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1.
壳聚糖和PDMDAAC改性膨润土用于处理含油废水的研究   总被引:1,自引:0,他引:1  
含油废水污染范围广,对人类和生态环境危害大。采用常规方法(如浮选法、絮凝法、电化学法、膜分离法和生物法)处理的除油率不高于91%,成本较高,因此急需开发一种高效低廉的吸附剂。膨润土是一种优良的吸附剂,但用其直接处理含油废水的效果较低。本文选用壳聚糖和PDMDAAC两种有机物作为改性剂,对钠基膨润土改性,使膨润土能有效地处理含油废水。通过实验比较了两种有机改性膨润土处理含油废水的最佳去除条件,探讨了表征对其吸附性能的影响。去油效果结果表明:壳聚糖改性膨润土的除油率可达87.8%,PDMDAAC改性膨润土的除油率可达89.3%,处理所需时间少于15 min;除油效率和处理时间都优于常规方法。吸附性能表征结果显示,两种改性剂均以负载的方式和钠基膨润土颗粒结合,吸附性能良好;相比而言,PDMDAAC改性膨润土的处理效果比壳聚糖改性膨润土更好。PDMDAAC应用于含油废水的处理,具有成本低、效率高、操作简单的特点,在含油废水处理领域具有较好的应用前景。  相似文献   
2.
基于X射线粉晶衍射分析、化学成分分析数据,依据物质平衡原理,应用相混合计算法对陕西洋县、河南确山、内蒙古赤峰三地的膨润土进行了定量物相分析.根据电子探针微区分析所得蒙脱石晶粒化学成分数据,采用以阴离子为基准的氢当量法,计算了膨润土中蒙脱石的晶体化学式.应用CELLSR软件,计算得到膨润土中各主要矿物的晶胞参数.通过与传...  相似文献   
3.
土-膨润土系竖向隔离墙广泛应用于工业污染场地和地下水修复工程。通过坍落度和一维压缩固结试验研究添加沸石对黏性土-膨润土竖向隔离墙材料的工作性,以及压缩和渗透特性。黏性土选用高岭土,沸石-高岭土-膨润土试样中沸石掺量为2%40%。试验结果与以往沸石-砂-膨润土竖向隔离墙材料以及击实沸石-膨润土混合土研究结果进行对比,明确沸石掺量和粒径对压缩和渗透特性的作用规律。试验结果显示,满足隔离墙材料施工要求的含水率范围随沸石掺量增加而增大,并处于液限的0.9640%。试验结果与以往沸石-砂-膨润土竖向隔离墙材料以及击实沸石-膨润土混合土研究结果进行对比,明确沸石掺量和粒径对压缩和渗透特性的作用规律。试验结果显示,满足隔离墙材料施工要求的含水率范围随沸石掺量增加而增大,并处于液限的0.961.18倍。添加细颗粒沸石对试样的压缩指数和渗透系数影响较小,渗透系数小于10-9m/s。相反,添加粗颗粒沸石将导致微孔隙尺寸增大,并形成水能够通过的沸石网架结构,将显著增大渗透系数。试样渗透系数能够通过考虑孔隙比和液限的经验公式进行良好的预测。  相似文献   
4.
土?膨润土垂直防渗墙在美国已广泛应用于城市卫生填埋场中,我国的工程中则应用较少。由国产膨润土与原地层土混合在自重应力作用下固结形成的防渗墙,其渗透性、孔隙和压缩性如何受膨润土掺量的影响,针对该一问题,使用福建标准砂模拟原地层,以3种典型膨润土作为混合料,在各掺量下对砂?膨润土填筑土料开展改进柔性壁渗透试验固结试验,研究不同膨润土掺量对填筑料渗透系数k、孔隙率n与压缩系数av影响。结果表明,膨润土和砂形成防渗墙时存在一个对应最小n和av的最优掺量Copt,当膨润土掺量小于等于Copt时,随着掺量增加,填筑料k下降很快,av缓慢减小;当掺量大于Copt后,随掺量上升,k降低速度趋缓,av快速地升高。理论上,膨润土掺入较少时黏土颗粒仅填充砂粒间的孔隙而不影响砂粒堆积,掺量达到一定程度后膨润土使砂粒彼此分离,悬浮在其中,填筑料的孔隙率随掺量而增大,可能是宏观上造成最优掺量产生的主要原因。  相似文献   
5.
为了明晰黏土矿物和盐分浓度在沉积过程中所起的作用及物理机制,选取高岭土、膨润土及两者组成的混合土进行粒径分析试验、沉积试验和Zeta电位测试。结果显示,盐分环境下高岭土和膨润土的平均粒径增大,部分黏粒组向粉粒组转化。高岭土在蒸馏水环境下和盐水环境下,最终都形成土-水的稳定分界面,但是絮凝稳定时间在盐分环境下更短。膨润土在蒸馏水环境下处于稳定的分散体系中,在盐水环境下迅速絮凝沉积。混合土在蒸馏水环境下,上部澄清层和下部沉淀层之间存在土颗粒的悬浮层,且该层的高度最终稳定;盐水环境下,混合土则迅速的发生土水分离。随着NaCl浓度增加,膨润土和高岭土的Zeta电位绝对值降低,因此胶粒组的絮凝行为对平均粒径产生影响,进而影响其沉积特性。  相似文献   
6.
Recent major seismic events, such as the Chi-Chi (1999) and the Wenchuan (2008) earthquakes occurred in Taiwan and China, have offered a variety of case histories on the performance of structures subjected to reverse faulting–induced deformation. A novel faulting mitigation method has recently been proposed, introducing a soft deformable wall barrier in order to divert the fault rupture away from the structure. This can be materialized by constructing a thick diaphragm-type soil bentonite wall (SBW) between the structure and the fault rupture path. The paper investigates the key parameters in designing such a SBW, aiming to mitigate the fault rupture hazard on shallow foundations. The paper employs a thoroughly validated finite element analysis methodology to explore the efficiency of a weak SBW barrier in protecting slab foundations from large tectonic deformation due to reverse faulting. A dimensional analysis is conducted in order to generalize the validity of the derived conclusions. The dimensionless formulation is then used to conduct a detailed parametric study, exploring the effect of SBW thickness w/H, depth HSBWl/H, and shear strength τsoil/τSBW, as well as the bedrock fault offset h/H, foundation surcharge load q/ρgB, and fault outcrop location s/B. It is shown that the wall thickness, depth, and shear strength should be designed on the basis of the magnitude of the bedrock fault offset, the location of the fault relative to the structure, and the shear strength of the soil. The efficiency of the weak barrier is improved using lower strength and stiffness material compared to the alluvium. A simplified preliminary design methodology is proposed, and presented in the form of a flowchart.  相似文献   
7.
Past research has demonstrated the dramatic effects that variations in suspended clay can have on the properties of flow by producing a range of transitional flows between turbulent and laminar states, depending on clay concentration and fluid shear. Past studies have been restricted to kaolinite flows, a clay mineral that has relatively weak cohesive properties. This paper extends these studies to suspension flows of bentonite, a clay mineral that attains higher viscosities at far lower volumetric concentrations within a flow. The results show that the types of transitional flow behaviour recognized in past studies can also be found in bentonite suspension flows, but at lower suspended sediment concentrations, thus demonstrating an even more dramatic effect on flow properties, and potentially on sediment transport and resulting bed morphology, than kaolinite flows. The paper proposes new stability diagrams for the phase space of bentonite flows and compares these to past work on kaolinite suspension flows. These new data suggest that the transitional‐flow Reynolds number can be used to delineate the types of transitional flow across different clay types and assess modern and ancient clay‐suspension flows. © 2016 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd.  相似文献   
8.
Bricks made of compacted sand–bentonite mixture are considered as a possible engineered barrier to isolate high-level radioactive waste at great depth. This work is aimed at investigating some specific effects related to the presence of discontinuities at the contact between the bricks and the excavation wall. In order to do this, an experimental device was developed in the laboratory. The model is made up of a specially designed infiltration cylinder which allows the precise definition of a planar discontinuity between the compacted specimen (a sand–bentonite mixture made up of sand and Kunigel clay from Japan) and a metal wall. During hydration and subsequent specimen swelling, the planar wall is filled, resulting in a healing process. Three total pressure gauges placed along the wall allow a detailed observation of the increase in total stress against the wall. After different periods of swelling, the maximum resistance of the specimen–wall interface to pressure was tested by imposing a pressure increase through a porous stone placed at one end of the cylinder. It was found that the maximum pressure supported by the interface is a function of the initial thickness of the discontinuity and the initial density of the specimen. It was also found that the maximum sustainable pressure depends linearly on the elapsed time. These results are of interest for optimizing water infiltration procedures in either mock-up tests or real disposal systems. If the maximum sustainable pressure at the interface is known, it is possible either to ensure homogeneous hydration of a mass of bricks by respecting the maximum injection pressure limit or to accelerate hydration by forcing water paths along the discontinuities.  相似文献   
9.
Deep geological repository involving a multibarrier system constitutes one of the most promising options for isolating high‐level radioactive waste from the human environment. To certify the efficiency of waste isolation, it is essential to understand the behaviour of confining geomaterial under a variety of environmental conditions. To this end, results from a near‐to‐real experiment, the full‐scale engineered barriers in situ experiment, are studied by means of a thermo–hydro–mechanical finite element approach, including a consistent thermoplastic constitutive model for unsaturated soils. Laboratory tests are simulated to calibrate model parameters. The results of the numerical simulations are compared with sensor measurements and show the ability of the model to reproduce the main behavioural features of the system. The influence of the hysteretic and temperature‐dependent retention of water on the mechanical response is exhibited. Finally, those results are interpreted in the light of thermoplasticity of unsaturated soils, which reveals the highly coupled and non‐linear characters of the processes encountered. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   
10.
王昕  王琳琳 《吉林地质》2013,(4):157-159
在地质学科领域中,地质调查和矿产勘查是地质学科最基本的要素,是地质学的基础。测量技术作为一种重要的地质勘查辅助手段,贯穿着整个地质成果的全部过程,在地质勘查工程的发展起到了关键性作用。本文论述了吉林省磐石市烟筒山镇碱场膨润土矿地质勘查工作,测量技术的应用成果。  相似文献   
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