恩平24-2油田水平井钻井液技术研究

为满足恩平24-2油田水平井钻井工程和储层保护需要,通过实验研制出一种无固相快速弱凝胶钻井液体系。室内评价试验表明:该钻井液具有较高的动塑比和较高低剪切速率黏度(LSRV),能有效克服水平井段携岩难、易形成岩屑床的问题。具有优异的抑制性和润滑性,且滤失量较小,具有较强的抗温、抗污染能力、井眼净化能力和储层保护能力。针对恩平24-2油田水平井采用裸眼完井工艺,研究了破胶剂JPC对钻井液及其滤饼的破胶性能,破胶剂JPC能有效解除聚合物对储层造成的污染。研究结果表明,该钻井液具有独特的流变性,维护简单,优异的储层保护性能和较好的可降解性,适用于恩平24-2油田水平井水平段的钻进。

成膜剂HN-1研制及其在钻井液中的应用

在复杂地区石油勘探开发过程中,井壁失稳和储层伤害已成为国际性技术难题。钻井液中的水相进入井壁地层和油气储层是造成井壁失稳和储层损害的主要原因,为了阻止钻井液中的水相进入井壁地层和油气储层,近年来国内外学者提出了超低渗透钻井液技术,其中成膜剂是超低渗透钻井液的关键处理剂。着重介绍为恩平24-2油田所研制的一种不影响钻井液其他性能并能降低钻井液滤失量的成膜剂HN-1以及由此而构建的恩平24-2油田超低渗透钻井液体系。同时,根据超低渗透钻井液性能测试方法,评价了其侵入砂床深度、高温高压砂床滤失量、岩心承压能力和储层保护能力。评价结果表明,HN-1成膜剂阻止了钻井液中固相和液相进入储层,降低了钻井液侵入砂床深度和钻井液高温高压砂床滤失量,提高了岩心承压能力和储层保护能力,为开发恩平24-2油田提供了有效保障。

Reservoir forming conditions and key exploration technologies of Lingshui 17-2 giant gas field in deepwater area of Qiongdongnan Basin

On September 15,2014,China National Offshore Oil Co.,Ltd announced that a high production of oil and gas flow of 1.6
106 m3/d was obtained in Well LS17-2-1 in deepwater area in northern South China Sea,which is the first great oil and gas discovery for self-run deepwater exploration in China sea areas,and a strategic breakthrough was made in natural gas exploration in deepwater area of Lingshui sag in Qiongdongnan Basin.Under the combined action of climax of international deepwater exploration,high oil prices,national demands of China,practical needs of exploration,breakthroughs in seismic exploration and testing technologies,innovations in geological cognition and breakthroughs in deepwater operation equipment,Lingshui 17-2 gas field is discovered.Among these factors,the innovation in reservoir forming geological cognition directly promotes the discovery.The quality of seismic data in the early time is poor,so key reservoir forming conditions such as effective source rocks,high quality reservoirs and oil-gas migration pathways are unable to be ascertained;with support of new seismic acquisition and processing technology,some researches show that Lingshui sag is a successive large and deep sag with an area of 5000 km2 and the maximum thickness of Cenozoic stratum of 13 km.In the Early Oligocene,the Lingshui sag was a semi-closed delta-estuarine environment,where the coalmeasure and marine mudstones in Lower Oligocene Yacheng Formation were developed.The Lingshui sag is a sag with high temperature,and the bottom temperature of source rocks in Yacheng Formation can exceed 250C,but the simulation experiment of hydrocarbon generation at high temperature indicates that the main part of this set of source rock is still in the gas-generation window,with resources of nearly 1 trillion cubic meters,so the Lingshui sag is a hydrocarbon-rich generation sag.In the Neogene,the axial canyon channel from the Thu Bon River in Vietnam passed through the Lingshui sag,and five stages of secondary channels were developed in the axial canyon channel,where four types of reservoirs with excellent physical properties including the axial sand,lateral accretion sand,natural levee sand as well as erosion residual sand were developed,and lithologic traps or structural-lithologic traps were formed.The diapiric zone in the southern Lingshui sag connects deep source rocks in Yacheng Formation and shallow sandstones in the channels,and the migration pattern of natural gas is a T-type migration pattern,in other words,the natural gas generated from Yacheng Formation migrates vertically to the interior of the channel sandbody,and then migrates laterally in the channel reservoirs and forms the reservoirs.Innovations of geophysical exploration technologies for complicated geological conditions of deepwater areas are made,such as the detuning comprehensive quantitative amplitude hydrocarbon detection technology,which greatly improves the success rate of deepwater exploration;key technologies of deepwater safety exploratory well testing represented by the platform-dragged riser displacement technology are developed,which greatly reduces the drilling test cost.The above key exploration technologies provide a strong guarantee for the efficient exploration and development of Lingshui gas field.

恩平凹陷成藏条件分析及商业性突破

恩平凹陷经历了长达27年的勘探一直未获得突破,其主要原因是由于原二维地震资料品质欠佳,使得对凹陷结构、性质及成藏规律认识不清。2008年以来在恩平凹陷有针对性地采集了三维地震资料,在此基础上加强了区域研究与区带研究,进而开展了含油气系统及成藏条件综合分析,对该区的成藏规律有了新认识并提出了一系列勘探目标,首钻EP24-2-1井获得了商业性突破,这也是珠江口盆地油气勘探区域的突破,具有重要意义。

提高甲板片预制效率在中海油平台建造上的应用

中海油平台陆地建造中,目前面临的问题是整体的建造工期短,由于整体建造工期短势必对整个平台的建造质量、安全工作管理难度大,同时隐患也随之增加,如何提高陆地建造效率从而提高平台整体建造质量、降低安全隐患,同时实现降本增效是目前中海油平台陆地建造的一项难点。如何提高陆地建造效率,对平台陆地建造整体进行分析,甲板片预制工作量可占到项目陆地建造的35%,如何提高甲板片的预制效率,缩短主结构建造的时间、提高建造质量的同时为层间多专业施工和陆地调试提供充足的时间。如惠州25-8组块共有26个甲板片,生活模块共有5个甲板片,结构建造共8 000 t。100 t以上甲板片15个;100 t以下甲板片16个。对EP24-2组块5号(149T)片预制工艺流程进行分析,改变施工方案,甲板片预制时间缩短了3.5 d,创造的直接经济效益:3.5×8×30×20=16 800元,给后续甲板片预制施工起到示范作用。