陵水17-2深水气田钻完井天然气水合物生成风险及预防措施

陵水17-2气田探井LS17-2-1井在钻井、测试过程中采用水基钻井液和测试液,给天然气水合物预防和控制工作带来了严峻挑战。综合分析了LS17-2-1井钻完井过程中不同工况下的天然气水合物生成风险,提出了钻井、测试等作业中天然气水合物预防措施,并进行了实验验证分析,结果表明：正常钻进时,325-1 426 m井段位于水合物稳定区,最大过冷度6.5℃,宜采用17%NaCl＋2%MEG抑制剂配方;停钻时,水合物稳定区位于300-1 963 m井段,最大过冷度19℃,宜采用20%NaCl＋（10.71%-18.00%）MEG抑制剂配方;停测关井时,水合物稳定区位于0-1 981 m井段,最大过冷度23℃,宜采用CaCl2/KFo＋MEG抑制剂配方;节流放喷时,当产气量小于25万m3/d时宜采用井下注入MeOH方案,当产气量大于25万m3/d时井筒内水合物生成风险消失。上述成果在LS17-2-1井钻井、测试过程中取得成功应用,创造了中国海油单井测试放喷最高产量纪录,可为其他深水气田钻完井天然气水合物预防提供借鉴。

陵水17-2气田水下生产系统总体布置研究

随着近海气田的开发殆尽,中海油近年来逐渐加快深海气田勘探开发的步伐。近年来我国自行开发设计的陵水22-1气田、乐东22-1气田、番禺35-2/35-1气田以及合作开发的荔湾3-1气田均应用了水下生产系统技术进行开发,作者有幸参与了这些项目的总体设计前期研究工作。这些项目均采用水下生产系统回接到固定平台进行处理、增压、外输的模式进行开发,其中,乐东22-1气田采用链接式模式进行开发;陵水22-1气田和番禺35-2/35-1气田采用链接式和丛式井管汇混合模式进行开发;荔湾3-1气田采用东、西丛式井管汇模式进行开发。本文以陵水22-1气田为例,说明水下生产系统总体布局方案的比选过程。

深水测试暂堵液研究及在陵水17-2气田的应用

针对陵水17-2气田深水测试液作业要求,结合储层无机盐盐敏的特点,以储层保护为出发点,应用"逐级拟合填充"原理,成功开发出了一套醇基有机盐加重测试暂堵液体系。性能评价结果显示,该体系具有较好的流变性、防水敏性、防水锁性、稳定性和储层保护性。测试暂堵液已在陵水17-2-1井测试施工中成功应用,并取得了良好的应用效果,值得在类似储层深水测试作业中推广应用。

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.