新疆春风油田石炭系火山岩岩性特征及测井识别方法          下载免费PDF全文

黄习习  金强  明玉坤  王伟  程付启 《沉积与特提斯地质》2016,36(4):37-43

不同岩性的火山岩其储集性能差异甚远,准确识别火山岩岩性对于火山岩储层的研究具有重要意义。研究区春风油田石炭系储层以火山岩为主,过渡类型较多,岩性较为复杂。利用岩心观察、薄片鉴定、地化分析等方法确定研究区发育火山熔岩类和火山碎屑岩类两类火山岩,其中,火山熔岩包括玄武岩、安山玄武岩、玄武安山岩以及安山岩,火山碎屑岩有凝灰岩和火山角砾岩等。通过识别出的岩性标定测井,分析每种岩性的测井响应特征,利用交会图法和星形图法,建立了不同岩性的识别标准。  相似文献   

山东栖霞杨家夼金矿地质特征及控矿条件分析          下载免费PDF全文

余普贤  肖翔  谢军民  赵亚斌  刘冬生  史宏江 《山东国土资源》2014,30(9)

杨家夼金矿产于粉子山群张格庄组、蓬莱群豹山口组地层中,从其控矿岩性及矿化特征来看应为类卡林型金矿床。地层主要以大理岩、透闪大理岩、透闪片岩、钙质板岩、千枚状板岩、黑云变粒岩、二云片岩为主。金矿主要赋存于岩性变化复杂的薄层状大理岩、透闪大理岩、板岩、透闪片岩中,除岩性控矿外,构造也具有明显的控矿性,当断裂构造切穿或与这些成矿有利岩性叠加时,金矿化更为明显,而岩性分界线或层间破碎带也是该类金矿的有利赋存部位。  相似文献   

莺歌海盆地前新生代基底特征     

尤龙  王璞珺  吴景富  岳军培  郎元强  沈怀磊 《世界地质(英文版)》2014,(3)

结合盆缘露头、盆地基底钻井及重磁震资料,综合研究莺歌海盆地前新生代基底特征。基于盆地西北缘Song Da带18个剖面点地层序列、166件岩石样品密度和2800套磁化率测量结果,建立密度--磁化率交汇图版,约束盆内地震剖面和重磁异常解释,通过海陆结合的方法填制出盆地基底地质图。其前新生界由前震旦系、寒武系-上三叠统下部、上三叠统上部-白垩系三个构造层构成,它们沿红河断裂呈北西向分布,中间老,为前震旦纪中-高级变质岩;两侧新,向西为中生代沉积岩,向东为古生代浅变质岩、灰岩。  相似文献   

应用Bayes逐步判别分析识别辛176区块Es4储层岩性     

鞠武  韩学辉  支乐菲  费海涛  李峰弼 《物探化探计算技术》2012,34(5):576-581,502

辛176区块沙四段储层存在粗砂岩、不等粒砂岩和细砂岩,岩性非均质性较强.“四性”关系研究表明,岩性的准确识别是正确评价储层静态参数,识别油水层特别是低阻油层的前提.这里介绍了Bayes逐步判别方法原理和技术流程,在应用有序聚类分析方法开展测井曲线自动分层的基础上,综合应用自然电位(SP)、自然伽玛(GR)、声波时差(AC)、深探测电阻率(Rt)、浅探测电阻率(Rxo)测井资料和岩心分析资料,建立了粗砂岩、不等粒砂岩、细砂岩和泥岩的判别函数.应用效果表明,Bayes逐步判别法识别岩性符合率达到了86％,能够满足辛176区块沙四段储层岩性识别的需要.  相似文献   

区域地质环境复杂程度评价     

李源亮  任光明  范荣全  王猛  李惠民  李畅 《四川地质学报》2020,40(1):86-92

宏观分析区域地质环境复杂程度能有效指导长距离线状工程规划选线、指导城镇规划选址。以往地质环境复杂程度评价主要针对小区域,其评价方案在应用于大区域时受到一定限制。本文总结提出了区域地质环境复杂程度评价的指导性原则,针对地学研究中长期存在的地层岩性复杂程度难以量化的特点,引入信息熵的概念,利用"地层岩性信息熵"实现了复杂程度的量化评价。以四川为例,选取地形地貌、地层岩性、冻土、断裂构造、区域稳定性、气象等6类10项指标,利用AHP法计算指标权重,基于GIS平台对境内地质环境复杂程度进行分析。研究方法对区域地质环境评价具有参考价值,成果可为四川境内长距离线状工程规划提供参考。  相似文献   

焦家金矿带3000m科研深钻地球物理测井及初步分析          下载免费PDF全文

熊玉新  于学峰  迟乃杰  杨德平  王新娥 《山东国土资源》2018,34(5)

焦家金矿带3 000 m勘查科研深钻使用多种测井方法,原位获取了钻孔岩石的各种物理化学参数,实现了设计预定的数据采集目标,取得了丰富的初步解译研究成果。通过交会图等技术分析了不同岩石的测井响应特征;通过常规识别法和主成分分析方法相结合,有效的识别了断裂带;通过阵列声波测井了解了岩石机械特性并估算了地应力参数;通过井温测量实现了井温梯度的计算。激电测井显示,低阻高极化为深部矿化体主要异常特征;依据极化率曲线整体幅值及形态分析认为2 485~3 122 m为矿化较为集中部位。  相似文献   

Morphology and Dynamics of Alluvial Fan and Its Research Prospects     

Dengyun Wu  Zhikun Ren  Lü Honghua  Jinrui Liu  Guanghao Ha  Chi Zhang  Menghao Zhu 《地球科学进展》2020,35(4):389-403

Alluvial fans can preserve historical records of sediment transport to middle and lower river systems or piedmont basins, which are considered to be sensitive recorders of climate change and tectonic activity. In this paper, the morphological characteristics, control factors and future development trend of alluvial fan are summarized and described. The main understanding is as follows: \mathrm{①} According to the gravity flow and traction flow process, fan can be divided into debris flow alluvial fan and fluvial fan. The former is formed under the action of debris gravity flow deposits, which is related to the occasional flood and burst flow in a short time. The latter is braided tributaries depositions which are gradually shallower and spread radially in the direction of fan toe under the traction water transport. \mathrm{②} The erodibility of underlying bedrock can affect the scale of downstream alluvial fan, which depends on the sediment production and store factors in the catchment. The easily eroded bedrock may produce more sediment, making the alluvial fan area larger. In the contrast, the erodibility of rocks in the source area can also affect the slope and hydrological characteristics of the valley so that more sediment is deposited in the upstream basin and the alluvial fan formed in the downstream is smaller. \mathrm{③} Tectonic activity is the pre-condition for the development of alluvial fans, which provides a space for alluvial fans depositions. Faulting in the piedmont can change the position and morphology of the ancient alluvial fan, and also cause deformation or distortion of the thick sedimentary sequence to record the regional tectonic activity. The quaternary alluvial fan sequence corresponds well to the climate change during the glacial-interglacial period. However, the influence of the flood events caused by extreme meteorological events on alluvial fan deposition should be focused on. \mathrm{④} The application of a series of new techniques and methods will help to carry out deep research on alluvial fan in the future, such as high-resolution observation technique, physical simulation experiment, and precise dating.  相似文献   

菏泽市岩溶地热井尾水回灌影响因素及流体可采量估算研究     

冯超臣  黄文峰 《地下水》2020,(1):20-23

通过在山东菏泽城区实施地下水回灌实验,对菏泽深覆型岩溶地区地热水的回灌影响因素进行分析研究,并初步估算出评价区可采量。结果可知:深覆型岩溶地热井尾水回灌效果的影响因素主要包括回灌压力、回灌水质、回灌水温、回灌工艺和热储层岩性特征等。在回灌条件下,估算可知允许开采量为6 408. 7 m^3/d,而本次单井地热井的抽水实验开采量值81. 48 m^3/r,远低于该值,说明菏泽城区地热资源丰富。研究结果为下一步的寒武-奥陶系岩溶热储开发打下基础。  相似文献   

广西都安喀斯特石漠化的分布特征及其与岩性的空间相关性   总被引：22，自引：2，他引：20  

蒋树芳  胡宝清  黄秋燕  周德全  廖赤眉 《大地构造与成矿学》2004,28(2):214-219

在以广西都安瑶族自治县为研究对象 ,以RS与GIS一体化为分析手段 ,首先采用TM影像为背景资料 ,辅以地形图、土地利用图、土壤图、地质图以及GPS实测数据库等相关资料综合分析的基础上 ,建立石漠化分级的遥感影像解译指标体系 ,生成都安县石漠化分级分布图和数字化岩性图 ,然后从空间相关性的角度阐明了不同级别石漠化与碳酸盐岩岩性之间的内存联系  相似文献   

The influence of lithology on surface water sources          下载免费PDF全文

Lydia B. Nickolas  Catalina Segura  J. Renée Brooks 《水文研究》2017,31(10):1913-1925

Understanding the temporal and spatial variability of water sources within a basin is vital to our ability to interpret hydrologic controls on biogeochemical processes and to manage water resources. Water stable isotopes can be used as a tool to determine geographic and seasonal sources of water at the basin scale. Previous studies in the Coastal Range of Oregon reported that the variation in the isotopic signatures of surface water did not conform to the commonly observed “elevation effect,” which exhibits a trend of increasing isotopic depletion with rising elevation. The primary purpose of this research is to investigate the mechanisms governing seasonal and spatial variations in the isotopic signature of surface waters within the Marys River Basin, located in the leeward side of the Oregon Coastal Range. Surface water and precipitation samples were collected every 2–3 weeks for isotopic analysis for 1 year. Our results confirmed the lack of elevational variation of surface water isotopes within this leeward basin. Although we find elevational variation in precipitation in the eastern portion of the watershed, this elevation effect is counteracted by rainout with distance from the Pacific coast. In addition, we found significant variation in surface water isotope values between catchments underlain predominantly by basalt or sandstone. The degree of separation was strongest during the summer when low flows reflect deeper groundwater sources. This indicates that baseflow within streams drained by each lithology is being supplied from two distinctly separate water sources. In addition, the flow of the Marys River is dominated by water originating from the sandstone water source, particularly during the low‐flow summer months. We interpreted that the difference in water source results from sandstone catchments having highly fractured geology or locally tipping to the east facilitating cross‐basin water exchange from the windward to the leeward side of the Coast Range. Our results challenge topographic derived watershed boundaries in permeable sedimentary rocks; highlighting the overwhelming importance of underlying geology.  相似文献