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深部开采突水具有突发性、滞后性和强致灾性等特点,研究突水通道成因、演变规律和致灾机制成为控制深部开采底板突水的关键。大量的防治水实践和理论证实,构造突水通道一般发生在构造与岩层接触面处,为此建立隐伏构造条块体突水判据模型,应用剪切破坏理论方法得到突水理论判据;借助深部承压水上底板断层扩展活化及导水通道演化物理模拟试验,研制了固-流耦合相似材料,选取模拟断层破坏活化的材料并进行了模拟材料的可行性分析;试验直观地展现了含隐伏断层底板在采动应力扰动和高承压水共同作用下底板裂隙形成、隐伏断层扩展、突水通道贯通的全过程。通过对试验监测数据和现象的解读,揭示了应力场-渗流场耦合作用下承压水体上采煤底板滞后突水的机制,并对突水路径形成的时空规律进行了分析探讨,为研究深部开采构造突水提供了新的方法和认识。 相似文献
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多年观测数据表明,代县地电阻率年变受降雨影响比较显著,通过褶积滤波法获取降雨量对视电阻率的影响值,定量分析降雨与视电阻率的相关性。在此基础上,利用代县地电阻率电测深数据及相关地质资料,建立三维有限元模型,模拟降雨对地电阻率的影响,进一步确定降雨对视电阻率影响的物理机制。结果表明:降雨是造成代县地电阻率年变的主要因素,且与视电阻率呈正相关性;降雨造成表层介质含水饱和度发生变化,使得相应电阻率下降近10倍,从而引起地电阻率年变幅度发生近1/10的改变。 相似文献
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燕辽裂陷槽中元古代沉积层序中出现多个沉积间断和不整合面。本次研究对其中的5个不整合面进行野外考察,分析其地质特征并进行地层对比,最后判断其性质。大红峪组底部、高于庄组底部和杨庄组底部的不整合面是沉积属性,其中大红峪组底部不整合面是海侵超覆沉积的结果,高于庄组底部和杨庄组底部的不整合面由海平面升降变化所引起;铁岭组顶部和下马岭组顶部不整合面是构造属性,系大规模的抬升运动所造成。 相似文献
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地下水流数值模拟是高放废物处置库选址中水文地质评价的重要内容.水文地质概念模型是地下水流数值模拟的基础和前提.在北山预选区水文地质分析基础上,利用DEM数据生成了研究区地表水系,据此确定了模拟范围;借助GMS软件,建立了研究区三维水文地质结构模型;再通过边界条件、流场特征、地下水均衡项和水文地质参数的分析和描述,建立了北山地区水文地质概念模型. 相似文献
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1 INTRODUCTION Ocean wave and sea wind, are important oce-anic dynamic phenomena having great influence on the development of marine economy, exploitation of marine resources, and location selection, planning and designing, construction and operation of marine projects; so study on measuring methods of ocean wave and sea wind is important. High frequency ground wave radar (HF radar) was a technique developed in the last decades for the detection of oceanic environment. Long radio wave (mu… 相似文献
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Based on sediment and discharge flux data for the Yellow River, realistic forcing fields and bathymetry of the Bohai Sea,
a suspended sediment transport module is driven by a wave-current coupled model to research seasonal variations and mechanisms
of suspended load transport to the Bohai Sea. It could be concluded that surface sediment concentration indicates a distinct
spatial distribution characteristic that varies seasonally in the Bohai Sea. Sediment concentration is rather high near the
Yellow River estuary, seasonal variations of which are controlled by quantity of sediment from the Yellow River, suspended
sediment concentration reaches its maximum during summer and fall. Furthermore, sediment concentration decreases rapidly in
other seas far from the Yellow River estuary and maintains a very low level in the center of the Bohai Sea, and is dominated
by seasonal variations of climatology wind field in the Bohai Sea. Only a small amount of sediments imported from the Yellow
River are delivered northwestward to the southern coast of the Bohai Bay. Majority of sediments are transported southeastward
to the Laizhou Bay, where sediments are continuously delivered into the center of the Bohai Sea in a northeastward direction,
and part of them are transported eastward alongshore through the Bohai Strait. 69% of sediments from the Yellow River are
deposited near the river delta, 31% conveyed seaward, within which, 4% exported to the northern Yellow Sea through the Bohai
Strait. Wind wave is the most essential contributor to seasonal variations of sediment concentration in the Bohai Sea, and
the contribution of tidal currents is also significant in shallow waters when wind speed is low. 相似文献
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Five diagnostic experiments with a 3D baroclinic hydrodynamic and sediment transport model ECOMSED in couple with the third
generation wave model SWAN and the Grant-Madsen bottom boundary layer model driven by the monthly sediment load of the Yellow
River, were conducted to separately diagnose effects of different hydrodynamic factors on transport of suspended sediment
discharged from the Yellow River in the Bohai Sea. Both transport and spatio-temporal distribution of suspended sediment concentration
in the Bohai Sea were numerially simulated. It could be concluded that suspended sediment discharged from the Yellow River
cannot be delivered in long distance under the condition of tidal current. Almost all of sediments from the Yellow River are
deposited outside the delta under the condition of wind-driven current, and only very small of them are transported faraway.
On the basis of wind forcing, sediments from the Yellow River are mainly transported north-northwestward, and others which
are first delivered to the Laizhou Bay are continuously moved northward. An obvious 3D structure characteristic of sediment
transport is produced in the wind-driven and tide-induced residual circulation condition. Transport patterns at all layers
are generally consistent with circulation structure, but there is apparent deviation between the depth-averaged sediment flux
and the circulation structure. The phase of temporal variation of sediment concentration is consistent with that of the bottom
shear stress, both of which are proved to have a ten-day cycle in wave and current condition. 相似文献
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巴丹吉林沙漠以湖泊众多和沙山高大而闻名于世.到目前为止, 关于湖泊和沙山的成因问题尚存在不同的观点.实际上, 巴丹吉林沙漠湖泊和沙山的形成与该地区地下水的循环交替问题直接相关.参照前人研究成果, 结合开展的巴丹吉林沙漠水文地质调查, 探讨了湖泊和沙山的形成问题, 初步认为巴丹吉林沙漠湖泊主要接受来自东部雅布赖山区区域地下水侧向补给和沙山地下水补给而形成; 高大沙山的形成与降水和地下水关系密切; 高大沙山与湖泊的形成和共存关系是先有沙山, 而后才形成湖泊, 沙山是形成巴丹吉林沙漠湖泊的必备条件. 相似文献