共查询到19条相似文献,搜索用时 265 毫秒
1.
2.
3.
4.
根据地面伽玛能谱测量在任丘油田南部的实测资料,经综合分析表明:①伽玛能谱测量的结果符合众所周知的放射性方法找油模式;②化探结果证实了能谱测量资料;⑨能谱测量的低值区范围与已知油田在本区的面积重合率达75%。从而证实了地面伽玛能谱测量在本区寻找油气藏的效果。 相似文献
5.
微机化地面γ能谱仪及其初步应用 总被引:1,自引:0,他引:1
本文针对目前地面γ能谱仪功能差,不能及时给出数据和有关图件,调节困难、操作复杂、用附加放射性参考源稳谱等缺点,提出了采用PC-1500袖珍计算机系统的微机化地面γ能谱仪。实现了野外地面γ能谱测量的数据采集和记录、数据打印与绘图、数据存储与传送的一体化。试验表明,该机操作方便,掌握容易,工作效率高,资料获取快,能够快速提供有关地质情况,适用于野外地面γ能谱测量。 相似文献
6.
7.
8.
9.
对应用放射性直接探寻油气藏勘探试验所取得已知油藏区的资料进行了综合分析。总结了油气藏上方放射性异常的规律;探讨了放射性异常与油气藏的关系。对放射性异常的数据处理方法及应用放射性方法探寻油气藏的应用效果进行了剖析。指出:在实际应用中,氡浓度测量在勘查油气藏方面比伽玛能谱总量和伽玛能谱具有较好的应用效果。 相似文献
10.
金矿勘查中的伽玛能谱测量--以黑龙江乌拉嘎金矿外围柳树河区为例 总被引:1,自引:1,他引:0
金成矿受岩性、构造及蚀变控制,蚀变使含矿构造破碎带与围岩出现放射性差异,因此可应用伽玛能谱测量进行金矿勘查.为了提高黑龙江乌拉嘎金矿外围柳树河区的金矿勘查效果,利用伽玛能谱对该异常区进行了扫面测量.通过该项研究表明了含矿构造破碎带的存在及成矿流体中低温矿化的特点;在矿化带上方钾及总道显示高值异常,而铀道显示低值异常:证明应用该方法找金的有效性.需要指出的是,不同地区和不同类型矿床伽玛能谱的特征参数是不同的. 相似文献
11.
12.
13.
14.
放射性方法在我国找寻油气藏中的应用进展 总被引:4,自引:0,他引:4
近年来,随着测量技术的完善和提高,应用放射性方法找寻油气田取得了明显进展。研制出了携带式微机化仪器设备。在野外工作中,开展了高精度、多参数的放射性测量。在室内工作中,利用放射性测量工作站对数据进行处理和解释。通过对一些油气田进行的综合研究和对放射性元素运移规律的模型实验,对放射性异常和油气藏的关系及异常形成机制有了新的认识。众多实例表明,放射性方法是一种简便、快速、经济、实用、安全的找油气方法,在石油勘探中可以取得良好的经济效益。 相似文献
15.
16.
Rajeev Menon P. V. Sunder Raju G. K. Reddy 《Journal of the Geological Society of India》2009,74(1):23-26
A geochemical soil sampling survey undertaken at Tumallpalle uranium mineralized zone Cuddapah district, has confirmed the
presence of uranium anomalies in soils. Bulk soil samples were collected at every 20 m along the traverse from approximately
30 cm below the surface and were assayed for uranium by x-ray fluorescence (XRF) and inductively coupled plasma mass spectrometry
(ICP-MS). The uranium anomalies detected by the insitu radiometric survey show a correlation with the helium highs. The soil
gas helium studies have aided in delineating the subsurface extension of the deposit. This study endeavors for an integration
of different techniques in a known area which could probably aid in delineating uranium zones for optimal exploitation in
the future exploration programmes. 相似文献
17.
《International Geology Review》2012,54(10):1157-1171
Intensities and anomalies of radiometric (gamma) natural fields are related to structures in geologic sections. Positive and negative anomalies in the overburden of petroliferous as well as of "sterile" structures are essentially functions of lithologic and/or mineral composition of the rocks which, in turn, depend on tectonic structure of the area. These and still other complexities, suited as they may be for interpreting radiometric expressions of various structures, are still in need of further research. -- AGI Staff. 相似文献
18.
通过磨子坝地区开展放射性场晕测定,地表伽玛晕圈及活性炭剖面测量异常较好地段可以指导深部找矿工作。根据放射性物探场晕特征,采用伽玛总量扫面,能谱测量确定异常性质,活性炭剖面测量对比,在找矿勘探工作中有较好的成效。 相似文献
19.
Radoslav Vukas 《Resource Geology》2007,57(3):338-346
The uranium mineral occurrence of Stolovac is located in the middle of a Permian red sandstone formation, the westernmost east‐Serbian Carpatho‐Balkan metallogenic province, or the Ridanj–Krepoljin ore zone. It was found by geological radiometry survey at the anomaly spots indicated by aerial gamma‐ray spectrometry (AGS). The task of anomaly identification is to accurately locate the AGS‐recorded anomalies in the field, to define the source of anomalous radioactivity (natural or artificial), to understand the relationship between the anomalous radioactivity and the given structural and geological situation, and to sample the material. The geological radiometry survey at scale 1:25,000 indicated increased radioactivity in gray sandstones of the Stolova?ki stream bed in Stolovac, some 40 km NE of Para?in. The instrument used was a scintillometer SSP 2NF, and the measured radioactivity was 10‐fold higher than the local background level. Of all the customary field work, the greatest volume (trenching, drilling and accessory testing) was carried out in Stolovac; other radioactivity anomalies in the red sandstone formation remained inadequately explored and are the subject of this paper. The 3‐year exploration in uranium at Stolovac indicated sandstone‐type infiltrated uranium mineralization in sandstones in the middle of the Permian red sandstone formation: a complex called “variegated rocks”. 相似文献