Effects of Water Regime and Reaction of Soil on Properties of Newly-Formed Humic Substances

The effects of soil water regime and soil reaction on nitrogen distribution and fractional composition of newly-formed humus (decayed products) and the structural characteristics of the newly-formed humic acids (HAs) were studied in an incubation experiment, with the following results obtained:1. The humus newly formed under submerged conditions was higher in the relative content of α-amino acid-N and the humic acid/ fulvic acid (HA/ FA) ratio than that under upland conditions. The HAs extracted from the former were also higher in C / O ratio, aromaticity and the contents of methoxyl groups and lignin-like components, but lower in the content of carboxyl groups than the HAs from the latter.2. Under upland conditions, the C / organic N ratio and the relative content of mobile HA of newly-formed humus were lower, but the HA / FA ratio was higher in the CaCO3-amended treatment than in non-amended treatment. The presence of CaCO3 also resulted in a decrease of C / N ratio of HA and a slight increase of its carboxyl group content. On the other hand, there was no significant change in the composition and properties of the newly-formed humus with the addition of CaCO3 under submerged conditions.3. Compared with soil HAs, the newly-formed HAs contained more carbohydrates, polypeptides and lignin-like components, and were in lower degrees of oxidation and humification.

土壤活性组分界面重金属同位素分馏行为研究进展

近年来,多接收电感耦合等离子体质谱仪(MC-ICP-MS)及分离纯化技术的发展使得精确测量重金属稳定同位素组成成为可能,大大促进了其在重金属污染物来源识别、土壤-植物系统重金属迁移和纳米颗粒环境行为示踪等方面的应用。但是,许多表生环境地球化学过程会引起不同程度的同位素分馏,从而模糊不同重金属储库的同位素指纹特征,使得对环境样品同位素组成的理解变得复杂,被称为“同位素分馏黑箱”。揭示同位素分馏黑箱对于重金属非传统稳定同位素的应用具有重大意义。尽管重金属在各种土壤活性组分界面反应过程中的重金属同位素分馏已有一些研究,但有关矿物结构发生同晶替代过程中的分馏机制尚不清楚,且存在许多不一致或矛盾的地方。本综述系统总结了典型重金属污染物Cd、Zn、Ni在土壤活性组分界面,尤其是铁锰氧化物矿物界面的同位素分馏行为和机制,并指出未来应关注的方向。相关研究的深入将加深对重金属污染物环境地球化学行为的理解,推进对土壤同位素分馏黑箱的理解和非传统稳定同位素在土壤重金属污染物溯源、示踪等过程中的应用,为土壤重金属污染的治理、修复和安全利用等提供科学依据和理论支撑。

基坑中软土的水平抗力系数几种确定方法探讨

该文围绕基坑中软土的的水平抗力系数的确定方法开展了探讨,分析了基坑规程中土的水平反力系数的比例系数m值的来源,分析了水平抗力系数确定的理论,罗列了现行规范中软土的水平抗力系数的经验值,最后通过案例分析,将3种土的水平抗力系数的计算方法(m值、k值和c值)的计算结果与实测进行了比较,发现按目前基坑规程公式计算的软土的水平反力系数的比例系数m值偏小的现象。

滑坡作用下埋地管道的弹塑性地基反力解析法

目前关于弹塑性地基中滑坡段埋地管道的解析计算研究较少,计算结果不够精确。为探讨滑坡段埋地管道与土体接触的非线性特征,基于地基反力法,采用简化的弹塑性本构模型来模拟非线性管-土的相互作用,提出了埋地管道与土体相互作用的弹塑性地基反力解析法控制方程组,根据管道变形的连续性条件及边界条件求得管道挠度和内力的解析解,对管道变形和内力进行计算。结合算例进行分析,选取不同参数,探讨了地基反力系数k 0对管道变形和内力的影响。研究结果表明:随地基反力系数的增大,管道最大挠度、滑体中部管道弯矩及Mises应力逐渐减小,滑坡周界处管道弯矩及Mises应力逐渐增大;地基反力系数增大,土体对管道约束作用加强,从而引起管道挠度和内力的变化。与Winkler地基反力法相比,基于弹塑性地基反力法的滑坡作用下管道力学分析理论上更为严谨,有效地提高了计算精度。

残坡积粉质黏土遇水强度衰减机制及其稳定性评价模型优化

本文以大渡河某公路工程区残坡积粉质黏土为研究对象,通过一系列试验对其遇水后强度变化规律及衰减机制展开研究,并优化该类边坡稳定性评价模型。研究表明:随含水率提高,残坡积粉质黏土剪应力—剪切位移曲线由应变硬化型向应变软化型发展,而饱水后剪应力—剪切位移曲线基本保持为低缓的应变硬化型特征,抗剪强度呈现出持续衰减直至稳定的发展趋势。粉质黏土强度参数均随含水率提高而快速降低,黏聚力水敏感性强于内摩擦角,研究构建出黏聚力、内摩擦角与含水率的函数模型;以饱水24h为临界时间点构建强度参数与饱水时间的分段函数。受粉质黏土中黏土矿物与少量易溶矿物影响,遇水后土体内水解、化合、置换反应将导致细观结构损伤缺失,加之孔隙水对细小矿物颗粒的润滑、软化作用,综合导致摩擦强度、黏聚强度的降低,进而表现为粉质黏土力学强度衰减。以瑞典条分法为基础,结合粉质黏土在不同含水率、饱水时间条件下的强度变化函数规律,优化建立由非饱和至持续饱和状态下的稳定性评价过程模型。

石油烃污染土壤阴燃反应特性及修复效果研究

石油开采和运输过程中会产生大面积的石油污染场地,亟需修复。本研究以石油烃污染土壤为研究对象,采用自制的阴燃小试装置研究土壤热值、含水率和空气流量等因素对污染土壤阴燃反应特性及修复效果的影响,并探究了石油烃污染物在阴燃过程中降解路径。结果表明:石油烃污染土壤的阴燃反应温度区间为200~600℃,修复率普遍高于98.5%。当含水率增加5%时,阴燃峰面传播速率约减小46.3%,土壤含水率越高则阴燃峰面传播速率越小;当热值增加1.81 MJ/kg时,阴燃平均峰值温度会升高300℃。阴燃峰值温度随污染土壤热值的升高而增加;当空气流量为15~25 L/min时,阴燃峰面传播速率随空气流量的提高而增加。污染土壤阴燃过程中烯烃类物质的双键基团易被氧化断裂生成醛类物质,同时长链烷烃类物质的碳键易断裂生成中链烷烃类物质。研究显示,阴燃对石油烃污染土壤的修复效果显著,并且可以通过对影响因素的调控实现对阴燃过程的控制,相关结果将为有机污染土壤阴燃修复技术的工程化应用提供理论支撑。

Analysis of Penetration Depth of Pipeline on Cohesive Soil Seabed

This paper conducts laboratory tests to investigate detailedly the soil deformation law around the pipeline and its penetration depth under self-gravity. The seabed model is prepared by consolidating saturated soil using vacuum pressure technology, and the pipeline models are specifically designed to possess different radii. Based on the experimental results and digital images, the soil deformation process is analyzed and summarized, a kinematic admissible velocity field is given and an upper bound solution of pipeline penetration depth and soil reaction force is derived and proposed in this paper. In order to verify the accuracy of the upper bound solution deduced in this paper,a comparison is made among some published results and the solution suggested in this paper, the comparison results confirm that the upper bound solution and the soil failure mode are reasonable. Finally two empirical formulas are given in this paper to estimate the soil reaction force of seabed and the penetration depth of pipeline. The empirical formulas are in agreement with the upper bound solution derived in this paper, and the conclusion of this paper could provide some theoretical reference for the further study of the interaction between the pipeline and the soil.

浅层地温能岩土热物理性质及地温场特征——以山东省莒县为例

本文以山东莒县为例,采用野外调查、岩土样品热物理测试、水样测试、现场热响应试验、地温监测的方法,利用现场数据及实验室测试数据,总结了莒县浅层地温能不同岩土体热物理参数特征,岩土体的热扩散率、比热容与其密度呈负相关性,导热系数与其密度呈正相关性。浅层地热水与岩石之间的化学作用没有达到平衡状态,水-岩反应微弱。浅层地温空间分布特征为北部第四系厚度较大,地温较高,西南部以红土崖组和田家楼组为主则地温较低。对莒县浅层地温能换热方式适宜性评价及概算浅层地温能资源量提供了依据,对于地源热泵系统的设计和运行具有重要的参考价值。

层状地基土水平抗力比例系数反演的杂交粒子群算法

土的水平抗力比例系数是基坑支护结构变形计算的重要参数,针对层状地基土中水平抗力比例系数反演的多目标优化问题,结合支护结构水平位移实测值和杆系有限元法,提出基于粒子群算法(PSO)的层状地基土水平抗力比例系数反分析法。给出水平抗力比例系数和目标函数精度双控的反演计算收敛条件和水平抗力比例系数最优解稳定条件。在利用基坑工程数值模型验证反演参数准确性基础上,运用工程实例进一步验证杂交粒子群算法(breedPSO)在水平抗力比例系数反演计算中的适用性。对比分析优化方法的计算效率和反演参数的收敛特性。结果表明:杂交粒子群算法具有更高的计算效率和计算精度,为合理反演水平抗力比例系数提供了有效途径。

地下砌体排水拱涵反力弹簧刚度研究

在设计地下砌体排水拱涵的全结构加固时,为了简化计算过程,将原拱涵结构与周围土体整体等效为反力弹簧。为了确定拱涵反力弹簧刚度参数正确性,探究影响拱涵反力弹簧刚度的因素,依托红旗渠项目的试验段,通过有限元法,分析砌体拱涵的材料强度、地基土层的承载力和泊松比,同时考虑了外侧土层与素填土层的含水率和泊松比对砌体拱涵反力弹簧刚度的影响。研究结果表明:侧墙反力弹簧系数随着原有浆砌片石侧墙砂浆强度的增加而增大;拱圈的反力弹簧系数随着原有砖砌拱圈砂浆与砖砌块强度的增强而增大;侧墙与拱圈反力弹簧系数随着地基土层承载力的提升而增大;侧墙反力弹簧系数随着地基土层、外侧土层、素填土层泊松比增大而增大;拱圈反力弹簧系数随着地基土层、外侧土层、素填土层泊松比的增大而减小;侧墙与拱圈反力弹簧系数随外侧土层、素填土层含水率的增大而减小;在对砌体拱涵进行计算时,将原砌体拱涵与周围土体等效为有限元法计算出的反力弹簧边界条件,并将计算结果与监测数据进行对比,发现有限元法计算的拱涵等效反力弹簧刚度具有较高的可靠性。

基于承台消弯作用的新型桩板墙结构

铁路工程中桩板墙结构变形控制标准严格,在土质地基条件下桩结构设计尺寸较大,成本普遍偏高。针对传统桩板墙受力变形特点,提出一种基于承台消弯作用的新型桩板墙结构,并采用矩阵传递法分析其力学性能及经济效益。结果表明:新型桩板墙结构在桩身锚固点引入承台,利用填土自重大幅度降低锚固段弯矩,可有效减小桩顶水平位移;结构尺寸相同时,与传统桩板墙结构相比,新型结构锚固段最大弯矩降低67%,桩顶水平位移减小61%,桩身所受最大土反力减小57%;土质地基条件下,新型结构最大填高由传统结构的12 m提升至16 m,承台设计长度宜为0.46~0.48倍填高;新型桩板墙结构综合工程造价仅为传统结构的50%,经济效益显著;新型结构锚固桩桩井可由人工挖孔优化为机械成孔,在提高施工效率的同时可降低安全风险。

Study on Optimization of RAPD Conditions for Soil Microbe of Black Soil

Factors including Mg^2＋, dNTP and primer that affected RAPD were studied using orthogonal experimental design, and at the same time, anneal temperature, extending time and cycles were also studied. Finally, PCR reaction system that is feasible for black soil microbial PCR amplification was determined, containing 7 ng DNA template, 20 pM random primers, 1.5 U Taq DNA polymerase, 3.0 mM MgCl2 and 0.2 mmol ·L^-1 dNTP, with procedure： 40 cycles for 3 min at 94 ℃ （temperature）, 40 s at 37 ℃ （annealing）, 1.5 min at 72 ℃ （extension）, a final elongation step at 72 ℃ for 7 min.

Modified Conway Method for soil available nitrogen testing

The ideal reducing reagent in testing available nitrogen of soil by Conway Methodis Devard‘s alloy.The optimum ratio of soil:Devard’s alloy:1.0N NaOH solution is 5.0g:0.2g:5ml.When reaction goes on at 30℃ for 4 hours,the rate of soil NO3-N reduction is about 90%,and the recovery rate of soil NH4-N is about 95%.Some organic nitrogen can be measured at thesame time.This method is defined as the Modified Conway Method and the soil N-min is r=0.982（n=10）.In predicting soil nitrogen supplying power,the Modified Conway Method takesonly 1/6 of time needed by Conway Method.The Modified Conway Method can also be used forthe measure of soil N-min.

Application of Nuclear Analysis in Assessment of Environmental Pollution Part 1 Contamination of Plant and Soilby Fluorine

Fluorine contaminates the environment. The study of fluorine contamination profile can be made easy by the use of nuclear analytic method. Measurement of prompt gamma emitted from bombarding fluorine polluted environmental sample with proton beam from accelerator provides rapid assessment of fluorine contamination. In this paper, 340 keV proton beam induced F 19 (P,αγ) O 16 reaction is performed, measurement of prompt gamma 6130 keV gives fluorine content in the soil and leaves of plants (parasol, cotton and glossy privet), taken from the fluorine polluted area.

Flexural Behavior of Laterally Loaded Tapered Piles in Cohesive Soils

In this paper, the flexural behavior of laterally loaded tapered piles in cohesive soils is investigated. The exact solution for the governing differential equation of the problem is obtained based on the beam-on-elastic foundation approach in which the soil reaction on the pile is related directly to the pile lateral deflection. In this investigation, the modulus of subgrade reactions is assumed to be constant along the pile depth. Parametric study through numerical examples is carried out to prove the validity and accuracy of the obtained results. In general, the derived displacement field can be used to study pile response in multilayered soil profiles by subdividing the pile into a number of elements. It is found that tapered piles show stiffer behavior than that for prismatic ones having the same material volume with an optimum stress distribution along the pile depth. Accordingly, tapered piles are more efficient and economic than those having the same material volume. Verification is also carried out for the obtained results through finite element analysis and the selected number of elements gives a very good agreement for lateral deflection and a larger number of elements is required to obtain better results for bending moment because of moment loss resulting from the lack of shear diagram.

基于D-P条件等效的黏性土隧道开挖地层力学行为有限元分析

基于三轴试验应力-应变结果,获取了依托工程黏性土强度参数。通过德鲁克-普拉格条件(D-P条件)等效,实现了摩尔-库伦(M-C)黏性土材料的D-P准则模拟方法。采用“间隙约束法”模拟衬砌支护时机对地层力学行为的影响。通过数值计算讨论了黏性土盾构隧道地层参数以及施工特性对地层力学行为及支护反力的影响。研究发现:黏聚力、内摩擦角以及开挖洞径对围岩塑性区半径及支护反力的影响基本呈线性关系,随黏聚力和内摩擦角的增大,塑性区半径和支护反力明显减小,内摩擦角的影响显著于黏聚力。开挖洞径由6 m增大到14 m,塑性区半径增大约210%,支护反力增大约230%。土侧压力系数将显著影响开挖后塑性区形状、范围以及支护反力的分布。随着支护时间的延后,塑性区逐渐增大,支护反力逐渐减小,当释放的位移超过总位移的40%时,两者增减幅度均有明显降低。就依托工程而言,当将地层含水率控制在8%~15%间,当地层收敛约为总位移的20%时,可充分发挥地层自承能力从而降低支护反力。

桩承式加筋路堤荷载分担计算改进模型

基于桩间的土拱效应与加筋效应开展融合分析,建立了桩承式加筋路堤荷载分担计算的改进Hewlett模型。首先,根据土拱是否处于塑性状态,结合桩-土竖向受力平衡条件,分别求解球形拱和平面拱控制方程,并对路堤荷载进行初分配。然后,假定加筋带上覆荷载为更符合实际工况的倒三角形分布,并使用文克勒地基模型考虑加筋带影响范围内的桩间土反力,无需预设土工加筋挠度形式,即可构建并求解土工加筋受力平衡控制微分方程,进而由加筋效应对路堤荷载进行再分配。综合工程实例验证与讨论,并通过多模型对比分析,表明改进模型能够合理预测荷载分担与土工加筋受力结果。参数分析表明,改进模型能够合理预测几何、材料参数变化对桩承式加筋路堤荷载分担的影响。

土壤中铁锰结核微结构与组分研究进展

铁锰结核是土壤演化过程中形成的一种特殊新生体,其内部同心圆环带构造可用于反演古气候条件和成土环境,其组分可为微生物代谢提供营养元素和能量,进而影响土壤中养分和重金属的转化、固定与释放。本文综述了近几十年来国内外学者对土壤中铁锰结核研究所取得的进展,包括铁锰结核形成机制、演变过程与影响因素,不同地区铁锰结核微结构与组分差异,以及铁锰结核对养分转化与重金属吸附的影响。未来需进一步研究不同成土阶段铁锰结核形成速率与环境阈值,构建不同成土环境中铁锰结核演化模型,阐明铁锰结核对土壤中养分和重金属的固释机理,以期更好地理解地表关键带土壤发生过程与元素生物地球化学循环,为定量评价变化环境下土壤质量和功能提供依据。

基于高级氧化技术的铁碳复合物在环境修复中的研究进展

近年来,铁碳复合材料被广泛应用在水、土壤等环境污染修复中,这主要是因其强氧化还原能力和高效性引起的。首先综述了铁碳复合材料的主要制备方法;其次阐明了复合材料在不同的高级氧化体系中进行环境修复的原理;并回顾了近年来铁碳复合材料通过高级氧化技术进行环境修复的研究进展与应用;最后指出该种技术存在的问题,并提出可行的发展方向。