深基坑模型试验中相似土配比及其微观表征研究

相似地质模型试验是深基坑等岩土工程研究中的一种重要方法,但关于岩土体相似材料的选取、制备工艺及试验适用性等方面的研究仍存在着诸多不足。依托南通地铁1号线汽车东站某基坑工程,在了解该地区富水砂层地质条件的基础上,根据土质相似材料配制要求,选取粉细砂、重晶石粉、洗衣液、膨润土、水为原料,基于正交试验方法进行配比研究,测得不同配比条件下相似土的物理力学参数并对其开展敏感性因素分析。此外,从微观角度进一步分析了各因素对相似土性质的影响机理及其微观结构特征。结果表明:相似土密度受重晶石含量控制,呈正相关关系;黏聚力受含水率与洗骨比控制,呈负相关;内摩擦角与各因素皆呈负相关,受重晶石含量控制;压缩模量与除含水率外的3因素均呈负相关。试验中不同配比相似土的物理力学性质参数分布范围较广,可为类似模型试验中土质相似材料的配制提供参考。

黑河下游荒漠河岸地带土壤水盐和养分的空间分布特征

探讨干旱区内陆河流域荒漠河岸地带土壤水盐和养分的变化特征,对荒漠河岸生态系统的保育和恢复具有重要指导意义。以黑河下游垂直于河道的乌兰图格嘎渣监测断面为研究对象,通过野外采样调查,分析距河道4500m范围内荒漠河岸地带土壤水盐和养分在沿河梯度上的空间分布特征。结果表明:在0-50cm土层,土壤含水量、土壤容重、土壤pH、土壤电导率、土壤总碳、土壤总氮、土壤速效磷和土壤速效钾在沿河梯度上表现出显著的差异性。随着沿河距离增加,土壤含水量大体表现为下降的变化趋势,在300m和2950m处达到峰值,均值分别为26.57%和8.72%;而土壤容重呈相反的变化趋势,在4500m处最高,均值为1.73g·cm^-3。土壤pH值随着沿河距离的增加呈凹型变化趋势,较大值出现在距河岸300-800m和4000-4500m处,均值分别为9.21-9.24和8.7-9.18,而土壤电导率则大体呈凸型变化趋势,较大值出现在距河岸2200-3200m,均值为5.69-14.92ms·cm^-1,盐分表聚现象严重。随着沿河距离增加,土壤总碳、土壤总氮、土壤速效磷和土壤速效钾含量基本都表现出显著下降的变化趋势,在4000-4500m处值最小,均值分别为5.71、0.11、2.81和73.76mg·kg^-1,土壤养分(0-10cm)波动最为明显,由表层向下呈逐渐降低趋势。在沿河梯度上,生态输水对近河岸地带土壤的演变机制和恢复趋势有明显的促进作用,随沿河距离增加影响力渐小。在荒漠河岸生态系统恢复中,可在垂直河岸梯度上延长生态输水距离,促进地下水水位回升,有利于改善土壤结构和理化属性。

基于电容式湿度传感器的砂土水分含量测定

为了研究电容式土壤湿度传感器在砂性土壤蒸发不同阶段水分含量测定时存在测值偏差问题,采用直接称重求含水率法对比电容式土壤湿度传感器测量水分含量法,分析了初始饱和砂土柱蒸发条件下水分含量变化过程。结果表明;电容式湿度传感器量测法与电子秤量法在不同阶段含水率测值表现出差异性与相关性;传感器的插入影响试样蒸发过程:相较于原状土,前期扰动土蒸发速率偏高,中期偏低,后期基本一致。电容式湿度传感器测值偏差是由于插入电极薄片改变了原状土壤试样蒸发条件,其偏差程度与形成机理可从微观角度阐述,电容式土壤湿度传感器测量砂土蒸发过程中水分含量时具有分段式最佳表征形式。

生物土壤结皮的表征分析与吸附去除水体中镉的试验

通过从四个典型南方稻田环境采集灌溉水,土壤和生物结皮。筛选出镉污染程度最轻的生物土壤结皮并对其进行表征分析以及去除水体中镉的性能研究,表明生物土壤结皮为生物组分和土壤矿质元素的复合体,具有大量表面官能团。性能研究表明吸附容量与平衡浓度基本呈线性关系,最大吸附容量为8.481 mg/g;对水溶液中镉的最大去除率为99.79%。对镉吸附最适pH值为7且去除率达87.03%。在含高钙环境下对镉具有选择性吸收特征,同时对于平均分子量数量级低于10~7的络合态镉亦有较好的去除效果。生物结皮对去除水体中的镉具有潜在价值。

5种典型有机磷酸酯在水-土壤界面吸附特征及影响因素

本研究通过模拟5种典型有机磷酸酯(OPEs)在水-土壤界面吸附过程,建立了3种土壤对OPEs的等温吸附方程,并探讨了不同的温度和溶解性有机碳(DOC)浓度对吸附过程的影响.结果表明,5种OPEs单体均能在吸附进行12 h后达到吸附平衡;5种单体均能较好地符合Freundlich吸附等温方程,决定系数R2范围为0. 963~0. 995;相关性分析表明,结构相似单体的平衡分配系数(Kd)值具有显著相关性(P <0. 05),说明表明除了理化性质,分子结构也是影响Kd值的因素之一.温度和DOC对吸附影响的研究表明,温度对本研究中的5种单体的Kd值影响较为显著,随着温度升高,Kd值均呈现出下降的趋势;磷酸三(2-丁氧基乙基)酯(TBEP)和磷酸三(1,3-二氯-1-丙基)酯(TDCP)的Kd值是受DOC影响最为显著的两类单体,均表现出先迅速降低然后再升高的趋势,而其他几种OPEs单体的Kd值随着DOC的增大并未表现出明显的增高或减少的趋势.

Fe^(3+)/TiO_2负载膨胀珍珠岩降解水和土壤中苯酚的研究

以膨胀珍珠岩(EP)作为载体,采用溶胶凝胶法对其进行Ti O_2、Fe3+-Ti O_2溶胶负载,制备出Ti O_2、Fe3+-Ti O_2表面修饰的膨胀珍珠岩材料(TEP、FTEP),通过SEM、TEM、XRD和FI-IR对其进行表征,实验室条件下模拟研究了EP、TEP、FTEP对水和土壤中苯酚的吸附降解效果。结果表明,450℃光催化材料为锐钛矿型,Fe3+掺杂有效提高了光催化性。本实验条件中,当达到最佳投加量时,水和土壤中的EP、FTEP、TEP对苯酚的降解率分别为23.40%、100%、100%和17.81%、66.75%、69.01%;在最适光照时间下,水和土壤中的EP、FTEP、TEP对苯酚的降解率依次为22.14%、100%、100%和17.64%、66.15%、67.51%。在实验浓度范围内,该光催化反应符合一级反应动力学方程。

Balanced nitrogen economy as a flexible strategy on yield stabilizing and quality of aquatic food crops in wetland ecosystem

In wetland ecosystem, nitrogen along with other elements and its management is most imperative for the production of so many aquatic food, non-food and beneficial medicinal plants and for the improvement of soil and water characteristics. With great significant importance of INM (integrated nutrient management) as sources, emphasizing on management on nitrogen as a key element and its divergence, a case study was undertaken on such aquatic food crops (starch and protein-rich, most popular and remunerative) in the farmers' field of low-lying 'Tal' situation of New Alluvial Zone of Indian subtropics. The study was designed in factorial randomized block design, where, three important aquatic food crops (water chestnut (Trapa bispinosa Roxb.), makhana (Euryale ferox Salisb.) and water lily (Nymphaea spp.) as major factor and eleven combinations of organic and inorganic sources of nutrients as sub-factor was considered in the experiment. It revealed from the results that the production of fresh kernels or nuts of water chestnut (8.571 ha-1), matured nut yield of makhana (3.06 t ha-1) and flower stalks of water-lily as vegetables (6.38 t ha-1) including its nutritional quality (starch, protein, sugar and minerals) was remarkably influenced with the application of both organic (neem oilcake @ 0.2 t ha-1) and inorganic sources (NPK @ 30:20:20 kg ha-1 along with spraying of NPK @ 0.5% each over crop canopy at 20 days interval after transplanting) than the other INM combinations applied to the crops. Among the crops, highest WCYE (water chestnut yield equivalence) exhibited in makhana due to its high price of popped-form in the country, which is being exported to other countries at now. Sole application of both (organic and inorganic sources) with lower range did not produce any significant outcome from the study and exhibited lower value for all the crops. Besides production of food crops, INM also greatly influenced the soil and water characterization and it was favourably reflected in this study. The physico-chemical characteristics of soil (textural class, pH, organic carbon, organic matter, ammoniacal nitrogen, nitrate nitrogen, available nitrogen, phosphorus and potassium) are most important and contributed a significant improvement due to cultivation of these aquatic crops. Analysis of such wet bodies represented the water characteristics (pH, BOD, COD, CO3 =, HCO3-, NO3- N, SO4-S and Cl-) were most responsive, adaptable and quite favourable for the cultivation of these crops in this vast waste unused wetlands for the mankind without any environmental degradation.