From Cycles to Sequences:Sequence Stratigraphy and Relative Sea Level Change for the Late Cambrian of the North China Platform

In the Late Cambrian, the North China Platform was a typical carbonate ramp platform. The Upper Cambrian of the northern part of the North China Platform is famous for the development of bioherm limestones and storm calcirudites and can be divided from bottom to top into the Gushan, Changshan and Fengshan formations. In this set of strata, the deep-ramp mudstone and marls and the shallow-ramp packstones and grainstones constitute many carbonate meter-scale cycles of subtidal type. More tidal-flat dolomites are developed in the Upper Cambrian of the southern margin of the North China platform, in which limestone and dolomite beds also constitute many carbonate meter-scale cycles of the peritidal type. These cycles are marked by a variety of litho-facies successions. There are regularly vertical stacking patterns of meter-scale cycles in long-term third-order sequences, which is the key to discerning such sequences. Third- order sequence is marked by a particular sedimentary-facies succession that is the result of the environment-changing process of deepening and shoaling, which is genetically related to third-order sea level changes. Furthermore, four third- order sequences can be grouped in the Upper Cambrian of the North China Platform. The main features of these four third -order sequences in the northern part of the platform can be summarized as follows: firstly, sequence-boundaries are characterized by drowning unconformities; secondly, the sedimentary-facies succession is generally constituted by one from deep-ramp facies to shallow-ramp facies; thirdly, a succession of “CS (?)+HST” (i.e., “condensed section and high- stand system”) forms these four third-order sequences. The chief features for the third-order sequences in the southern part of the North China Platform comprises: more dolomites are developed in the HSTs of third-order sequences and also developed more carbonate meter-scale cycles of peritidal types; the sedimentary-facies succession of the third-order sequences is marked by “shallow ramp-tidal flat”; the sequence boundaries are characterized by exposure punctuated surfaces. According to the changes for the third-order sequences from the north to the south, a regular sequence- stratigraphic framework can be established. From cycles to sequences, the study of sequence stratigraphy from litho-facies successions to sedimentary-facies successions exposes that as follows: meter-scale cycles that are used as the basic working unit actually are litho-facies successions formed by the mechanism of a punctuated aggradational cycle, and third -order sequences that are constituted by regularly vertical stacking patterns of meter-scale cycles are marked by sedimentary-facies successions. On the basis of the changing curve of water depth at each section, the curve of the relative third-order sea level changes in the late Cambrian of the North China Platform can be integrated qualitatively from changing curve of water depth. The correlation of Late Cambrian long-term sea level changes between North China and North America demonstrates that there are not only similarities but also differences, reflecting control of long-term sea level changes both by global eustacy and by regional factors.

Cambrian Sequence Stratigraphy and Sea Level Cycles of North China Platform

The Cambrian of the North China platform consists chiefly of shallow water deposits and shows the sedimentary characters of an epicontinental sea basin. Controlled mainly by global sea level changes and sedimentary influx, the depositional sequences all exhibit as composite sequences. From bottom upward, 14 sequences (3rd order) are recognized, which may be grouped into 5 sequence sets and further into 2 mesosequences (2nd order). It is suggested herein that the Cambrian/Ordovician boundary may better be set at the MFS (maximum flooding surface) of the sequence OSq1, above which the conodont Cordylodus lindstroemi occurs. This position is about 40 m above the traditional Cambrian/Ordovician boundary and is within the Yeli Formation.

Application of the monitoring and early warning system for internal solitary waves:Take the second natural gas hydrates production test in the South China Sea as an example

Internal solitary waves(ISWs) contain great energy and have the characteristics of emergency and concealment. To avoid their damage to offshore engineering, a new generation of monitoring and early warning system for ISWs was developed using technologies of double buoys monitoring, intelligent realtime data transmission, and automatic software identification. The system was applied to the second natural gas hydrates(NGHs) production test in the Shenhu Area, South China Sea(SCS) and successfully provided the early warning of ISWs for 173 days(from October 2019 to April 2020). The abrupt changes in the thrust force of the drilling platform under the attack of ISWs were consistent with the early warning information, proving the reliability of this system. A total of 93 ISWs were detected around the drilling platform. Most of them occurred during the spring tides in October–December 2019 and April 2020, while few of them occurred in winter. As suggested by the theoretical model, the full-depth structure of ISWs was a typical current profile of mode-1, and the velocities of wave-induced currents can reach 80 cm/s and30 cm/s, respectively, in the upper ocean and near the seabed. The ISWs may be primarily generated from the interactions between the topography and semidiurnal tides in the Luzon Strait, and then propagate westward to the drilling platform. This study could serve as an important reference for the early warning of ISWs for offshore engineering construction in the future.

北海钻井平台Winterization Basic符号的解读

北海区域丰富的油气资源吸引了各种高精尖半潜钻井平台云集此地,各船厂、设计公司也争相研发适用于北海恶劣海况的半潜钻井平台。从长远的发展来看,Winterization Basic这一平台的入籍符号会逐渐成为适用于北海恶劣海况的半潜平台的最基本要求。目前烟台中集来福士海洋工程有限公司已经成功交付有3座半潜平台在北海区域服务,也即将交付第四座带有Winterization Basic这一入籍符号的半潜平台COSLProspector。本文以COSLProspector项目Winterization Basic设计为例,概述总结了整个基础、详细的施工设计过程的经验教训。

自升式钻井平台Diverter Flooding系统设计

由自升式平台主船体潜水泵出口管路直接为泥浆分流器提供flooding海水，与传统flooding系统相比，该设计方案海水供水管线的水压、流量均可达到泥浆分流器预期工作要求，且不影响平台其他用水设备的正常运转，使平台钻井工作可以顺利进行。

油基钻井液在龙凤山区块的应用

与水基钻井液相比,油基钻井液不仅具有更优良的井壁稳定性、抑制性、润滑性、抗温性与抗污染性,且能起到更好的储层保护性能,并且在滑动钻进期间,很大程度上解决了钻进托压、黏卡的问题,已然成为一些深井、高温井、定向水平井和复杂井不可缺少的重要手段。北201平台井是东北油气分公司首口平台井,也是龙凤山区块首次采用油基钻井液体系,克服了多项施工难点,创造了13项区块纪录,在此基础上,结合平台井的施工情况讲述了钻井施工过程中油基井液在配置、性能维护等方面的技术措施,以供参考。

自升式钻井平台在海底泥面以下定点精就位设计与实现

随着海上石油和天然气的开发活动日益活跃,渤海海域进入了油气大开发阶段,近几年陆续新建了多座海上生产平台。但是在有些新开发的海域区块内,由于其他防控的需要,禁止出现水面以上甚至禁止出现泥面以上的海上固定设施。本文通过改变常规钻井平台就位方案设计方式,改变常规钻井平台就位操作模式,成功实现了渤海海域钻井平台首次海底泥面以下定点精就位,对以后的钻井平台在海底泥面以下定点精就位作业具有一定的指导意义和借鉴作用。

黄-鱼原油管道海对海定向钻穿越技术浅析

海对海定向钻穿越是指定向钻的入、出土点都在海上,管道预制也在海上,可以减少对管线路由上的航道、交叉管缆等设施的影响,并有效保护环境,缩短施工周期,节省投资,满足不断发展的海上管道工程建设需要,市场应用前景广阔。基于此,以2022年的黄泽山—鱼山原油管道海对海定向钻穿越工程为例,介绍海上施工的工艺措施,为今后的海对海定向钻穿越工程积累宝贵经验。

南海神狐海域天然气水合物成藏系统初探

天然气水合物成藏系统是一个非常复杂的系统,过去的有关研究不多。为此,根据天然气水合物成藏基本条件、浅表层沉积物孔隙水地球化学特征及其所反映的气源和天然气水合物分布特征,结合刚刚结束的南海北部天然气水合物首次实钻采样成果,初步探讨了我国南海北部陆坡神狐海域天然气水合物成藏系统。结果认为:研究区温度、压力和气体组分有利于天然气水合物形成;天然气水合物在空间尺度上不均匀分布,纵向上主要分布于天然气水合物稳定带底界以上一定深度范围内;形成天然气水合物的甲烷气体很可能来源于原地微生物成因甲烷;扩散型原地生物成因甲烷产生低甲烷通量,形成了具有明显不同的分布和饱和度特征的分散型天然气水合物系统。

南黄海古生代以来构造演化

南黄海是奠基于下扬子地台前震旦纪变质岩基底之上一个多旋回盆地的叠覆,在成生发展及其后过程中经历了多期构造改造作用,盆地原型已不存在,形成现今复杂的地质构造面貌。根据国土资源新一轮大调查项目在南黄海获取的高品质的地球物理资料,结合钻井和相邻陆地的资料以及不同时期动力体系的作用、不同期次构造运动和变形的特点,将南黄海大致划分为4 个大的构造演化阶段:古生代—三叠纪海相盆地稳定演化阶段、中生代陆相盆地演化阶段、古新世—中中新世断陷盆地发育阶段和晚中新世以来区域沉降阶段。加里东运动使华南褶皱带与扬子地台南缘拼贴,形成广阔而稳定的后加里东地台;印支—早燕山运动使下扬子地台与华北地台的东南缘碰撞和挤压,形成了苏鲁造山带,在造山带南侧和中部隆起区之间形成黄北前陆盆地,中部隆起区以南为黄南断陷盆地。

中国南海深水油气田开发工程模式及平台选型

介绍了国外深水油气田开发的状况,对国外典型的深海油田开发工程模式进行了对比分析。根据国内海洋工程资源现状、技术与装备状况以及南海的环境条件,提出了适宜中国南海深水油田开发的工程模式。在此基础上,考察了国际上所应用的不同种类的深水钻井及采油平台,分析了各类平台的结构特点及应用状况,提出了中国南海深水油气田平台结构选型的方案,并探讨了我国深水平台技术研究的重点攻关方向。

国内外深井钻井技术进步与经济评价初探

通过对国内外近25年来井深超过4500m的各种各样深井钻井技术与经济情况的调研分析,认为美国和欧洲北海地区深井钻井技术居领先水平,前苏联和我国与国际先进水平有10年以上差距。对比研究了三种不同的深井钻井技术经济评价方法(体系)特点,初步探讨了深井钻井科技进步的纵横向变化规律及深井钻井技术经济评价的系统科学问题。

华北中元古代陆表海氧化还原条件

文石海底沉淀是地球早期大气高CO2浓度、海洋贫氧条件下,CaCO3过饱和而直接沉淀于海底所形成的自生碳酸盐,可反映古海洋贫氧状态。对华北中元古界雾迷山组(ca1.50～1.45Ga)碳酸盐岩的研究发现:潮下带下部黑色纹层石由针状文石假晶等厚层与微生物席层交互堆叠而成;潮下带中部凝块石白云岩(A单元)主要由针状文石假晶形成的环带或扇状集合体包裹有机质团块所组成,少见碳酸盐微粒。潮下带上部—潮间带下部纹层白云岩(B单元)以自然沉淀的碳酸盐微粒为主,含少量等厚层和扇状、葡萄状文石假晶集合体,以及以孔洞充填形式产出的针状文石假晶。而潮坪成因的泥晶白云岩(C单元)则完全由含有石盐假晶和微生物席裂痕的泥晶质微晶白云岩组成,不含针状文石沉淀。对构成雾迷山组典型副层序基本单元的氧化还原敏感元素比值分析显示:由C单元至A单元,V/Th、Mo/Th、U/Th值逐渐增大,在A单元可能达贫氧富集程度。研究表明,在雾迷山组沉积期,华北陆表海潮下带中部及其以下可能长期处于贫氧状态,而潮下带上部则处于氧化状态,氧化—还原界面接近于正常浪基面底。这个认识对进一步了解中元古代海洋条件、生物与环境相互作用过程及烃源岩勘查具有重要意义。

华北地台下中寒武统碳酸盐与陆源碎屑混合沉积──以山东张夏地区为例

华北地台下中寒武统馒头组—徐庄组为碳酸盐岩与陆源碎屑岩的互层沉积或同一岩层中碳酸盐组分与陆源碎屑组合混合沉积。通过对山东张夏地区地层沉积特点、地球化学特征以及沉积环境演化分析。表明混合沉积的主要控制因素是海平面变化。不同级次的海平面变化以及它们之间的相互叠加造成了类型多样的混合沉积。

冰区海洋平台疲劳可靠性评估方法的研究

给出了在随机波浪载荷和冰载荷作用下平台构件疲劳损伤的一种计算方法,并利用该方法分析了平台单个构件和平台整体的疲劳可靠性。用指数函数对波浪和海冰作用下平台构件的疲劳应力、应力循环次数和环境参数的关系进行了拟合,拟合精度很好。根据拟合的指数函数,并基于S—N曲线和Miner线性累积疲劳损伤理论,推导出构件疲劳损伤的计算公式,使构件疲劳损伤的计算过程得到很大简化。在此基础上给出了单个构件的疲劳可靠性计算公式,提出了平台整体疲劳失效的简化判断依据和平台关键失效模式的确定方法,并给出了平台整体失效概率的计算方法。计算实例表明,该方法简单可靠,可以有效地用于工程实际。

华北地台晚寒武世层序地层及其与北美地台海平面变化的对比

华北地台在晚寒武世为一个较为典型的缓坡型台地。在其北部地层中,以发育风暴砾屑灰岩及生物丘灰岩闻名,包括崮山组、长山组和凤山组。在该套地层中,深缓坡相泥岩和泥灰岩与浅缓坡相颗粒灰岩和泥粒灰岩一起构成若干潮下型碳酸盐米级旋回,这些米级旋回本身即为有序的异成因岩相序列而成为基本工作单元。在长周期三级层序中,米级旋回形成有序垂直叠加形式,反映了三级层序本身是一个与三级相对海平面变化相关的、环境加深和变浅过程中所形成的沉积相序列。根据这些特征,在华北地台北部晚寒武世地层中可识别出4个三级层序。从北向南,相变为一套白云岩,其中三级层序的高水位体系域则发育较多的潮坪相白云岩以及由其构成的环潮坪型米级旋回。这些层序的典型特征是:层序界面为淹没不整合面,层序的相序序列以"深缓坡相—浅缓坡相"为特征,从而构成特殊的"CS(?)+HST"序列;而在华北地台南部,层序界面多为暴露间断面,层序的相序组构多以"缓坡相—潮坪相"为特征。从北向南的变化,形成了一个富有规律性的层序地层格架。从旋回到层序、从岩相序列到沉积相序列的层序地层研究表明:作为基本工作单元,米级旋回实际上是由"间断 加积作用"旋回机制所形成的岩相序列,由米级旋回的有序叠加形式所构成的三级层序则是一个沉积相?

南海深水半潜式钻井平台井喷时可燃气体扩散规律

以南海某半潜式钻井平台为例,通过建立平台简化模型及气体扩散模型,模拟了南海环境下井喷天然气扩散行为,分析了可燃气云分布及发展规律。结果表明,风速5 m/s环境下产能200万m3/d气井井喷天然气在短时间内形成稳定的大范围可燃气云,垂直方向上扩散至井架中部区域,来风作用下钻台下风向区域处于危险状态。风速较小时,可燃气云主要向上部空间发展,发生燃爆后将直接造成井架顶部设备失效;随着风速增大,可燃气云达到稳定状态时间缩短,稳定状态下其空间分布范围减小,向下风向的偏斜角度增大,发生燃烧易导致井架坍塌而引发连锁破坏。由于建筑物阻挡作用,船首和右舷来风强度减弱,气流不稳定,可燃气云达到稳定状态所用时间长,稳定状态下其分布范围最大;船尾来风时,可燃气云主要分布在生活区,燃爆产生的超压、高温和强热辐射会对生活区设备和人员产生较大伤害;左舷来风时,天然气随来风迅速飘离平台,可燃气云分布范围最小,右舷固井泵室、应急发电机室和振动筛房等易受到气云燃爆风险的危害。这些研究结论可以为我国南海深水油气钻采作业应急救援提供科学指导,对深水钻井平台防火灾、爆炸具有一定的参考价值。

高强度高韧性海洋钻井平台钢A710-PT的研制

对含铜钢的铜时效特征及其强化机理进行了研究。钢中添加0.80%以上的铜,通过时效处理使其在基体中析出细小弥散的ε-Cu颗粒,可提高钢的强度和韧性。基于本研究开发出一种屈服强度高于520 MPa、-40℃冲击功超过280 J,同时具有优良综合性能的海洋钻井平台钢新产品。

渤海曹妃甸油田消防演习系统

将英国北海油田的消防演习系统引入渤海曹妃甸油田,并根据实际做了适用性改造,对其4年来的应用实践进行了分析,并比较了与中海油自营油气田消防演习系统的差异,为国内石油石化行业安全管理提供参考。

深水半潜式钻井平台主尺度论证研究

随着当今全球气候环境变化、平台作业水深和钻深的增加、以及平台安全性、作业效率要求等,需要半潜式平台的运动性能、稳性储备、定位性能、可变载荷、总体布局等达到先进水平,而这些性能指标都与主尺度密切相关。研究深水半潜式平台的主要型式、结构组成和发展趋势,论证平台各设计指标参数对主尺度的影响,为半潜式平台方案的主尺度选取提供依据。