汉江水利工程与环境水文及测验方法研究

汉江干支流上多座水利枢纽工程的修建,使汉江众多水文站由天然水文进入受水利工程影响的环境水文,其水文情势完全受人工调节,水文要素之间关系复杂多变,这给水文测验和成果计算带来了很大的难度。为此,我们研究出了适合受汉江水利工程影响的环境水文测验方法,提出了水库下游测站输沙模数采用当年入库输沙量加区间来沙计算公式。其测验方法可供同类测站参考。     

若尔盖地区区域构造与油气地球化学场的关系

盆地或地区的油气地质条件是形成油气地球化学场特征的物质基础，构造运动是烃类离开油气源区，向储集层运移和纵向运移的主要动力，而近地表沉积物性质和地形地貌景观条件是影响油气化探效果的重要因素。若尔盖地区的弧形构造对化探指标浓度的空间分布的影响作用，表明地质构造对近地表地球化学场的分布有明显的控制作用。     

湖南梅城—寒婆坳地区煤田显微构造成因

从显微尺度分析了湖南梅城-寒婆坳地区岩石中出现较多的显微构造现象,并结合区域构造背景,从宏观和微观角度分析了研究区煤田构造成因。结果表明,研究区以低温脆性变形为主,多组裂隙的交错发育表明了应力场的多期次性,应用缝合线反演得出研究区印支期第Ⅰ期NW-SE向为最大主压应力场,第Ⅱ期NE-SW向挤压应力场次之;平均差应力为50~70 MPa,表明印支期以来煤田构造变形过程中,岩石经历了中等偏低强度的构造应力作用。梅城-寒婆坳地区煤田构造是在脆性-脆韧性变形为主的多期次中等偏低强度的复杂构造运动条件下形成的。     

陕西洛南绿松石的结构构造特征研究

采用偏光显微镜观察、扫描电镜、X射线粉晶衍射分析,对产于绿松石遗址陕西洛南的绿松石进行了详细的结构构造研究。结果表明,陕西洛南绿松石的结构多呈隐晶质结构,部分可见环带状结构、结核状结构;可见块状构造、致密块状构造,部分见葡萄状构造;扫描电镜下观察陕西洛南绿松石多呈鳞片状结构、不规则团块状分布,可见板状绿松石微晶不规则分布,部分见孔隙分布;绿松石微晶越接近它形,孔隙越少,排列越均匀,则结构越紧密,呈现致密块状构造;反之则呈葡萄状构造;XRD实验结果表明,样品中均含有绿松石和石英,部分样品中含有少量的伊利石和高岭石。     

回采工作面地质构造精细化综合探测技术研究与应用

小型地质构造是造成煤与瓦斯突出事故的主要因素,小构造的精准探测是亟需解决的关键问题。煤岩界面高精度探测是查明小构造,实现透明工作面的基础。声波远探测技术具有探测范围大、分辨率高、可成像等优点,能够实现对煤岩界面的精准识别。为此,提出了基于穿层钻孔声波远探测的煤岩界面探测技术,通过在井下穿层钻孔内布置声波远探测仪,采集孔周煤岩分界面产生的阵列波形,并利用反射波信息反演获得煤岩界面成像图,进一步结合钻孔群,实现工作面的整体勘察。首先,利用COMSOL Multiphysics软件构建出煤系单极远探测数值模型;然后通过模型正演分析全波信号与波场快照的全时空变化规律;最后对远探测声波数据进行反演实现煤岩界面的偏移成像。正演结果表明：模型中煤层的纵波波速比顶底板岩层慢1.2 km/s左右,声波在煤层中传播时能量衰减得更快,同时声波穿过煤岩界面时会出现主频的漂移;当测点趋近于仪器从底板岩层向煤层过渡的位置时,直达波的变化特征为幅度的骤降与声时的增大,而界面反射波的特征为时间−深度域中倾斜同相轴的斜率改变。对采集到的波形数据进行滤波、波场分离、反射波增强、偏移成像四个步骤完成模型反演,成像结果与原始模型相似度高,煤岩界面倾角误差0.6°、煤厚误差0.212 m,穿层钻孔远探测声波有限元方法可以有效地反演出煤岩界面的位置和形态特征。该研究可为声波远探测技术应用于穿层钻孔煤岩界面识别提供基础理论支撑。

     

松软煤层瓦斯钻孔失稳分析及动态密封技术

自驱修孔钻头是修复失效长钻孔的有效技术手段,为进一步提高修孔速度和瓦斯抽采效果,本文基于射流反冲理论,分析了射流反冲力与喷嘴参数的关系,构建了自驱修孔钻头旋转力学理论模型。采用LS-DYNA开展不同结构钻齿破煤过程,分析了不同钻进压力和扭矩作用下钻齿对煤体破坏形式和钻齿破煤体积变化规律,并开展了破煤实验验证数值模拟结果。形成了自驱修孔钻头参数确定方法,设计了自驱修孔钻头,并在郑煤集团超化煤矿22煤柱面底抽巷进行了工程实验。研究结果表明：(1)喷嘴张角α和偏心角β是决定钻进压力和扭矩分配的关键参数,通过调控张角和偏心角可实现钻进压力和扭矩的最优匹配。(2)相同钻进参数条件下,钻齿结构对破煤体积影响较大,阶梯钻齿破煤效果最优。在钻进压力为120 N、扭矩0.6 N·m时,阶梯型钻齿结构的修孔钻头能够实现钻进压力和扭矩最优匹配。(3)确定了最优修孔钻头结构参数为：钻头外径28 mm;后置喷嘴张角20°,偏心角90°;前置喷嘴张角90°,偏心角0°。(4)工程应用结果表明：瓦斯抽采纯量提高了1.96倍,瓦斯抽采体积分数提高了3.98倍,修孔速度提高了1.2倍。通过改进钻头动力参数及优化钻齿结构,设计的自驱修孔钻头在工程实践中达到了提高修孔速度和瓦斯抽采效果的目的。

     

Trust-region based instantaneous optimal semi-active control of long-span spatially extended structures with MRF-04K damper

In the field of civil engineering, magnetorheological fluid （MRF） damper-based semi-active control systems have received considerable attention for use in protecting structures from natural hazards such as strong earthquakes and high winds. In this paper, the MRF damper-based semi-active control system is applied to a long-span spatially extended structure and its feasibility is discussed. Meanwhile, a _trust-region method based instantaneous optimal semi-active control algorithm （TIOC） is proposed to improve the performance of the semi-active control system in a multiple damper situation. The proposed TIOC describes the control process as a bounded constraint optimization problem, in which an optimal semi- active control force vector is solved by the trust-region method in every control step to minimize the structural responses. A numerical example of a railway station roof structure installed with MRF-04K dampers is presented. First, a modified Bouc- Wen model is utilized to describe the behavior of the selected MRF-04K damper. Then, two semi-active control systems, including the well-known clipped-optimal controller and the proposed TIOC controller, are considered. Based on the characteristics of the long-span spatially extended structure, the performance of the control system is evaluated under uniform earthquake excitation and travelling-wave excitation with different apparent velocities. The simulation results indicate that the MR fluid damper-based semi-active control systems have the potential to mitigate the responses of full-scale long-span spatially extended structures under earthquake hazards. The superiority of the proposed TIOC controller is demonstrated by comparing its control effectiveness with the clipped-optimal controller for several different cases.     

Effects of the 'Prestige' oil spill on macroalgal assemblages: large-scale comparison

An assessment of the effects of the 'Prestige' oil spill on intertidal, macroalgal assemblages was carried out comparing abundance data obtained before and after the spill. Four zones in the North and Northwest coast of Spain were sampled, one of them located at the immediate vicinity of the spill, the zone most heavily oiled. Macroalgal assemblages had similar structure between years. Neither critical decrease in abundance of the dominant macroalgae, nor increase in opportunistic species were found. Some differences in abundance were observed, but they did not show any pattern, being more likely the result of the natural variability of the assemblage. Extensive, but not intense fuel deposition on the shores and a limited use of aggressive cleanup methods are suggested as possible causes for the lack of the effects in these assemblages after the 'Prestige' oil spill.     

特低渗透砂岩储层水驱油CT成像技术研究

通过水驱油岩心的CT成像技术,动态、定量、可视化地研究了特低渗透砂岩储层水驱油岩心的微观孔隙结构、含水饱和度分布、吸水能力及微观孔隙结构对驱油效率的影响.研究表明,实验岩心的CT值分布在1819~1961之间,与标准的Berea砂岩相比高出15%左右,属于典型的特低渗透砂岩储层.储层微观孔隙结构是影响油水分布的主要因素.特低渗透砂岩储层开发要高度重视无水采收率.储层致密和微裂缝发育的不均一性是特低渗透砂岩油田驱油效率低的根本原因.