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青藏高原古近系牛堡组三段天文周期旋回分析及古湖平面演化研究:以尼玛盆地尼1井为例
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作者 陈云 伊海生 +5 位作者 陈璐洁 伍新和 唐闻强 汪锐 杨芸 张承志 《沉积与特提斯地质》 CAS CSCD 北大核心 2023年第3期555-564,共10页
青藏高原中部尼玛盆地是一个形成于班公湖-怒江缝合带之上的新生代陆相裂谷盆地。交通不便和勘探程度较低等因素导致其高精度沉积旋回特征和地层学一直鲜有研究。尼1井是盆地内第一口地质探井,通过对该井古近系牛堡组三段的自然伽马测... 青藏高原中部尼玛盆地是一个形成于班公湖-怒江缝合带之上的新生代陆相裂谷盆地。交通不便和勘探程度较低等因素导致其高精度沉积旋回特征和地层学一直鲜有研究。尼1井是盆地内第一口地质探井,通过对该井古近系牛堡组三段的自然伽马测井曲线进行频谱分析,证实了天文轨道周期对盆地内湖相地层的沉积具有显著影响。滤波分析显示牛堡组三段保存了41个短偏心率(~100 kyr)周期,76个斜率(~54 kyr)周期和178个岁差(~23 kyr)周期,平均沉积速率为92.03 m/Ma,沉积时限~4.1 Myr。此外,结合Fischer图解与总有机碳含量的变化趋势,确定牛堡组三段湖平面经历了1次长周期的升-降变化过程。综合分析,认为尼玛盆地优质烃源岩的形成主要受天文旋回周期影响下的湖平面变化所控制。 展开更多
关键词 尼玛盆地 米兰科维奇旋回 频谱分析 平面演化 烃源层分布
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飞行区及航站区总平面方案演化研究——以武汉天河机场三期扩建为例
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作者 石岗 《中文科技期刊数据库(全文版)工程技术》 2023年第10期86-89,共4页
武汉天河机场2017年完成三期扩建并启用,该扩建工程总平面布局在前期经过多次讨论和演化。本文通过对武汉天河机场三期扩建工程飞行区及航站区总平面方案演变过程进行研究,分析了总平面布局演化的必要性和合理性,以及对这些演变进行了评... 武汉天河机场2017年完成三期扩建并启用,该扩建工程总平面布局在前期经过多次讨论和演化。本文通过对武汉天河机场三期扩建工程飞行区及航站区总平面方案演变过程进行研究,分析了总平面布局演化的必要性和合理性,以及对这些演变进行了评述,并提出了优化改进建议。得出运输机场扩建工程飞行区及航站区总平面方案逐步完善的一些经验,为类似工作提供借鉴与启发。 展开更多
关键词 武汉天河机场 三期扩建工程 飞行区及航站区总平面方案演化 评述 借鉴与启发
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珠江口盆地开平凹陷构造单元划分与平面复原
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作者 李智 张志业 +2 位作者 何登发 聂国权 何敏 《海洋地质前沿》 CSCD 北大核心 2023年第7期70-78,共9页
盆地构造单元划分与平面复原是构造地质研究的基础问题,也是盆地普查和区域详查阶段的主要任务,对揭示研究区构造演化过程及动力学机制、促进油气勘探具有重要意义。以开平凹陷最新2D/3D地震和钻井资料为基础,根据控凹断裂及地层尖灭线... 盆地构造单元划分与平面复原是构造地质研究的基础问题,也是盆地普查和区域详查阶段的主要任务,对揭示研究区构造演化过程及动力学机制、促进油气勘探具有重要意义。以开平凹陷最新2D/3D地震和钻井资料为基础,根据控凹断裂及地层尖灭线展布、断陷期各反射层T_(0)构造图和△T_(0)厚度图,重新厘定了开平凹陷构造单元分布,将其划分为西洼、北洼、西南洼、主洼、东洼和①号、②号、③号、④号、⑤号背斜带共10个三级构造单元。在此基础上,结合平衡剖面分析,将开平凹陷断陷期文昌组构造演化划分为断陷Ⅰ幕的下文昌组下段、中段和断陷Ⅱ幕的下文昌组上段,上文昌组下段、中段、上段共6个阶段。其中,断陷Ⅰ幕以“南断北超”为特征,断陷Ⅱ幕转变为“北断南超”,早期彼此孤立的洼陷开始逐渐扩张连片。边界断层周期性活动控制着地层发育和展布,凹陷构造活动具有向西南迁移的趋势,沉积中心由主洼逐渐向西南洼和西洼迁移。凹陷中部的主洼和北洼伸展率最大,西南洼、东洼次之,西洼最小。本研究的构造单元划分方案,可通过平面复原进行动态验证,合理性更强,为开平凹陷动力学演化研究、生烃中心和砂体展布刻画提供了新的科学依据。 展开更多
关键词 开平凹陷 构造单元 平面演化 边界断层 沉积厚度 伸展率 珠江口盆地
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Sedimentary Evolution of the Holocene Subaqueous Clinoform off the Southern Shandong Peninsula in the Western South Yellow Sea 被引量:20
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作者 QIU Jiandong LIU Jian +4 位作者 SAITO Yoshiki YANG Zigeng YUE Baojing WANG Hong KONG Xianghuai 《Journal of Ocean University of China》 SCIE CAS 2014年第5期747-760,共14页
Based on the stratigraphic sequence formed since the last glaciation and revealed by 3000 km long high-resolution shallow seismic profiles and the core QDZ03 acquired recently off the southern Shandong Peninsula, we a... Based on the stratigraphic sequence formed since the last glaciation and revealed by 3000 km long high-resolution shallow seismic profiles and the core QDZ03 acquired recently off the southern Shandong Peninsula, we addressed the sedimentary characteristics of a Holocene subaqueous clinoform in this paper. Integrated analyses were made on the core QDZ03, including sedimentary facies, sediment grain sizes, clay minerals, geochemistry, micro paleontology, and AMS 14 C dating. The result indicates that there exists a Holocene subaqueous clinoform, whose bottom boundary generally lies at 15–40 m below the present sea level with its depth contours roughly parallel to the coast and getting deeper seawards. The maximum thickness of the clinoform is up to 22.5 m on the coast side, and the thickness contours generally spread in a banded way along the coastline and becomes thinner towards the sea. At the mouths of some bays along the coast, the clinoform stretches in the shape of a fan and its thickness is evidently larger than that of the surrounding sediments. This clinoform came into being in the early Holocene(about 11.2 cal kyr BP) and can be divided into the lower and upper depositional units(DU 2 and DU 1, respectively). The unit DU 2, being usually less than 3 m in thickness and formed under a low sedimentation rate, is located between the bottom boundary and the Holocene maximum flooding surface(MFS), and represents the sediment of a post-glacial transgressive systems tract; whereas the unit DU 1, the main body of the clinoform, sits on the MFS, belonging to the sediment of a highstand systems tract from middle Holocene(about 7–6 cal kyr BP) to the present. The provenance of the clinoform differs from that of the typical sediments of the Yellow River and can be considered as the results of the joint contribution from both the Yellow River and the proximal coastal sediments of the Shandong Peninsula, as evidenced by the sediment geochemistry of the core. As is controlled mainly by coactions of multiple factors such as the Holocene sea-level changes, sediment supplies and coastal dynamic conditions, the development of the clinoform is genetically related with the synchronous clinoform or subaqueous deltas around the northeastern Shandong Peninsula and in the northern South Yellow Sea in the spatial distribution and sediment provenance, as previously reported, with all of them being formed from the initial stage of the Holocene up to the present. 展开更多
关键词 subaqueous clinoform HOLOCENE Yellow Sea Shandong Peninsula Yellow River PROVENANCE sea-level change sedimentary
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