内蒙古二道河铅锌银矿床成矿流体、物质来源及成因探讨

【研究目的】二道河铅锌银矿位于大兴安岭中段,是近年来发现的具有代表性的大型矽卡岩型矿床,通过对该矿床成因的研究将有助于指导大兴安岭中段多金属矿床的勘查工作。【研究方法】本文在野外地质调查的基础上,选取各成矿阶段热液石英进行流体包裹体研究,并结合矿石S、Pb同位素与方解石C、O同位素,探讨该矿床成矿流体及物质来源。【研究结果】二道河矿床先后经历了矽卡岩阶段、石英硫化物阶段、石英碳酸盐阶段。测温结果显示,热液石英中的包裹体以气液两相为主,矽卡岩阶段石英中包裹体均一温度为310~435℃,盐度为11.7%~0.71%NaCleqv;石英-硫化物阶段石英中包裹体均一温度为195~310℃,盐度为12.9%~0.35%NaCleqv;石英-碳酸盐阶段石英中包裹体均一温度为148~195℃,盐度为4.18%~0.35%NaCleqv。方解石C、O同位素显示矿床经历了水岩反应,并有大气降水的加入。矿石硫同位素δ^(34)S为5.4‰~10.0‰,来源于岩浆与地层的混合硫;铅同位素特征参数表明,铅的来源与造山相关的岩浆作用有关,以上地壳铅为主并混合了少量的深源铅。【结论】综上所述,二道河铅锌银矿的成矿流体与物质来源应与蒙古—鄂霍茨克洋闭合造山后伸展导致的大规模岩浆作用有关。

基于多目标人工蜂鸟算法的电-氢混合储能系统最优配置

将氢气储能系统与电池储能系统相互结合,可实现长期且快速的能量吞吐并减小分布式电源渗透率提高对配电网稳定性的影响。综合考虑电-氢混和储能系统接入配电网的经济性和技术性要求,以最小化系统全生命周期成本、配电网的电压波动和净负荷波动为目标,建立了电-氢混和储能系统多目标优化配置模型。采用基于Pareto的多目标人工蜂鸟算法求解其规划方案,并与多目标粒子群算法以及多目标原子轨道搜索进行了对比。最后,基于扩展的IEEE-69节点标准测试系统进行求解。仿真结果表明:多目标人工蜂鸟算法能够获得解集质量更加优异的Pareto前沿。所得混合储能系统配置方案在兼顾经济效益的同时,改善了配电网的电压质量和负荷水平。与仅配置电池储能系统相比,电-氢混合储能系统对配电网净负荷波动与电压波动的改善分别提高了21.02%与16.66%,证明了本文所提优化配置方法的有效性和卓越性。

城市燃气管道泄漏爆炸事故风险演化机制研究

为深入探讨城市燃气管道泄漏爆炸事故的风险演化机制,维护城市公共安全,以湖北十堰“6·13”事故为例,集成AcciMap事故致因模型与系统动力学方法构建分析框架。首先,基于AcciMap模型递阶层次结构,系统辨识和遴选事故致因,厘清逻辑关系,还原事故过程;其次,将SD思想引入AcciMap模型,构建AcciMap-SD集成模型;再次,通过博弈论组合赋权获取函数关系,实现风险演化机制的动态定量可视化,提出3种风险干预策略。结果表明:事故系统风险呈现“上升-达峰-下降”的趋势,可分为风险集聚、风险蓄积、风险爆发和风险下降4个阶段;减少政府安全生产理念和属地责任贯彻落实的风险对降低事故系统风险的干预效果最好,提高政府应急响应和学习能力的干预效果次之,减少企业安全生产主体责任落实风险的干预效果最差;政府部门安全监管失察和企业安全生产主体责任未落实分别是事故的客观根源与主观核心;AcciMap-SD集成方法能够有效刻画事故的风险演化机制,是AcciMap模型在定量分析领域的有益补充。

内蒙古巴根黑格其尔铅锌矿花岗斑岩锆石U-Pb年代学、地球化学及Sr-Nd-Pb-Hf同位素研究

巴根黑格其尔矿床位于大兴安岭中段,该矿床为一中型矽卡岩型铅锌铁矿。本文对矿区内的花岗斑岩进行了锆石U-Pb年代学和岩石地球化学研究。花岗斑岩LA-ICP-MS锆石U-Pb年龄为151±2.2Ma,是晚侏罗世岩浆活动的产物。花岗斑岩A/CNK在0.83~1.35之间,具有高硅(70.21%~72.85%)、富碱(6.60%~8.53%)、低P2O5(0.09%~0.11%)的特征;分异指数(DI)为85.7~92.8,固结指数(SI)为3.52~5.80,表明岩石经历了较强的分异演化作用;微量元素原始地幔标准化图解显示U、La、Hf、Yb、Lu、Rb、K相对富集,Sr、P、Ti、Ta、Nb和Ba出现不同程度的亏损;稀土元素配分曲线呈右倾的轻稀土元素富集型,且具有中等的Eu负异常,花岗斑岩属准铝质到过铝质的高分异Ⅰ型花岗岩。花岗斑岩(87Sr/86Sr)i值为0.70222~0.70557,εNd(t)值为2.3~2.5,εHf(t)值为6.2~9.2,二阶段Nd模式年龄为741~755Ma,二阶段Hf模式年龄为613~808Ma,经校正后的(206Pb/204Pb)t值为18.253~18.396,(207Pb/204Pb)t值为15.521~15.546,(208Pb/204Pb)t值为37.841~38.066,具有混合成因Pb的特征,以上结果说明花岗斑岩岩浆起源于新元古代加入地壳的亏损地幔物质。巴根黑格其尔花岗斑岩岩浆与大兴安岭地区的晚侏罗世花岗岩岩浆基本同期侵位,其形成与晚侏罗世蒙古鄂霍茨克洋闭合的后碰撞过程有关,并可能叠加了古太平洋板块俯冲引发的弧后伸展的影响。巴根黑格其尔花岗斑岩对矿体起到破坏的作用,是在成矿以后形成的,后期的找矿勘查工作应重点围绕闪长岩展开。

Felsic Igneous Rocks in the Hua'aobaote Pb-Zn-Ag Polymetallic Orefield,Southern Great Xing'an Range:Genesis,Metallogenetic and Tectonic Significance

The Hua’aobaote Pb-Zn-Ag Polymetallic orefield is situated in the southern section of the Great Xing’an Range(GXAR),which has experienced extensive magmatism.Since the Paleozoic,there are two stages of magmatism in Hua’aobaote orefield occurred in the Paleozoic and Mesozoic.The Mesozoic magmatism is of great significance for the PbZn-Ag Polymetallic mineralization in Hua’aobaote orefield.In this study,new geochemical data was obtained to discuss the timing and petrogenesis of the magmatic rocks and its geodynamic and metallogenic significance.Zircon U-Pb ages reveal that the felsic igneous rocks from the Hua’aobaote orefield were formed in the Early Permian(294.8±3.2 Ma)and Early Cretaceous(132.6±1.4 Ma).Geochemically,the Early Permian granodiorite porphyrite is characterized by high Sr/Y(42-63)ratios and Mg^(#)(62.24-70.74)values and low heavy rare earth element(HREE)(5.09-6.79 ppm)contents.The granodiorite porphyrite is also characterized by depleted Sr-Nd initial isotopic signatures[ε_(Nd)(t)=5.91-7.59,(^(87)Sr/^(86)Sr)i=0.7029-0.7030],exhibiting adakitic characteristics.The Early Cretaceous granite porphyry and rhyolite are A-type felsic igneous rocks,and demonstrate high SiO_(2),Na_(2)O+K_(2)O and rare earth element(REE)contents,low CaO and MgO contents,low(^(87)Sr/^(86)Sr)i ratios(0.7044-0.7058),and positive ε_(Nd)(t)values(2.57-4.65).Whole-rock Pb isotopic compositions in granodiorite porphyrite are:206Pb/204Pb=17.631-18.149,^(207)Pb/^(204)Pb=15.422-15.450,and ^(208)Pb/^(204)Pb=37.325-37.729.The granite porphyry and rhyolite have initial ^(206)Pb/^(204)Pb,^(207)Pb/^(204)Pb,and ^(208)Pb/^(204)Pb ratios of 18.106-19.309,15.489-15.539,and 37.821-38.05,respectively.Sr-Nd-Pb isotopic evidence suggests that the Early Permian granodiorite porphyrite is likely to derive from slab melts and modified by peridotitic mantle wedge in the subduction tectonic setting of the Paleo-Asian Ocean.The Early Cretaceous A-type felsic igneous rocks were derived from juvenile lower crust,accompanied by limited crustal contamination and various degree of fractional crystallisation during magma emplacement.The Early Cretaceous magmatism and related mineralization were formed in a post-orogenic tectonic setting that attributed to the closure of the Mongol-Okhotsk Ocean.Pb isotopic data for the various rock units in the study area indicate that the Mesozoic magma source contributed substantial Pb,Zn,and Ag to the Hua’aobaote deposit.