基于FLAC3D平台的边坡非饱和降雨入渗分析

为研究降雨入渗条件下三维边坡渗流场的变化过程,在全面研究FLAC3D软件渗流分析模块功能及算法的基础上,通过编写FISH函数完善了FLAC3D软件的非饱和渗流计算功能。基于降雨入渗机制的分析,编写了降雨入渗及停雨出渗边界的FISH函数,实现边坡三维降雨入渗过程的模拟。通过降雨条件下算例边坡的饱和非饱和渗流场变化过程的数值计算,研究了降雨入渗引起的边坡暂态饱和区变化过程,并与已有研究成果进行对比分析,从而验证了自编FISH函数实现边坡三维非饱和渗流计算结果的正确性。研究成果表明,文中提出的边坡三维非饱和降雨入渗分析是可行的,同时也为三维边坡非饱和渗流场的研究提供了一条有益的途径。     

人工回灌物理堵塞特征试验及渗滤经验公式推导

人工回灌是提高水资源利用水平的重要工程措施,然而回灌过程中的堵塞问题会影响入渗效率和入渗工程的使用寿命。为了深入研究堵塞的机理,以控制堵塞问题,通过砂柱试验模拟了地下水人工回灌物理堵塞过程,通过测定含水率的变化分析了由堵塞引起的砂柱饱和-非饱和状态的转化。试验中出流速率经过了迅速增大到一峰值后快速减小,然后又缓慢变小的过程,即：仅经过72 h的回灌,砂柱的出流速率减小为2.18 m/d;72 h后砂样出流速率的减小明显放缓;192 h时,砂样出流速率为0.81 m/d,约为出流速率最大值的1/10。试验结果表明：回灌水悬浮物颗粒进入砂样空隙中引起渗透性减弱,和逐渐沉积在砂柱顶部形成的淤泥层是造成堵塞的直接原因,而淤泥层的形成是造成渗滤速率迅速下降的关键因素;淤泥层的弱透水性使砂样由上至下含水率发生了变化,导致了砂样导水率和水力梯度都降低,促使回灌渗滤速率迅速减小;回灌时间越长,淤泥层厚度越大,出流速率越小。由10组对比试验的结果,综合考虑引起雨洪渗滤系统堵塞的各种因素,建立了无砾石滤料雨洪水回灌过程计算渗滤速率变化的经验模型,拟合结果决定性系数为0.932。     

古建筑基座渗漏监测及诱因分析

为研究某古建筑基座渗漏特征及其诱因,采用现场调研、水分场原位监测、室内试验和数值分析方法,针对基座水分场开展了系统研究,深入分析了基座渗漏病害根源、降雨期间基座内部水分场的时空分布特征和水分迁移规律。结果表明,古建筑基座渗漏的根源是降雨影响,与基座外侧的花坛浇灌用水无关,基座顶部以下2.0 m范围内易于受到降雨的影响,且水分有由基座顶部向基座底部迁移趋势,揭示出：基座顶部的海墁以下防渗层可能失效,基座内部夯土可能形成渗流通道;在2个水文年内,基座外墙以内的3.0 m范围内夯土基本达到饱和,易受到降雨影响而出现泛碱、掉皮、渗漏等现象,10个水文年后水分向基座劵门拱圈部位夯土迁移,并形成稳定水分场,在渗透压力下劵门拱圈部位形成流痕和墙皮脱落现象;通过多手段综合分析,能够深入了解基座病害的演化规律和形成机制,为类似古建筑基座的防渗漏修复措施的确定能够提供科学的参考。     

Internal Resonances for Heave, Roll and Pitch Modes of A Spar Platform Considering Wave and Vortex-Induced Loads in the Main Roll Resonance

We present a study of the nonlinear coupling internal resonance for the heave roll and pitch performance of a spar platform under the wave and vortex-induced loads when the ratio of the frequencies of heave, roll and pitch are approximately 2:1:1. In consideration of varying wet surface, the three DOFs nonlinear coupled equations are established for the spar platform under the effect of the first-order wave loads in the heave and pitch, and vortex-induced loads in the roll. By utilizing the method of multi-scales when the vortex-induced frequency is close to the natural roll frequency, the first-order perturbation solution is obtained analytically and further validated by the numerical integration. Sensitivity analysis is performed to understand the influence of the damping and the internal detuning parameter. Two cases with internal resonance are shown. The first case is that no saturation phenomenon exists under small vortex-induced loads. The first order perturbation solution illustrates that only the vortex-induced frequency motion in roll and the super-harmonic frequency motion in heave are excited. The second case is that the vortex-induced loads are large enough to excite the pitch and a saturation phenomenon in the heave mode follows. The results show that there is no steady response occurrence for some cases. For these cases chaos occurs and large amplitudes response can be induced by the vortex-induced excitation.     

黄河三角洲南部冲洪积扇区地下淡水调蓄条件研究

黄河三角洲南部冲洪积扇区浅层地下水由于长期大量开发利用,早已形成了区域性漏斗群。通过对漏斗区地下水赋存条件和调蓄条件的分析,提出了由新建的引黄主干渠引黄河水,采用河渠、坑塘内施工回灌引渗,以及丰水期大气降水地表径流拦蓄引渗和引黄河水引渗回灌联合调度的方案,并从调蓄资源增量、调蓄可行性和调蓄效益等方面进行了论证。     

Do biological soil crusts determine vegetation changes in sandy deserts? Implications for managing artificial vegetation

Biological soil crusts (BSCs), which are widespread in arid and semiarid regions, such as sandy deserts, strongly influence terrestrial ecosystems. Once sand‐binding vegetation has been established on sand dunes, BSCs are colonized and gradually develop from cyanobacteria dominated crusts to lichen and moss dominated crusts on dune surfaces. We conducted this study to determine if the occurrence and development of BSCs in the Tengger Desert could be used to determine sand‐binding vegetation changes via altering soil moisture and water cycling using long‐term monitoring data and field experimental observation. BSCs changed the spatiotemporal pattern of soil moisture and re‐allocation by decreasing rainfall infiltration, increasing topsoil water‐holding capacity and altering evaporation. Changes in the soil moisture pattern induced shifting of sand‐binding vegetation from xerophytic shrub communities with higher coverage (35%) to complex communities dominated by shallow‐rooted herbaceous species with low shrub coverage (9%). These results imply that BSCs can be a major factor controlling floristic and structural changes in sand‐binding vegetation and suggest that the hydrological effects of BSCs must be considered when implementing large‐scale revegetation projects in sandy deserts. Copyright © 2010 John Wiley & Sons, Ltd.     

台塬塬顶裂缝对黄土斜坡水文响应的影响

针对黑方台黄土滑坡,从现场灌溉试验监测数据和数值模拟分析着手,研究灌溉过程中台塬斜坡的水文响应以及对黄土斜坡稳定性的影响。结果表明：短期的灌溉并不能对地下水位形成有效的补给,但是却容易引起斜坡浅部范围内体积含水量增加,从而使得抗剪强度降低,最终在台缘顶部发生滑塌,台塬顶部裂缝的存在会使得浅部体积含水量增加速度加快,加速土体弱化,更易发生台塬顶部的滑塌;从长期灌溉模拟来看,裂缝的存在会加速地下水位的上升。从数据上论证了黄土斜坡受裂缝的影响特性,为研究黄土滑坡与地表水入渗的关系提供数据参考。此外,数值模拟与监测数据有很好的对应关系,用其模拟灌溉引起的斜坡水文响应是可行的。     

基于矩分析的垄沟灌入渗湿润体特征

为指导垄沟灌溉技术参数的合理设计,利用验证的HYDRUS-2D模型模拟不同土壤物理性质、耕作技术参数和灌水技术参数组合的垄沟灌土壤水分入渗过程,采用空间矩分析方法定量分析不同因素对入渗湿润体特征量及椭圆特征值的影响。结果表明:矩分析垄沟灌溉入渗湿润体呈扁平椭圆状;初始含水量对湿润体特征量的影响较其它因素小;垄沟灌溉宜在质地重的土壤条件下应用;随沟底宽度和灌溉水深增大,椭圆面积亦增大,椭圆长短轴差异明显,显著加大水平侧渗距离,砂壤土宜窄沟种植,黏壤土宜宽沟灌溉种植,较高的灌溉水深可增加侧渗,有利于提高灌水均匀度。空间矩分析为研究土壤水空间分布特征提供了一种强有力数学方法。     

Two universal runoff yield models: SCS vs.LCM

Runoff calculation is one of the key components in the hydrological modeling. For a certain spatial scale, runoff is a very complex nonlinear process. Currently, the runoff yield model in different hydrological models is not unique. The Chinese LCM model and the American SCS model describe runoff at the macroscopic scale, taking into account the relationship between total actual retention and total rainfall and having a certain similarity. In this study, by comparing the two runoff yield models using theoretical analyses and numerical simulations, we have found that: (1) the SCS model is a simple linear representation of the LCM model, and the LCM model reflects more significantly the nonlinearity of catchment runoff. (2) There are strict mathematical relationships between parameters (R, r) of the LCM model and between parameters (S) of the SCS model, respectively. Parameters (R, r) of the LCM can be determined using the research results of the SCS model parameters. (3) LCM model parameters (R, r) can be easily obtained by field experiments, while SCS parameters (S) are difficult to measure. Therefore, parameters (R, r) of the LCM model also can provide the foundation for the SCS model. (4) The SCS model has a linear relationship between the reciprocal of total actual retention and the reciprocal of total rainfall during runoff period. The one-order terms of a Taylor series expansion of the LCM model describe the same relationship, which is worth further study.     

非饱和粉质黏土坡面降雨非正交入渗试验研究

传统降雨入渗分析是以降雨强度在坡面上的正交分量作为边界条件,不符合实际降雨的非正交入渗规律。为了研究非饱和粉质黏土的非正交入渗规律性,首先通过对正交入渗理论的综述,揭示并分析目前降雨入渗理论在坡面流模型和边界条件方面的缺陷。采用自行研制的室内降雨试验装置对非饱和粉质黏土进行不同降雨强度、坡角和孔隙比的降雨入渗试验,结果表明,非饱和粉质黏土坡面降雨入渗是并非简单正交分解入渗而是非正交入渗;对于坡角和孔隙比为定值的土坡,具有最大坡面入渗的最优雨强;土的孔隙比越小,降雨初期入渗率随时间变化越快,入渗率趋于稳定状态越快;入渗率和累积入渗量并不是随坡角的增大呈单调变化,而存在对应入渗水量最少的最优坡角。