Performance of a Horizontal Flow Constructed Reed Bed Filter for Municipal Wastewater Treatment: The Case Study of the Prototype Installed at Gaston Berger University, Saint-Louis, Senegal

In Saint-Louis, Senegal, a constructed wetland with horizontal flow reed beds (FHa and FHb) has demonstrated significant efficacy in treating municipal wastewater. Analyzing various treatment stages, the system showed only a slight temperature variation, from an influent average of 26.3°C to an effluent of 24.7°C. Electrical conductivity decreased from 1331 mS/cm to 974.5 mS/cm post-primary treatment, with suspended solids (SS) dramatically reduced from 718.9 mg/L to 5.7 mg/L in the final effluent. Biochemical oxygen demand (BOD5) and chemical oxygen demand (COD) saw a notable decrease, from initial levels of 655.6 mg/L and 1240 mg/L to 2.3 mg/L and 71.3 mg/L, respectively. Nitrogenous compounds (N-TN) and phosphates () also decreased significantly, indicating the system’s nutrient removal capacity. Microbiological analysis revealed a reduction in fecal coliforms from 7.5 Ulog/100ml to 1.8 Ulog/100ml and a complete elimination of helminth eggs. The presence of Phragmites and Typha was instrumental in enhancing these reductions. The system’s compliance with the Senegalese standards for disposal into natural environments, WHO recommendations for unrestricted water reuse in irrigation, and the European legislation for water reuse was established. The effluent quality met the stringent criteria for various classes of agricultural reuse, illustrating the system’s potential for sustainable water management. This wetland model presents a robust solution for water-stressed regions, ensuring environmental protection while supporting agricultural needs. The study calls for ongoing research to further refine the system for optimal, reliable wastewater treatment and water resource sustainability.

Estimating horizontal scale of fluctuation with limited CPT soundings

The paper explores the possibility of estimating the horizontal scale of fluctuation(δ_h) with limited CPTs.The following conditions are desirable:(1) the CPT depth is large;(2) there are more than two CPTs;(3)the CPT separation distances are distinct and preferably less than 2×δ_h; and(4) the Whittle-Matern auto-correlation model is adopted.

Integrating Geology and Engineering for Viscous Oil Production Improvement—JX Oilfield, Bohai Bay, China

In this paper a case study is presented where refined 3D reservoir geology models, well pattern pilot test and Real-time GeoSteering tools have been integrated to optimize production performance of a viscous oil reserve. The viscous reserves were of high structural dip angle. In addition delta depositional system represented highly variable geomorphology, where stacked sandbodies and shale bedding are crossing each other frequently. In order to keep a higher production rate, using horizontal wells along with water injection was not enough;therefore, detailed reservoir characterization, well pattern pilot experiment and GeoSteering were used to optimize previous development strategy and keep horizontal trajectories safely landing into reservoir target zone. The stratigraphic sequence architecture that is derived from seismic interpretations captured the variation within these high dip structural backgrounds very effectively. The best combination of choices was “Injecting Water outside from OWC” and “Stair Shaped Horizontal Trajectories”. The borehole collision risks of these optimized strategies were then analyzed and controlled successfully by the GeoSteering tools during trajectory landing process. The reservoir development performance is improved tremendously as result of these renewed development strategies.

Stability analysis of seabed strata and casing structure during the natural gas hydrates exploitation by depressurization in horizontal wells in South China Sea

Natural gas hydrates(NGHs)are a new type of clean energy with great development potential.However,it is urgent to achieve safe and economical NGHs development and utilization.This study established a physical model of the study area using the FLAC^(3D) software based on the key parameters of the NGHs production test area in the South China Sea,including the depressurization method,and mechanical parameters of strata,NGHs occurrence characteristics,and the technological characteristics of horizontal wells.Moreover,this study explored the law of influences of the NGHs dissociation range on the stability of the overburden strata and the casing structure of a horizontal well.The results are as follows.With the dissociation of NGHs,the overburden strata of the NGHs dissociation zone subsided and formed funnelshaped zones and then gradually stabilized.However,the upper interface of the NGHs dissociation zone showed significant redistribution and discontinuity of stress.Specifically,distinct stress concentration and corresponding large deformation occurred in the build-up section of the horizontal well,which was thus prone to suffering shear failure.Moreover,apparent end effects occurred at the end of the horizontal well section and might cause the deformation and failure of the casing structure.Therefore,it is necessary to take measures in the build-up section and at the end of the horizontal section of the horizontal well to prevent damage and ensure the wellbore safety in the long-term NGHs exploitation.

串珠状溶洞数量影响灌注桩顶部水平受拉特性试验研究

采用室内模型试验,对比研究串珠状溶洞数量对灌注桩顶部水平受拉特性的影响,为岩溶强发育区嵌岩桩的水平承载力设计提供试验依据.结果表明:1)桩顶水平荷载相同时,上部土层段桩身水平位移、桩身弯矩(峰值)、桩侧土抗力随溶洞数量的增多而增大,单桩水平承载力随溶洞数量增多而明显减弱.2)上部土层段桩身水平位移随桩顶水平荷载增大而增大,桩顶水平位移最大,嵌岩段很小甚至为0;弯矩M-深度z曲线整体呈抛物线形,桩身弯矩在土岩界面和上层溶洞与底板界面呈现2个峰值,弯矩的变化仅仅影响到上层溶洞及其底板,第2层溶洞及其以下的弯矩几乎为0,土岩界面弯矩最大、截面最危险;土抗力p-深度z曲线呈“凸肚”形.3)溶洞数量增加,位置越高,p-y曲线越容易收敛,可以采用p/pub=α(y/y50)β拟合土层段的桩身p-y曲线.溶洞数量对α与β值变化幅度的影响较小,α与β值变化幅度体现p-y曲线随深度变化的敏感度,两者敏感度随溶洞数量增多而增大.4)工程桩刺穿串珠状溶洞时,为了提高单桩水平抗拉能力,建议采用注浆法改善上部岩土性质,加大土岩界面处桩身配筋率,并将桩身嵌入上层溶洞底板一定深度,防止基桩在土岩界面处发生弯曲破坏.

水平联合竖直排水板真空预压处理工程废浆试验研究

传统真空预压法(VP)在加固工程废浆时存在预制竖向排水板(PVD)易淤堵、周围土体形成土柱以及真空度随深度衰减等问题,考虑到预制水平排水板(PHD)在真空预压法处理软土地基中的特点,提出一种水平联合竖直排水板真空预压(PHD-PVD-VP)处理工程废浆的方法。通过4组大型室内模型试验,对工程废浆加固过程中的排水、沉降以及孔隙水压力进行监测,并借助扫描电镜得到的排水板滤膜微观图片,分析不同初始PHD真空压力下PHD-PVD-VP对工程废浆的加固效果。试验结果表明,PHD-PVD-VP处理工程废浆时减少了土颗粒径向移动速率,延缓“土柱”的形成及缓解土颗粒嵌入排水板滤膜的淤堵效应,提升了土体整体固结效果;40 kPa的初始PHD真空压力使PHD-PVD-VP对工程废浆的排水固结效果最佳,处理后土体的平均含水率和十字板剪切强度分别为40.9%和25.5 kPa,有效地缓解了PHD和PVD的淤堵并改善了土体固结的均匀性。通过微观结构分析发现,PHD初始真空压力的大小同时影响着PHD与PVD滤膜的淤堵情况,从而影响其排水性能,40 kPa的初始PHD真空压力使得两种排水板的排水性能都得到充分发挥。

沁水盆地南部煤层气地质工程一体化关键技术

沁水盆地南部煤层气资源丰富,但地质、工程条件复杂,樊庄成熟工艺技术推广邻区适应性较差,煤层气规模效益开发面临严峻挑战。为了解决沁水盆地南部煤层气“井位部署难度大、钻井周期长、裸眼井井眼易垮塌、单井产量低”等问题,开展了地质工程一体化技术攻关,形成了“三性”煤储层评价、可控水平井钻完井、分段压裂及疏导式排采等多项关键技术,并开展现场试验与推广。研究结果表明:通过地质与工程有机结合,实现了地质模型为工程技术优化提供技术支撑,工程实践不断校正地质模型,施工精度提高;水平井煤层钻遇率95%,单井钻井复杂平均减少40%,产能到位率达90%,单井平均日产量超过8000 m^(3)。

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。

天津市汉南路桥梁场地工程地质条件及土层地震反应分析

汉南路改线及配套服务区项目为天津市建设世界一流大港集疏运北部通道基础设施工程,工程沿线有北疆电厂专用线铁路桥和南堡铁路大桥。汉南路桥梁工程作为重要生命线工程,需在工程建设开始前进行场地地震安全性评价。本文综合前人在区域范围内地震活动性和地震构造研究成果,基于场地地震工程钻孔勘探与测试数据,建立了场地土层一维波动模型,完成了场地地表地震反应计算,取得主要成果:1)两个桥梁工程场地50年超越概率10%对应的地表水平加速度峰值分别为0.209g和0.213g;2)工程全线均位于地震动峰值加速度分区中的0.2g区。汉南路桥梁场地土层地震反应分析工作为后续工程建筑规划、震害预测和抗震设计提供了重要依据,对场地地震地质灾害评价具有重要意义。

深回填土砂泥岩组合地层桩锚围护基坑的变形规律

[目的]目前工程界针对基坑的研究大多数基于软土基坑和岩质基坑的经验,重庆地区为深回填土砂泥岩组合地层,需展开基坑变形规律研究。[方法]以重庆轨道交通10号线兰花湖停车场基坑工程为背景,基于现场监测数据,总结围护结构水平位移,围护桩后地面沉降的变化规律,进而围护结构水平位移与桩后地面沉降相关性。[结果及结论]围护桩最大侧移δh变化范围为0.048%H~0.103%H(H为开挖深度),远小于软土地区的统计结果;最大地面沉降δv介于0.033%H~0.220%H,小于卵石和软土基坑,与青岛土岩组合基坑较为接近;基坑开挖影响范围为H~1.5 H;基坑最大地面沉降δv与围护结构最大侧移δh关系可表示为δ_(v)=0.45δ_(h)~2.35δ_(h),均值为1.31δ_(h);地面沉降包络面积和围护结构侧移包络面积比值近似为1.67。

地下室工程“桩墙合一”技术优化及应用

为解决基坑作业面狭小问题,兼顾减少土方施工工作量、节约资源、节省造价,论文基于重庆某工程实例,简述“桩墙合一”技术优化思路及应用,包括利用人工挖孔桩与旋挖灌注桩形成咬合桩,代替原方案地下连续墙,采用环形支撑,实现咬合桩与地下室外墙合一、水平支撑与地下室结构板合一、内支撑格构柱与结构柱合一等;同时,对优化方案进行工期和经济效益对比分析。实践表明,该“桩墙合一”优化方案保证了施工安全和质量,经济效益可观,可为同类工程提供参考。

Upper-Bound Limit Analysis of the Multi-Layer Slope Stability and Failure Mode Based on Generalized Horizontal Slice Method

Multi-layer slopes are widely found in clay residue receiving fields.A generalized horizontal slice method(GHSM)for assessing the stability of multi-layer slopes that considers the energy dissipation between adjacent horizontal slices is presented.In view of the upper-bound limit analysis theory,the energy equation is derived and the ultimate failure mode is generated by comparing the sliding surface passing through the slope toe(mode A)with that below(mode B).In addition,the influence of the number of slices on the stability coefficients in the GHSM is studied and the stable value is obtained.Compared to the original method(Chen’s method),the GHSM can acquire more precise results,which takes into account the energy dissipation in the inner sliding soil mass.Moreover,the GHSM,limit equilibrium method(LEM)and numerical simulation method(NSM)are applied to analyze the stability of a multi-layer slope with different slope angles and the results of the safety factor and failure mode are very close in each case.The ultimate failure modes are shown to be mode B when the slope angle is not more than 28°.It illustrates that the determination of the ultimate sliding surface requires comparison of multiple failure modes,not only mode A.

面向工程教育专业认证的工程光学综合实验教学改革与实践

依据《工程教育认证标准》,结合工程光学实验课程现状及问题分析,对工程光学综合实验进行了教学改革与实践,构建了以学生为中心、以学习产出为导向的实验教学体系。采用线上与线下结合的教学方式,融入工程情境,从横向知识广度与纵向知识深度丰富和拓展了实验内容,加深学生对实验内容的理解并完成实验。通过实验教学情境的设计,拓展了学生知识面。建立合理有效的考核及反馈机制,使学生完成学习反馈与改进;课程目标达成度用于分析持续改进的教学方案。实践证明,工程光学综合实验教学改革满足工程教育专业认证要求,提高了学生的自主学习能力、解决工程问题的能力和创新能力。

上承式拱桥立柱及盖梁平吊竖转施工工艺的创新

针对上承式拱桥拱上钢立柱及盖梁传统吊装方案存在的吊装节段多、施工周期长、高空焊接量大、安全风险高和施工成本高的缺点,提出了上承式拱桥立柱及盖梁平吊竖转施工新技术。分析了平吊竖转主要影响因素,提出了平吊竖转立柱尺寸需要满足的条件,并对立柱、立柱-盖梁组合体吊具设计方案进行了优化。通过工程实践证明,平吊竖转新技术,不仅有力地保障了施工质量,还节约工期72 d,降低高空作业安全风险66%,节约施工成本932万元,可以在类似工程中推广应用。

沁水盆地古交区块煤层气水平井产能影响因素分析

近年来,水平井逐渐成为中国煤层气开发的主要井型,在多个区块取得显著产气效果,但井间产量差异大,整体达产率偏低。为摸清煤层气水平井产能影响因素,从地质因素、工程工艺和排采管理等方面展开研究。选取沁水盆地北部古交区块20口煤层气L型水平井,在地质条件和生产动态剖析基础上,筛选出含气性、井控地质储量、钻井质量、储层改造、生产动态参数等10个关键参数,探讨了对煤层气水平井产能的影响,并提出适用于研究区地质条件的针对性技术对策。研究表明:位于构造高部位的煤层气水平井,含气量、含气饱和度和井控地质储量是实现水平井高产的资源基础;在构造简单和断层不发育的情况下,水平段长应在600 m以上,且保证煤层钻遇率80%以上;水平段长600~800 m时,压裂段数应控制在10段以下,压裂段长最佳为60~80 m;尽量降低排采中断次数,提高排采连续性,在排水期和提产期要分别制定不同合理压降速率,增大泄压面积,实现煤层气水平井产能最大释放。

不同接头类型地下连续墙受力特性研究

以浦东机场南区地下交通枢纽工程为例,通过建立数值模型分析了不同地下连续墙接头在基坑工程的应用效果,并对比选择了最佳接头类型。研究结果表明:地下连续墙接头部位的水平位移随着基坑的不断开挖而增大;接头位移在基坑开挖至底部时达到最大值66.3mm,在开挖过程中水平位移较大的部位基本位于基坑的中上部,要预先做好预警工作和应急预案,避免发生大面积渗漏的情况;接头类型不同时,地下连续墙对应部位的水平位移有所差异,选择刚性接头时地下连续墙传递应力的能力更好,承载能力更强,位移变形较小;随着基坑的开挖,地下连续墙采用H型钢接头和十字钢板接头时的水平位移变化趋势基本一致;支撑轴力在接头水平位移有显著降低的第3道混凝土支撑部位时的值较大;地下连续墙接头类型同时会对接头部位的稳定性和基坑支护结构造成较大影响;通过对比,H型钢接头更适用于背景项目。

下穿铁路咽喉道岔区线路加固体系研究

研究目的:由于道岔区轨道刚度和质量分布不均匀及其固有的不平顺性,结构受力比正线复杂。道岔一直是病害高发区域和养护维修的难点,因此顶桥下穿铁路咽喉道岔区比铁路正线风险高、难度大。基于此,本文提出一种新的受力性能好、适用范围广、应用于顶桥下穿多股道铁路咽喉道岔区的加固体系。研究结论:(1)横梁按照简支梁结构计算与实际横梁受力状态不相符,对纵横梁加固体系进行数值模拟分析时,将纵梁、钢轨、扣轨梁及岔枕等构件考虑在内,与实际工程中横梁的受力状态较为相符;(2)路基模量的变化对横梁和钢轨位移影响较小,为防止施工中顶桥区域及其两侧路基塌陷,建议采取适当注浆措施;(3)本文研究对顶桥下穿多股道既有铁路道岔区工程加固体系设计具有借鉴意义。

基于光学工程应用的全国陆地主要地区水平消光系数情况初步分析

从光学工程应用的角度对全国陆地主要地区水平消光系数情况进行了研究。首先从总体平均情况、冷暖半年、昼夜变化等三个方面对相关历史数据进行了分析。分析结果表明:总体上水平消光系数的呈现北低南高的分布;冷暖半年水平消光系数分布略有差别,暖半年水平消光系数低于冷半年的站点区域占较大面积;昼夜变化中白天水平消光系数要比夜间的消光系数偏小。在基于总体平均情况、冷暖半年、昼夜变化讨论基础上进而讨论了全国陆地主要地区水平消光系数的区域分级情况,发现适合光学工程应用的1级区主要分布在我国北方及西部地区。研究结果有助于了解全国适于开展光学工程应用的区域,并可为进一步研究水平消光系数对光学工程应用产生的定量影响提供参考。

边帮煤井工开采边坡变形失稳规律及控制技术研究

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