂质带、碎裂带和裂缝带为有利储层带和主力含油层段。蓬莱9-1油田花岗岩潜山为"似层状"油藏模式,其成功发现丰富了火山岩领域的油气勘探实践,对渤海海域相似地区花岗岩类潜山油气成藏规律研究及勘探具有重要参考价值。

渤海蓬莱9-1大型复合油田地质特征与发现意义

蓬莱9-1油田是在渤海海域发现的大型复合油田,其探明石油地质储量为2.28×108 m3,创造了近10年来中国单构造的勘探发现之最。油藏分布于新近纪碎屑岩和中生代侵入花岗岩,呈现埋深浅、油质稠、储量规模大的显著特点,生储盖组合匹配良好,复合整装成藏。其中位于潜山鞍部的花岗岩油藏约占储量的80%,受储集条件控制,风化花岗岩上部孔隙型、裂缝-孔隙型储层物性好,横向分布相对稳定,造就了"似层状"油藏模式;风化花岗岩中下部孔隙-裂缝型、裂缝型储层物性相对较差,横向非均质性强,为岩性油藏模式。该油田的发现开辟了潜山油气勘探的新领域,明确了渤东凹陷南段和边缘性庙西北洼沙河街组的油源贡献,揭示了长期活动断裂-潜山风化壳输导体系对油气富集的重要性,对类似蓬莱9-1油田的勘探,特别是中生代花岗岩潜山的勘探具有重要的借鉴意义。

渤海蓬莱9-1油藏花岗岩储层特征与成储化条件分析

渤海蓬莱9-1潜山油藏是以中生代花岗岩风化壳为储层的大型油藏。在花岗岩潜山这个新领域的勘探实践中,储层特征及成储化条件是困扰勘探的关键。通过薄片、岩心、测井、地震以及野外露头等资料综合分析了花岗岩储层特征与形成条件。研究表明,花岗岩风化壳上部主要为孔隙型储层,风化壳底部主要为裂缝型储层,平面上花岗岩风化壳储层主要分布在花岗岩体东侧。花岗岩大型节理发育、风化淋滤作用、构造改造、古地貌和浅埋藏是花岗岩规模化成储的重要条件,其中花岗岩大型节理发育是规模化成储的内在基础,风化淋滤作用和构造改造是规模化成储的主导因素,古地貌和浅埋藏是规模化储层得以保存的关键,构造改造与古地貌的耦合关系决定了储层发育程度,构造改造强烈且处于古地貌斜坡区的花岗岩体东侧是有利储层发育区,构造改造较弱并处于古地貌斜坡区的花岗岩体西侧储层发育次之,构造改造较弱且位于古地貌高点的花岗岩体轴部储层最不发育。该研究成果对于蓬莱9-1花岗岩油藏的后续开发及类似花岗岩潜山的勘探具有参考意义。

Genetic mechanism of the granite buried-hill reservoir of the Penglai 9-1 oilfield in Bohai Sea

The Penglai 9-1 oilfield is the largest granite buried-hill oilfield in China presently,genesis and evolution of the granite buried-hill reservoir is complex.Based on geochemical,geophysical,experimental simulation and other methods,and combined with field geological observation,genetic mechanism of the granite buried-hill reservoir of the Penglai 9-1 oilfield and its hydrocarbon accumulation mode were well investigated.Results showed that the granite was formed by magmatic intrusion along deep faults under intraplate breakup of North China Plate,it was the product of magmatic activities of Yanshan tectonic episode of Circum-Pacific Tectonic Region,and the intrusion time was 160e170 Ma of the Jurassic.Formation of the granite buried-hill reservoir was mainly controlled by the epigenic karstification and tectonic reconstruction,the Yanshanian weathering and denudation controlled macroscopic development characteristics of the granite buried-hill reservoir,and faults and joints formed by Cenozoic tectonic movement promoted modification of the granite buried-hill reservoir.Laterally,thickness of the granite buried-hill reservoir had a positive correlation with fracture density.Vertically,the granite rocks could be divided into five zones:soil zone,sandy zone,broken zone,fracture zone and base rock zone.The upper-middle part(sandy zone,broken zone,fracture zone)of the granite buried hill was the highquality favorable reservoir zone and the main oil-bearing interval.

基于随钻测压流度的地层渗透率评价方法及产能预测

基于随钻测压过程中流度的测量机理,通过大量的测压流度数据分析发现,水基钻井液钻井条件下(水基钻井液滤液)的随钻测压流度与钻井液滤液黏度乘积无限接近于相渗实验过程中残余油饱和度下的水相渗透率,据此提出一种随钻测压流度到岩心渗透率的转换方法,并建立基于Timur公式刻度的渗透率评价模型。该方法在渤海蓬莱19-9油田应用效果表明:①与借用相邻油田模型计算的渗透率相比,该模型计算的渗透率与岩心分析渗透率吻合程度更高;②基于新模型建立了测井计算流度与实钻比采油指数的相关关系,与借用相邻油田渗透率模型建立的关系对比,新模型相关性相对更好;③对4口生产井进行了产能预测,预测结果与钻后实际产量吻合较好。

电解法生活污水处理装置在海上平台的应用

电解法可以有效处理和净化生活污水。阐述了电解法处理生活污水的原理及特点,对蓬莱19-9油田J平台生活污水处理装置的工艺流程进行了详细介绍。数据表明经装置处理后的COD排放值可以满足GB4914-2008《海洋石油勘探开发污染物排放浓度限值》排海标准。为了使污水处理装置更加高效地被利用,对J平台使用的电解法处理生活污水装置进行了设备改进,在提高了处理效果的同时降低了维护成本,相关经验可推广应用于新平台的建设及旧平台的改造。

Formation permeability evaluation and productivity prediction based on mobility from pressure measurement while drilling

Based on the measurement mechanism of mobility in pressure measurement while drilling, through analyzing a large number of mobility data, it is found that under the condition of water-based mud drilling, the product of mobility from pressure measurement while drilling and the viscosity of mud filtrate is infinitely close to the water phase permeability under the residual oil in relative permeability experiment. Based on this, a method converting the mobility from pressure measurement while drilling to core permeability is proposed, and the permeability based on Timur formula has been established. Application of this method in Penglai 19-9 oilfield of Bohai Sea shows:(1) Compared with the permeability calculated by the model of adjacent oilfields, the permeability calculated by this model is more consistent with the permeability calculated by core analysis.(2) Based on the new model, the correlation between the calculated mobility of well logging and the actual drilling specific productivity index bas been established. Compared with the relationship established by using the permeability model of an adjacent oilfield, the correlation of the new model is better.(3) Productivity of four directional wells was predicted, and the prediction results are in good agreement with the actual production after drilling.