基于SAXS的超临界CO_(2)-H_(2)O流体对煤纳米孔隙结构的影响研究

超临界CO_(2)(SCCO_(2))流体对含水煤层纳米孔隙结构的改变将显著影响目标煤层的CO_(2)封存能力;为此,基于流体地球化学反应装置,以长焰煤、气煤和无烟煤为研究对象,模拟了SCCO_(2)-H_(2)O混合流体(温度45℃、压力12 MPa)与3类煤阶煤的地球化学反应;在此基础上,采用小角X射线散射(SAXS)研究了纳米孔隙结构及其非均质性对SCCO_(2)-H_(2)O流体的响应。结果表明:SCCO_(2)-H_(2)O作用重塑了煤的纳米孔隙结构,但不同煤阶煤的纳米孔隙对混合流体的响应有所差异;SCCO_(2)-H_(2)O流体作用后,长焰煤孔隙度、比表面积和小于5 nm的孔隙含量降低,但大于5 nm的中孔含量增大;气煤微孔含量减小,但中孔含量和比表面积显著增大;无烟煤孔隙度和比表面积均提高;煤基质溶胀、SCCO_(2)流体萃取、矿物的溶解和迁移的综合作用造成煤纳米孔隙的差异演化;SCCO_(2)-H_(2)O流体增强了低中阶烟煤孔隙分布的非均质性,以气煤尤为显著,但降低了所有煤样孔隙表面的不规则性。

桥塔横梁施工支撑体系设计与分析

将桥塔横梁施工支撑体系设计分为反力支点、承重单元、分配体系和调节模块4部分,并列举各模块下的不同组件形式,集合形成3种不同的具有代表性的施工支撑体系。通过实际桥例,分别从受力状态、技术特征对3种体系进行对比分析,结果表明,体系1,3受力相对较好,体系2施工效率较高。在一些特定工程场景下,体系3同样具备一定竞争潜力。

内蒙古四子王旗孟克萤石成矿规律研究

四子王旗孟克大地构造位置处于蒙古弧形褶皱带与新华夏构造体系的复合部位。受区域构造影响,褶皱与断裂比较发育,主要构造线方向与区域构造线方向基本一致。多其次的构造运动及丰富的热液活动为成矿提供了良好的动力、充足的物质、合适的赋存成矿条件。根据对深大断裂及其此生断裂的研究,结合成矿热液运移富集的特点,系统总结孟克萤石成矿规律。

内蒙古东乌旗宝力格地区中生代侵入体年代学证据及找矿意义

为了重新厘定内蒙古东乌旗宝力格地区中生代侵入体时代,确定物源条件,通过对宝力格地区岩石、岩石地球化学、微量元素、稀土元素、同位素等研究,对似斑状钾长花岗岩和花岗斑岩进行了单颗粒锆石U-Pb同位素年龄测定,似斑状钾长花岗岩加权平均值为145±2 Ma、谐和年龄为144.5±2.1 Ma;花岗斑岩加权平均值为139.9±1.6 Ma、谐和年龄为139.9±2.3 Ma,区内该期岩体侵入于晚二叠世中细粒钾长花岗岩。结合获得的同位素年龄,时代置于晚侏罗世。

Seismic performance evaluation of large-span offshore cable-stayed bridges under non-uniform earthquake excitations including strain rate effect

This paper presents a novel and precise seismic performance evaluation method for large-span offshore cable-stayed(LSOCS)bridge by considering the strain rate effect of RC materials and the spatial variation effect of seafloor seismic motions. Threedimensional finite element(FE) model of a LSOCS bridge located in the southeast coast of China is constructed in the ABAQUS platform. The non-uniform ground motions at the offshore site beneath the bridge are stochastically simulated and used as seismic inputs. Moreover, a subroutine for considering the rate-dependent properties of RC materials in a fiber-based beamcolumn element model is developed to account for the strain rate effect of RC materials in the nonlinear time-history analysis.The numerical results indicate that seismic responses and fragilities of the LSOCS bridge are both considerably affected by the non-uniform seafloor seismic motions and strain rate effect. The seismic performance evaluation approach presented in this paper can provide vital support for earthquake resistant design of LSOCS bridges.