Sedimentary control on the formation of a multi-superimposed gas system in the development of key layers in the sequence framework

Based on core observations, well logs and test results of siderite-bearing mudstone from the Benxi Formation to the Member 2 of the Shanxi Formations in the Linxing block, northeastern Ordos Basin, a logging identification model for siderite-bearing mudstone (key layer) was established. The porosity characteristics and sealing property were quantitatively evaluated by logging data. Sedimentary control on the formation of multi-superimposed gas-bearing system in the development of key layers in the sequence framework was also discussed. The results showed that the siderite-bearing mudstone has obvious logging response characteristics, e.g., high photoelectric absorption cross-section index (PE), high density (DEN), high amplitude natural gamma ray (GR), low acoustic (AC), low resistivity (M2RX) and low neutron porosity (CNCF). The quantitatively evaluated results of the porosity characteristics and sealing property for the key layer showed that the key layer has the characteristics of low porosity (with an average of 1.20 percent), low permeability (with an average of 2.29 × 10⁻⁸μm²), and high breakthrough pressure (with an average of 12.32 MPa) in the study area. This layer acts as an impermeable gas barrier in a multi-superimposed gas system. The results also indicated that the material composition of the multi-superimposed gas-bearing system can be established by the sequence stratigraphic framework. The sedimentary evolution results in a cyclic rhythm of material composition vertically. The spatial distribution of the corresponding transgressive event layer near the maximum flooding surface (MFS) in the sequence framework restricts the spatial distribution of the key layer with high breakthrough pressure and low porosity, which constitutes the gas-bearing system boundary. The siderite-bearing mudstone formed near the MFS in the second-order sequence and constitutes a stable comparison of the first-order gas-bearing system boundary, which has a wide range of regional distribution and stable thickness. The siderite-bearing mudstone formed near the MFS in the third-order sequence is often incompletely preserved due to the late (underwater) diversion channel erosion and cutting. This layer forms the coal-bearing reservoirs, which we termed as a second-order gas-bearing system in adjacent third-order sequences to form a uniform gas-bearing system.     

A Research on the Algorithm of Local Atomic Time

The goal of all time laboratories’ pursue is to produce and keep a stable, precise and reliable time scale. The long-term stability of the time scale is mainly taken into account in the traditional ALGOS algorithm, while the local atomic time scale should give consideration to both the long-term and shortterm stabilities. From the analysis and research on the atomic clock noise model and under the condition that the long-term stability of the local atomic time scale does not drop, a complete algorithm is proposed which is suitable for the calculation of the local time scale TA (NTSC) carried out at the time laboratory with the time-keeping clocks of a unitary type and being close in performance at the National Time Service Center, called the NTSC for short, of Chinese Academy of Sciences. The data of all the clocks in the NTSC which participated in the calculation of the International Atomic Time (TAI) all the year round in 2008 are applied to the test and verification of the new algorithm, with the result showing that both the short- and long-term stability indexes of the obtained TA (NTSC) are improved. The research result is suitable for the calculation of the atomic time scale of the time laboratory whose time keeping system is similar to that of the NTSC.     

“天地图·广东”数据建设及关键技术研究

"天地图"是"数字中国"的重要组成部分,是国家地理信息公共服务平台的公众版。数据建设是"天地图"建设的重要内容,本文结合广东省"天地图"建设的实际情况,介绍了"天地图广东"的总体架构,重点阐述了"天地图广东"的数据建设及建设时使用的关键技术,为"天地图"省级节点的数据建设提供技术参考。     

南天山巴音布鲁克花岗岩岩体成因:锆石U-Pb定年、Hf同位素及其地球化学证据

巴音布鲁克岩体为南天山北缘出露不多的代表性早古生代花岗岩体,由二长花岗岩和钾长花岗岩构成,两类岩石均显示富集Rb、Ba、Th、K和Pb等LILE,亏损Nb、Ta、Ti等HFSE的活动陆缘弧岩浆地球化学特征。其中,二长花岗岩相对低SiO_2和K_2O,略高CaO、Fe_2O_3T和MgO,具轻重稀土中等分馏、弱负Eu异常的稀土元素分布模式。钾长花岗岩明显高SiO_2,富K_2O,低CaO和MgO,强烈亏损Sr、Ba、Eu、Ti和P,高DI指数(94.31~95.52)和高Rb/Sr比值,轻重稀土中等分馏,呈现出强负Eu异常的稀土分布模式,指示岩浆经历了较高程度演化。二长花岗岩和钾长花岗岩分别获得464.5±3.5Ma和430.2±3.2 Ma的形成年龄,对应的锆石εHf(t)分别为-8.66~-6.56和-5.33~-2.19,Hf陆壳模式年龄TDMC分别为1.58~1.69Ga和1.33~1.49Ga,明显高于其形成年龄,表明岩浆主要源自中元古代基底陆壳物质的部分熔融。结合南天山北缘和中天山南缘类似的同期花岗岩的广泛出现认为,巴音布鲁克岩体中的二长花岗岩和钾长花岗岩分别代表了南天山洋早期俯冲消减活动陆缘弧岩浆和晚期成熟岩浆演化的结果,表明其大洋俯冲消减作用一直持续到志留世仍未结束。     

国家重点研发计划“水资源高效开发利用”重点专项解析

国家重点研发计划"水资源高效开发利用"重点专项是国家科技计划管理改革后首批启动的重点专项之一。该专项立足中国水资源安全形势和国内外科技发展现状及趋势,以提升国家水资源安全保障的科技支撑能力为目标,通过全链条创新和全景式布局,凝练了现阶段中国水资源安全领域亟需解决的重点研究任务。深入分析了"水资源高效开发利用"重点专项的总体布局、科学目标、主要任务和立项情况,剖析了2016年和2017年项目立项和申报中存在的现象和问题,讨论了下一步支持的重点任务方向,对于加强重点专项项目的立项、申报和管理,保障总体目标实现具有积极的指导作用。     

浅谈山东省防震减灾重点项目档案的管理

山东省防震减灾“十一五”规划项目建设期间,山东省地震局加强对重点项目建设档案的管理工作,保证档案的完整、准确和安全,使项目顺利通过验收,为项目建设后的运行维护留下了完整翔实的宝贵资料。文章对强化全员档案管理意识,建立健全档案管理机构和制度,规范档案工作流程及注重验收时档案的质量等方面进行介绍,进一步阐明如何加强重点项目的档案管理工作。     

误差限的病态总体最小二乘解算

大地测量和地球物理数据解算中时常会涉及病态问题的处理。基于客观的观测精度,利用设计矩阵与观测向量的误差限制,一方面降低了病态性对求解造成的波动;另一方面避免引入正常数,从而提高整个解算过程的客观性与可靠性。计算表明,本文提出的方法可以有效地处理病态总体最小二乘问题,并且具有较高的稳定性。     

敦化大蒲柴河金矿区弱研磨性岩层的综合钻探技术

坚硬弱研磨性地层钻进效率低一直是敦化大蒲柴河金矿区钻探难题,通过投磨料、调整钻头技术参数等措施得到了一些改善,尤其是液动潜孔锤的成功应用,彻底解决了该矿区钻进效率低下难题;此外,对复杂坍塌、漏失、涌水不稳定地层采用重晶石粉加水泥灌注的技术措施,解决了孔壁严重垮塌问题。