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1.
通过对松辽盆地西南部钱家店铀矿集区及周边航磁、航放、重力资料的处理与综合解释,总结了钱家店铀矿集区区域地球物理场特征,分析了磁、放、重地球物理场与区域构造背景、砂岩型铀成矿地质环境之间的内在联系。通过对具有控矿意义的断裂构造F2-1、F5、Fg1等的重磁场特征分析,探讨了断裂构造与盆地基底断块升降、砂岩型铀矿化之间的成因关系。此外,应用半定量预测技术和地球物理异常信息叠合研究,指出了成矿有利度高值带突出分布的部位,并探讨了今后研究区砂岩型铀矿重点勘查方向。结果表明,航磁、航放和重力三者结合,可有效地指导铀矿勘查方向。 相似文献
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林西—乌兰浩特地区位于大兴安岭铀成矿省中南段,构造岩浆活动强烈,铀成矿地质条件优越。限于植被发育、覆盖厚等因素制约,单一勘查手段难以满足当前深部找矿的需求。在成矿条件及控矿因素分析的基础上,综合航放、航磁、地球化学、遥感等多源信息,构建了火山岩型铀矿综合找矿模型。利用地理信息系统(GIS)空间分析功能,提取了多源找矿信息,采用证据权重法开展铀矿定量预测,优选了与成矿密切相关的16个证据层。其中上侏罗统满克头鄂博组为主要赋矿地层;晚侏罗世—早白垩世潜火山岩与成矿关系密切; NE-NNE向断裂控矿作用显著,铀矿化多发育在断裂密集带及交切带;航放参数异常(U高场、F高值晕、U/K高值晕、Hu低值晕)、化探异常(Mo、Ag、Pb、W、Sn)及遥感蚀变异常(铁染异常、羟基异常)对铀矿化指示作用明显。依据证据权重法确定的后验概率圈定成矿远景区18处,覆盖了区内多数铀矿床(点),表明预测结果较为可靠,其中7处成矿远景区内尚未发现铀矿床(点),其成矿地质条件优越,找矿线索丰富,找矿前景较好,对进一步找矿具有一定的指导意义。 相似文献
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受森林分布广、覆盖厚及矿体隐伏等因素制约,大兴安岭成矿带扎兰屯地区铀矿找矿进展缓慢。航空伽玛能谱数据蕴含有丰富的铀矿化信息,除地表矿化信息外,亦含有部分深部铀矿化弱信息。文章在对扎兰屯地区典型铀矿点成矿地质特征及伽玛能谱特征分析的基础上,利用K、U、Th元素含量之间的地球化学特征差异,构建了2个航放参数模型(ΔU高值晕、F高值晕),增强航放微弱异常信息;在航放异常信息提取、优选的基础上,结合地质、化探等找矿有利信息,预测铀成矿远景区7处;其中2处远景区成矿地质条件优越,异常线索丰富,尚属铀矿空白区,在进一步工作中应引起重视。 相似文献
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本文研究和分析了川北砂岩和康滇地轴几个铀矿床和矿化地段的各种地球物理场分布特征与铀矿化的关系,及其反映的铀成矿可能性。充分利用和分析研究工作区现有的大量放射性测量及航磁、重力测量资料,总结和建立铀成矿的区域物(化)探判据:高变异、剩余值、零值线、过渡带、富铀体、复合晕。利用成矿判据在区域和矿区成矿预测中划分成矿有利区、段,为区域找矿和矿床扩大提供了可靠的依据。 相似文献
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鹿井地区铀矿勘查工作始于1958年,至20世纪90年代结束,已落实为鹿井铀矿田。2009~2012年间核工业270研究所在该区开展了铀成矿潜力评价及普查找矿工作,取得了一系列的勘查成果。介绍了鹿井铀矿田的地质概况及地球物理场和地球化学场特征。重点介绍了区域布格重力场特征;区域航磁异常特征;航空伽玛能谱场特征。根据遥感影象资料,认为丰州盆地正好处在一个大的环形构造中,而且在盆地西北部,也可清晰的见到较小的环形构造。结合环形构造的边缘分布有花岗岩杂岩体,鹿井矿田铀矿床与火山塌陷中的环状花岗岩杂岩紧密相伴,铀矿体主要分布在环状杂岩体顶部、旁侧等接触变异部位。丰州盆地具有较好的铀成矿远景。 相似文献
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湘赣边界鹿井铀矿床是一个大型的花岗岩型铀矿床,位于鹿井矿田的中部。本文系统收集及整合鹿井铀矿床的三维空间多源信息,包括地质、钻探、地球物理及地球化学信息等,构建了地质数据库及三维地质模型,实现地质空间的三维可视化。在此基础上,根据研究区赋矿地层、含矿岩体、控矿构造等地质要素与矿化空间的耦合关系,以及地化异常等找矿标志,构建了该区找矿模型。通过三维距离场、三维形态场等三维空间信息分析方法,确立含矿构造带、不同岩性接触界面,以及岩体隆起与凹陷的致矿影响范围,并对控矿要素信息进行提取。结合区内地球物理、地球化学等矿化识别标志,建立预测评价模型。利用三维证据权法开展定量预测,圈定了3处成矿有利靶区,为指导研究区深部及外围铀矿找矿工作提供支撑。 相似文献
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湘赣边界鹿井铀矿床是一个大型的花岗岩型铀矿床,位于鹿井矿田的中部。本文系统收集及整合鹿井铀矿床的三维空间多源信息,包括地质、钻探、地球物理及地球化学信息等,构建了地质数据库及三维地质模型,实现地质空间的三维可视化。在此基础上,根据研究区赋矿地层、含矿岩体、控矿构造等地质要素与矿化空间的耦合关系,以及地化异常等找矿标志,构建了该区找矿模型。通过三维距离场、三维形态场等三维空间信息分析方法,确立含矿构造带、不同岩性接触界面,以及岩体隆起与凹陷的致矿影响范围,并对控矿要素信息进行提取。结合区内地球物理、地球化学等矿化识别标志,建立预测评价模型。利用三维证据权法开展定量预测,圈定了3处成矿有利靶区,为指导研究区深部及外围铀矿找矿工作提供支撑。 相似文献
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西藏铁格隆南铜(金)矿床三维模型分析与深部预测 总被引:1,自引:1,他引:0
铁格隆南铜(金)矿床是近年来在班公湖-怒江成矿带西段多龙矿集区新发现的超大型Cu(Au-Ag)矿床。本文针对铁格隆南矿区深部找矿问题,以现代成矿地质理论和多元地学信息综合分析技术为支撑,以构建矿床找矿模型为指导,依托数据库技术、3S技术、三维建模与可视化技术及地质统计学理论与方法,开展基于矿产地质、地球物理、地球化学等成矿条件及找矿标志的三维地质实体建模与矿化异常三维空间重构,将铁格隆南矿床的预测评价研究拓展到三维空间,揭示了区内成矿地质特征、地球化学及地球物理异常表征,据此探讨了矿床的成因及矿体分布特征。并在此基础上,开展了矿区的地质-地球化学-地球物理综合信息分析与预测评价,以期减少单一信息多解性和成矿条件不确定性,为铁格隆南矿区深部找矿工作提供参考。研究结果表明:在地质找矿模型指导下,基于深部成矿空间三维结构重构基础上的三维地质、地球物理、地球化学异常信息提取与综合分析,可以有效的识别成矿地质体和矿致异常信息,实现深部矿产资源靶区空间定位预测,为深部找矿预测研究提供了新思路。综合分析结果显示铁格隆南矿床深部找矿潜力巨大。 相似文献
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本文研究了我国各类型铀矿床矿石的可选性及适宜的选矿方法;对不同的矿石用不同选矿或选矿-水冶联合流程,可有效地提高水冶供矿品位和回收伴生元素,降低水冶成本。最后,作者就如何提高矿床经济效益提出了结论和建议。 相似文献
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The 234U/238U alpha activity ratio (AR) was determined in 47 samples of variably uraniferous groundwater from the vicinity of a uranium mill near Cañon City, Colorado. The results illustrate that uranium isotopes can be used to determine the distribution of uranium contamination in groundwater and to indicate processes such as mixing and chemical precipitation that affect uranium concentrations. Highly to moderately contaminated groundwater samples collected from the mill site and land immediately downgradient from the mill site contain more than 100?μg/l of dissolved uranium and typically have AR values in the narrow range of 1.0–1.06. Other samples from the shallow alluvial aquifer farther downgradient from the mill contain 10–100?μg/l uranium and plot along a broad trend of increasing AR (1.06–1.46) with decreasing uranium concentration. The results are consistent with mixing of liquid mill waste (AR≈1.0) with alluvial groundwater of small, but variable, uranium concentrations and AR of 1.3–1.5. In the alluvial aquifer, the spatial distribution of wells with AR values less than 1.3 is consistent with previous estimates of the probable distribution of contamination, based on water chemistry and hydrology. Wells more distant from the area of probable contamination have AR values that are consistently greater than 1.3 and are indicative of little or no contamination. The methodology of this study can be extended usefully to similar sites of uranium mining, milling, or processing provided that local geohydrologic settings promote uranium mobility and that introduced uranium contamination is isotopically distinct from that of local groundwater. 相似文献
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相山铀矿田6122矿床凝灰岩铀矿石成因探讨 总被引:1,自引:0,他引:1
在相山铀矿田6122矿床4号带的主要含矿岩石英安岩和“碎斑熔岩”之外发现了新的含矿岩石凝灰岩。铀矿石中绿泥石含量较高.并且含铀达7.13%。经过对舍矿凝灰岩特征、矿化与构造的关系、与铀矿物共生矿物的特征进行研究,笔者认为成矿熟液来自于地壳深部,曾经经历过高温阶段。在矿化蚀变过程中形成大量绿泥石、水云母等粘土矿物.它们使铀酰络离子稳定性、溶解度降低而解体.使铀还原沉淀并被绿泥石、水云母等吸附。 相似文献
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东秦岭—大别山铀钍钾空间分布与铀矿化 总被引:2,自引:0,他引:2
本文在综合分析东秦岭—大别山航空伽玛能谱资料的基础上,结合区域地质特征,探讨本区铀、钍、钾元素的空间分布与铀矿化的关系。 相似文献
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A reevaluation of the oceanic uranium budget for the Holocene 总被引:4,自引:0,他引:4
We present a new assessment of the pre-anthropogenic U budget for the Holocene ocean. We find that the gross input of U to the ocean lies in the range 53±17 Mmol/year, where the dominant source is river runoff (42.0±14.5 Mmol/year) and the direct discharge of groundwater could represent a significant additional input (9.3±8.7 Mmol/year). The soluble U flux associated with the aeolian input of crustal dust is minor (1.8±1.1 Mmol/year), falling well within the errors associated with the riverine flux. Removal of U to the organic rich sediments of salt marshes and mangrove swamps during river–sea mixing may significantly modify the riverine flux, such that the net U input is reduced to 42±18 Mmol/year. Evaluation of the U isotope budget demonstrates that the limits we have established on the U input flux are reasonable and suggests that direct groundwater discharge may play a significant role in maintaining the oceanic excess of 234U. The total sink of U from the ocean lies in the range 48±14 Mmol/year. We find that three major processes control the magnitude of this flux: (1) removal to oxygen-depleted sediments (26.9±12.2 Mmol/year); (2) incorporation into biogenic carbonate (13.3±5.6 Mmol/year); and (3) crustal sequestration during hydrothermal alteration and seafloor weathering (5.7±3.3 Mmol/year). The removal of U to opaline silica (0.6±0.3 Mmol/year) and hydrogenous phases (1.4±0.8 Mmol/year) is minimal, falling well within the errors associated with the other sinks. That the input and output fluxes balance within the calculated errors implies that U may be in steady state in the Holocene ocean. In this case, the input and output fluxes lie in the range 34–60 Mmol/year, giving an oceanic U residence time of 3.2–5.6×105 years. However, given the large uncertainties, a significant imbalance between the Holocene input and output fluxes cannot be ruled out. The constancy of the ancient seawater U concentration implies that the U budget is in steady state over the time period of a glacial–interglacial climate cycle (105 year). A Holocene flux imbalance must, therefore, be offset by an opposing flux imbalance during glacial periods or at the interglacial–glacial transition. We suggest that the storage of U in the coastal zone and shallow water carbonates during interglacial periods and the release of that U at or following the interglacial–glacial transition could be sufficient to affect the short-term stability of the U budget. Providing tighter constraints on U fluxes in the Holocene ocean is a prerequisite to understanding the U budget on the time scale of a glacial–interglacial climate cycle and using this element as a valuable palaeoceanographic proxy. 相似文献
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松辽盆地可地浸砂岩型铀矿成矿地质条件 总被引:3,自引:0,他引:3
本文重点讨论了松辽盆地的地质背景、铀源条件、铀矿化异常与岩相古地理以及盆地后期改造的关系,介绍了该盆地后期改造的特征、后期改造的动力条件及铀元素的再分配,探讨了铀矿化异常与复合砂体、氧化还原条件及剥蚀面的关系。在此基础上预测了铀成矿远景地区,选出找矿的重点层位。 相似文献
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本文从断裂构造对铀矿床的控制出发,研究了川东北砂岩型铀矿床的形成机理,总结了该区砂岩型铀矿床的选点准则,最后进行了铀成矿远景预测。 相似文献
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Geochemical coupling of uranium and phosphorous in soils overlying an unmined uranium deposit: Coles Hill, Virginia 总被引:2,自引:0,他引:2
The mineralogy and geochemistry of soils developed over the unmined Coles Hill uranium deposit (Virginia) were studied to determine how phosphorous influences the speciation of uranium in oxidizing soil/saprolite systems typical of the eastern US. Results from this study have implications for both uranium remediation (e.g. in situ stabilization) and uranium resource exploration (e.g. near-surface geochemical sampling). The primary uranium ore (coffinite and uraninite hosted in quartzo-feldspathic gneiss) weathers to saprolites containing the same uranium concentration as the underlying ore (approximately 1000 mg U/kg saprolites). In these water saturated (below water table) saprolites the uranium is retained as uranyl phosphates of the meta-autunite group (mainly meta-uranocircite). Above the water table the soils overlying the deposit contain approximately 200 mg uranium per kg soil (20 times higher than uranium concentrations in similar soils formed from unmineralized rocks adjacent to the deposit). In these unsaturated zone soils uranium is retained by two processes: (1) incorporation into barium–strontium–calcium aluminum phosphate minerals of the crandallite group (mainly gorceixite), and (2) sorption of uranium with phosphorous onto iron oxides that coat the surfaces of other soil minerals.Thermodynamic calculations suggest that the meta-autunite group minerals present in the saprolites below the water table are not stable in the unsaturated zone soils overlying the deposit due to the drop in soil pH from 6.0 down to 4.5. Mineralogical observations suggest that, once exposed to the unsaturated environment, the meta-autunite group minerals react to form U(VI)-bearing aluminum phosphates and U(VI) surface complexes or nano-precipitates associated with ferric oxides. These results therefore indicate that models predicting U(VI) speciation in phosphate amended soils must simultaneously account for variations in pH, ion activities (aluminum appears to be particularly important) and surface complexation with iron oxide mineral surfaces. 相似文献
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随着科学技术的发展,壤中氧测量已具备应用于野外找矿的基本条件。本文通过野外壤中氧测量的找矿实例,对方法的理论依据、技术基础做了简要的阐述。介绍了壤中O2测量与壤中Rn,CO2测量配合在找矿中的成功应用,并认为:以积分形式采集数据的壤中氧方法具有方便、稳定的特点。 相似文献
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铀的地球化学性质与成矿——以华南铀成矿省为例 总被引:1,自引:1,他引:1
铀是强不相容元素,随着岩浆演化而不断富集,在岩浆演化末期受结构氧增加影响进入独居石、磷钇矿等副矿物中。岩浆演化通常无法直接形成达到工业品位的铀矿床。铀是对氧逸度敏感的变价元素。在表生风化过程中岩体(层)中的铀被氧化为UO_2~(2+)而极易溶解进入水体中,并可在还原环境沉淀而富集成矿,氧化还原界面是找矿的理想选区。大气水可通过断裂构造系统进入一定深度,并受热源作用形成高氧逸度的热液而萃取出岩体(层)中的铀在还原位置沉淀富集形成矿床。新元古代氧化事件以及Marinoan冰期结束使得表生风化过程中更多的U进入水体;而寒武纪生命大爆发,易在沉积盆地底部形成还原环境,有利于U的沉淀富集。受上述三方面因素控制,在华南形成了广泛分布的富铀黑色页岩层,并被之后的沉积物覆盖,成为华南各型铀矿床的铀源层。印支期构造运动使部分富铀黑色页岩层发生部分熔融形成了富铀的S型花岗岩,该类岩石亦是之后铀成矿作用的铀源岩。燕山运动后期华南发生伸展构造背景下的岩浆热事件为以大气水为主的高氧逸度热液的形成并作用于铀源岩(层)提供了有利条件,促使华南各类型铀矿床开始在白垩纪集中形成。 相似文献