煤变质作用对煤层气赋存和富集的控制--以沁水盆地为例

通过对国内外有关煤变质作用与煤层气形成、赋存和富集关系研究成果的系统总结，阐述了煤变质作用类型及煤变质作用程度与煤层气的生成、吸附量、煤储层孔隙—裂隙系统形成发育及煤层特性的相互关系，认为煤变质作用对煤层气赋存富集的影响集中体现在它对煤储层孔隙一裂隙系统形成发育过程的控制上。并以沁水盆地为例，探讨了高阶煤煤变质作用对煤层气赋存富集的控制作用，提出了对沁水盆地高阶煤煤层气勘探开发研究的几点思考和建议。     

Field study on the behavior of pre-bored grouted planted pile with enlarged grout base

This paper presents the results of field tests performed to investigate the compressive bearing capacity of pre-bored grouted planted (PGP) pile with enlarged grout base focusing on its base bearing capacity. The bi-directional O-cell load test was conducted to evaluate the behavior of full scale PGP piles. The test results show that the pile head displacements needed to fully mobilize the shaft resistance were 5.9% and 6.4% D (D is pile diameter), respectively, of two test piles, owing to the large elastic shortening of pile shaft. Furthermore, the results demonstrated that the PHC nodular pile base and grout body at the enlarged base could act as a unit in the loading process, and the enlarged grout base could effectively promote the base bearing capacity of PGP pile through increasing the base area. The normalized base resistances (unit base resistance/average cone base resistance) of two test piles were 0.17 and 0.19, respectively, when the base displacement reached 5% D_b (D_b is pile base diameter). The permeation of grout into the silty sand layer under pile base increased the elastic modulus of silty sand, which could help to decrease pile head displacement under working load.

     

罗非鱼4个选育群体遗传结构SSR分析

采用SSR分子标记分析了吉富品系罗非鱼的两个家系(GF1和GF2)以及奥利亚罗非鱼(Fo)和奥本尼罗罗非鱼(Fn)群体的遗传结构。结果显示,扩增后等位基因数为3～8个,随引物不同而异,14对引物共扩增60个等位基因,扩增片断大小在102～267 bp之间。微卫星分析表明,奥本尼罗罗非鱼(Fn)的平均观测杂合度(0.764 3)和平均期望杂合度(0.519 6)均最高,吉富尼罗罗非鱼(GF1)平均多态信息含量(0.419 5)最高;吉富尼罗罗非鱼(GF2)平均观测杂合度(0.614 2),奥利亚罗非鱼(Fo)的平均期望观测度(0.446 6)、平均多态信息含量(0.359 2)最低;因此,吉富鱼(GF1)的遗传多样性最高,奥利亚的遗传多样性最低。Hardy-Weinberg平衡遗传偏离指数(D)奥利亚(Fo)和尼罗(Fn)(0.463 4和0.478 9)明显高于吉富的两家系(0.234 1和0.250 0)。Fo与GF2间遗传距离(0.477 0)最大;而GF1和GF2间的遗传距离(0.302 7)最小,遗传相似系数(0.607 3)最大,可推断新一代吉富罗非鱼与本地选育群体有相对较远的亲缘关系,更具杂种优势。     

基于小波包的地下洞室群地震响应及其频谱特性研究

基于有限差分数值模拟,在合理选择地震动力分析阻尼参数的条件下,开展白鹤滩水电工程13#机组剖面地下洞群围岩地震响应研究,并结合小波包变换方法从加速度峰值及振动能量角度评价了地震波在岩体中的传播规律及洞室群不同区域地震响应的频谱特征。结果表明：地震波传播过程中强度随高程增加而增加,层间错动带有一定减震作用;小波包分解可以较全面地给出地震响应成分的频率分布;地震波的高频分量在岩体传播过程中逐渐衰减;在地下洞室群附近,岩体地震响应的加速度峰值和振动能量频谱特征以1～3 Hz频段为主,其他频段对岩体地震响应影响较小。     

A Model Test on the Behavior of a Static Drill Rooted Nodular Pile Under Compression

A static drill rooted nodular pile is a new type of composite pile foundation with high bearing capacity, and mud emissions can be largely reduced using the static drill rooted method. This report presents a model test on the behavior of this composite pile in a test box. The load-displacement response, axial force, skin friction, and mobilized base load are discussed in the report; in particular, the force in the cemented soil was investigated based on the measured data. Moreover, the finite element software ABAQUS was used to help investigate this behavior more thoroughly. It was determined that the function of the cemented soil around the pile shaft was different from that at the enlarged pile base; the stress in the cemented soil around the shaft increased suddenly when nearing the pile base; the ultimate skin friction obtained in the model test was larger than that estimated in the field test; and the relative displacement between the precast nodular pile and the cemented soil could be ignored during the loading process, which corresponded to the result of the field test and demonstrated that the nodular pile and cemented soil act as one entity during the loading process.     

岩石视电阻率与渗透系数的关系初探

岩石的渗透性与其泥含量有关，泥质含量越高，岩石的渗透性越差；岩石的视电阻率随着岩石的泥质含量的增加而减少，岩石的渗透性强弱、视电阻率的高低都依赖于岩石本身的物理结构和性质，研究岩石的渗透能力与视电阻率的关系，对确定岩石的渗透系数、了解岩石渗透能力，地下水对渗透岩层的作用，都有一定的实际意义。     

静钻根植竹节桩承载力及荷载传递机制研究

静钻根植竹节桩是由预应力竹节桩和桩周水泥土构成的一种新型组合桩基,该新型桩不仅承载性能较好,而且可以大量减少桩基施工过程中所产生的泥浆污染。通过静钻根植竹节桩和钻孔灌注桩的静荷载对比试验及埋设在竹节桩桩身上的应变计对桩身轴力进行测量,分析了静钻根植竹节桩桩身的轴力分布情况以及侧摩阻力的分布,用有限元软件ABAQUS对静钻根植竹节桩进行三维建模计算,详细地分析这种新型组合桩的荷载传递机制。结合现场试验与模拟计算可以得到:在软土地区,静钻根植竹节桩这种新型组合桩的承载力比普通钻孔灌注桩要高;静钻根植竹节桩桩身变形由预制桩所控制,竹节桩与桩外围水泥土近似变形协调;竹节桩竹节的存在对组合桩承载性能有着极其重要的作用;在软土中静钻根植桩侧摩阻力是灌注桩侧摩阻力的1.05¹.10倍。     

静钻根植竹节桩桩端承载性能试验研究

静钻根植竹节桩是由预制竹节桩和桩周水泥土所构成的一种新型组合桩基,它主要通过桩周水泥土改善桩-土接触面摩擦性质以及桩端水泥土扩大头改善桩端承载性能。通过现场静载试验对静钻根植竹节桩桩端承载性能进行研究,并采用传统桩端沉降计算公式对其桩端沉降进行计算;通过模型试验对竹节桩桩端与水泥土扩大头相对位置不同的试桩桩端承载性能进行研究。结合现场和模型试验可以得到：桩端水泥土扩大头可以改善静钻根植竹节桩桩端承载性能;当竹节桩桩端位于水泥土扩大头中间位置时,静钻根植竹节桩桩端承载性能最好;可以用传统桩端沉降计算公式对静钻根植竹节桩桩端沉降进行计算,且当竹节桩桩端位于水泥土扩大头中间位置时,理论计算与实测曲线几乎完全吻合。     

托斯特凹陷乌伦古河组第Ⅲ旋回铀价态的研究

在沉积砂岩中铀受地球化学环境的影响以U^4＋和U^6＋的形式存在,铀的迁移和富集被砂岩的孔隙度、胶结类型、胶结程度和地下水的氧化一还原能力等因素控制。通过对铀的价态研究划分托斯特凹陷乌伦古河组第Ⅲ旋回的氧化-还原过渡带,确定了地下水的流向,这与实际情况较为吻合。     

Centrifuge study on behavior of rigid pile composite foundation under embankment in soft soil

The rigid pile composite foundation is widely used in highway projects in soft soil area as it can effectively increase the bearing capacity and stability of the foundation. While the research on the behavior and failure mode of rigid pile composite foundation under embankment is not enough, instability failure of rigid pile composite foundation often occurs in practical projects. This paper presents a centrifuge model test to investigate the load transfer mechanism, settlement characteristic and failure mode of rigid pile composite foundation under embankment. The test results show that: the soil displacement of different region in rigid pile composite foundation was different, obvious vertical displacement occurred in the soil under the center of embankment and the horizontal displacement was very small in this region; both vertical and horizontal displacement occurred in the soil under the shoulder of embankment; and obvious horizontal displacement occurred in the soil under the slope toe of embankment; moreover, ground heave also occurred near the slope toe of embankment. The soil displacement in rigid pile composite foundation had a large influence on the stress characteristic and failure mode of rigid piles, the compressive failure and bending failure would probably occur for the piles under the center and shoulder of the embankment, respectively, and the tension-bending failure would probably occur for the piles under the slope toe of embankment. The different failure modes of piles at different regions should be considered in the design of rigid pile composite foundation under embankment. The test results can be used to improve the design method for rigid pile composite foundation under embankment in practical projects.