Numerical simulation of dynamic characteristics of a cable-stayed aqueduct bridge

In this paper, a full-scale 3-D finite element model of the Jundushan cable-stayed aqueduct bridge is established with ANSYS Code. The shell, fluid, tension-only spar and beam elements are used for modeling the aqueduct deck, filled water, cables and support towers, respectively. A multi-element cable formulation is introduced to simulate the cable vibration. The dry （without water） and wet （with water） modes of the aqueduct bridge are both extracted and investigated in detail. The dry modes of the aqueduct bridge are basically similar to those of highway cable-stayed bridges. A dry mode may correspond to two types of wet modes, which are called the in-phase （with lower frequency） and out-of-phase （with higher frequency） modes. When the water-structure system vibrates in the in-phase/out-of-phase modes, the aqueduct deck moves and water sloshes in the same/opposite phase-angle, and the sloshing water may take different surface-wave modes. The wet modes of the system reflect the properties of interaction among the deck, towers, cables and water. The in-phase wet frequency generally decreases as the water depth increases, and the out-of-phase wet frequency may increase or decrease as the water depth increases.

Optimizing CT for the evaluation of vestibular aqueduct enlargement:Inter-rater reproducibility and predictive value of reformatted CT measurements

Enlarged vestibular aqueduct(EVA), the most frequent identifiable cause of congenital hearing loss, is evaluated with high-definition multidetector CT in the axial plane. Our purpose was to determine which reformatted CT measurements are most reproducible. Seven multiplanar reformatted images were created for each of the 64 temporal bones in patients with EVA. Intraclass correlation coefficients(ICC) were used to assess inter-observer variability, and both linear regression and ROC analyses were used to compare the measurements with severity of hearing loss, as assessed by pure tone audiometry. All seven measurements had excellent inter-observer variability, with average-measure ICC ranging from 0.92 to 0.98. There was no statistically significant correlation between the radiologic degree of aqueduct enlargement and severity of hearing loss using any of the seven measurements; ROC analyses revealed areas under the curves ranging from 0.57 to 0.73. Optimal accuracy was obtained with a threshold of 1.75 mm as measured at the aqueductal aperture in the P€oschl plane, with sensitivity of 0.75 and specificity of0.63. Although the radiologic measurement may not serve as a reliable tool for assessing severity of EVA, P€oschl plane reformatting has proven to be better than conventional axial acquisition plane for identifying patients with clinically significant hearing loss.

SLC26A4 mutation testing for hearing loss associated with enlargement of the vestibular aqueduct

Pendred syndrome(PS) is characterized by autosomal recessive inheritance of goiter associated with a defect of iodide organification, hearing loss, enlargement of the vestibular aqueduct(EVA), and mutations of the SLC26A4 gene. However, not all EVA patients have PSor SLC26A4 mutations. Two mutant alleles of SLC26A4 are detected in 1/4 of North American or European EVA populations, one mutant allele is detected in another 1/4 of patient populations, and no mutations are detected in the other 1/2. The presence of two mutant alleles of SLC26A4 is associated with abnormal iodide organification, increased thyroid gland volume, increased severity of hearing loss, and bilateral EVA. The presence of a single mutant allele of SLC26A4 is associated with normal iodide organification, normal thyroid gland volume, less severe hearing loss and either bilateral or unilateral EVA. When other underlying correlations are accounted for, the presence of a cochlear malformation or the size of EVA does not have an effect on hearing thresholds. This is consistent with observations of an Slc26a4 mutant mouse model of EVA in which hearing loss is independent of endolymphatic hydrops or inner ear malformations. Segregation analyses of EVA in families suggest that the patients carrying one mutant allele of SLC26A4 have a second, undetected mutant allele of SLC26A4, and the probability of a sibling having EVA is consistent with its segregation as an autosomal recessive trait. Patients without any mutations are an etiologically heterogeneous group in which siblings have a lower probability of having EVA. SLC26A4 mutation testing can provide prognostic information to guide clinical surveillance and management, as well as the probability of EVA affecting a sibling.

基于多目标优化的箱梁渡槽结构设计研究

针对箱梁渡槽所受水荷载远大于同等跨径箱梁桥所受汽车荷载导致槽身纵向受力突出的问题,在渡槽结构设计中统筹考虑箱梁纵向应力储备和造价,构建了以截面尺寸、钢筋用量等6个参数为设计变量,以渡槽边缘正应力和造价为目标函数,以槽身挠度、法向应力等9个验算指标为约束条件的多目标优化模型,并基于支持向量机近似模型和NSGA2遗传算法求解多目标优化模型的Pareto最优解集,然后综合专家打分、COWA算子、博弈论综合赋权与TOPSIS法从Pareto最优解集中选出最佳方案。结果表明:与初始方案相比,最佳方案的渡槽边缘正应力储备提高了17.55%,渡槽上部结构总造价降低8.84%;与有限元分析相比,该方法在保持较高计算精度的同时节省了65.42%的计算时间成本。

基于Revit二次开发的渡槽正向参数化智能建模方法

针对渡槽工程在前期设计阶段单纯依靠Revit软件进行三维翻模,难以与渡槽工程实际建造节奏相匹配的问题,对Revit软件进行定制化开发,提出渡槽正向参数化智能建模方法,包括渡槽正向设计智能管理平台、渡槽构件模型参数化创建和渡槽钢筋参数化建模三部分。该方法的建立实现了对渡槽水力参数、结构参数等的设计与分类管理,简化了繁琐的建模步骤,缩短了设计人员建模时间,提高了设计效率。结合具体渡槽工程实例,对渡槽正向参数化智能建模方法的准确性及实用性进行验证,前期设计阶段的工作效率得到显著提高,为BIM正向设计在水利工程领域进行推广应用提供了新的解决方案。

非综合征型聋家系SLC26A4基因复合杂合突变

目的 研究1例前庭导水管扩大患者的遗传方式和基因突变位点。方法 以1例临床诊断为前庭导水管扩大的患者及其健康的父母为研究对象,采集其静脉血,使用全外显子测序技术检测先证者的遗传序列,进行生物信息学分析,锁定该患者可能的致病基因及突变位点,并进一步采用Sanger测序法对其父母进行相关突变位点验证,最终确定该患者的致病基因;通过单核苷酸多态性位点分析、氨基酸保守性分析及氨基酸序列分析等手段,分析复合杂合突变的致病机制,绘制突变的遗传系谱。结果 该患者致病突变定位于7q31的SLC26A4基因,由c.919-2A>G、c.1746del G以及c.563T>C 3个位点组成的复合杂合突变。SLC26A4基因的c.919-2A>G突变遗传自其听力正常的父亲,而SLC26A4基因的c.1746del G和c.563T>C突变均遗传自其听力正常的母亲。结论 先证者携带的SLC26A4基因的3个突变位点均是明确的与听力损伤相关的隐性疾病突变位点。因此,推测SLC26A4基因的上述3个突变以某种复合杂合的形式导致受检者患病。

Relationship between the external aperture and hearing loss in large vestibular aqueduct syndrome

Backgroud Large vestibular aqueduct syndrome （LVAS） is a major cause of hearing loss in childhood. This study aimed at measuring external aperture of enlargement of the vestibular aqueduct （EVA） and analyzing relationship between the size of external aperture and hearing loss. Methods Diagnostic criteria of LVAS were based on hearing loss and CT images. CT images of temporal bone of 100 LVAS patients were collected and 60 control subjects were reviewed retrospectively in the past 10 years. A battery of audiometric and vestibular function tests were performed. The width of the vestibular aqueduct （VA） was measured on axial CT images of the temporal bone. Results One hundred patients （65 men, 35 women） were diagnosed as having the isolated EVA. Hearing loss mostly occurred in early childhood. The diagnosis age of LVAS was 7.7 years on average. The causes of hearing loss could not be confirmed by initial consult. Typically, audiometric curve is the high-frequency down-sloping configuration. 92% of the cases had severe or profound sonsorineural hearing loss （SNHL）. The mean size of the external aperture was （7.5±1.2） mm in present LVAS. Statistical analysis showed that the degree of hearing loss is unrelated to the width of VA. Conclusions LVAS is a distinct clinical entity characterized by fluctuating, progressive SNHL. The degree of hearing loss is unrelated to the size of external aperture of VA. The protective management and hearing aid have become the main therapies. The cochlear implantation might be performed if the hearing loss affected learning at school.

结合BP神经网络和高阶矩法的渡槽侧墙抗弯时变可靠度分析

基于BP神经网络与高阶矩法,结合实测数据,提出了钢筋混凝土渡槽侧墙抗弯时变可靠度分析方法。为评估钢筋锈蚀影响下的渡槽侧墙抗弯时变可靠度,考虑混凝土结构中钢筋有效截面面积损失效应,导出渡槽侧墙承载能力极限状态下的抗弯时变功能函数;接着,结合钢筋锈蚀实测数据和BP神经网络原理设计钢筋锈蚀速率预测模型,通过半球形点蚀模型建立混凝土结构中钢筋有效截面面积计算公式;在此基础上,引入点估计-高阶矩可靠度理论发展渡槽结构时变可靠度分析方法,最后将提出的方法应用于某实际渡槽侧墙抗弯时变可靠度分析。结果表明:较之以往的8个实用经验模型,本文所建BP神经网络预测模型可以更准确、综合、简便、快速地预测混凝土结构中的钢筋锈蚀速率;通过与蒙特卡洛模拟法对比验证,本文方法求解时变可靠指标高效准确,可为渡槽时变可靠度评估预测提供一条有效的途径。

某高架大跨梁式渡槽抗震及隔震分析

滇中引水工程场区具有地震频发、设防烈度高的特点,为保证其渡槽设施在地震下的安全性,以滇中引水工程某高架大跨梁式渡槽为研究对象,分析其抗震性能。通过大型通用有限元分析软件ABAQUS建立了考虑流固耦合作用的单跨渡槽模型,依据场区地质条件选取地震动,对盆式橡胶支座、铅芯橡胶支座及摩擦摆支座渡槽进行弹塑性动力时程分析。结果表明,隔震支座渡槽的槽身最大位移平均比盆式橡胶支座渡槽降低25.5%,最大墩底弯矩平均降低24.3%,隔震性能良好。盆式橡胶支座比隔震支座渡槽的损伤严重,槽身与槽墩的损伤部位分别为槽底支座处、槽壁变截面处及墩底。空槽工况下,铅芯橡胶支座渡槽的最大位移比满槽增加10.4%,最大墩底弯矩降低21.4%;摩擦摆支座最大位移及墩底最大弯矩分别降低20.9%及32.2%。铅芯橡胶支座的隔震周期受上部质量影响大,而摩擦摆支座的隔震周期与上部质量无关,因此摩擦摆支座更适用于渡槽结构。

基于熵权优化FFR-BN法的梁式渡槽运行风险评价

梁式渡槽运行受多种风险因素影响,各因素之间联系及作用关系的复杂性及对因素认知的局限性常常造成风险评价结果不够精确,对此提出基于熵权优化的FFR-BN法开展梁式渡槽运行风险分析。此方法采用熵权法对主观与客观权重进行融合优化,有效解决了传统评价方法中专家打分低精度及强主观性问题。通过解释结构模型将梁式渡槽复杂系统拆分为各种子系统(因素、要素),随后分析风险因子之间的直接二元关系,从而构建复杂系统内风险因子、风险事件之间的逻辑关系框架,并在此基础上计算因子的模糊失效概率,运用贝叶斯网络的反向推理技术确定风险事件发生的最大可能路径、梁式渡槽运行风险中决定性风险因子。通过此方法计算得出实例梁式渡槽综合风险等级为Ⅰ级,关键致灾风险因子为设计洪水增加、钢筋失效、表层混凝土剥蚀、材料特性等,受所处区域地形及地质条件影响,裹头边坡防护问题导致的风险致因链是最大可能风险致因链。

黑龙滩灌区毛家河渡槽安全检测与结构计算分析

为了评估毛家河渡槽当前的安全状态,本文采用有限元法分析渡槽边墙的变形破坏机理,对渡槽的基础和槽身砌体结构进行现场检测和安全评价。结果表明:(1)渡槽砌体结构表面存在风化、剥蚀,砌体砂浆老化,局部失去黏结力,槽身渗漏严重,砂浆抗压强度和条石饱和抗压强度均不符合规范要求;(2)受槽内水荷载作用影响,渡槽过流断面内侧底部出现局部受拉现象,拉应力范围为0~20 kPa,在渡槽底部出现应力集中现象;(3)两侧边墙底部均出现剪切破坏,左边墙破坏区已贯通,右侧尚未贯通;(4)计算结果与渡槽实际破坏情况基本一致,渡槽结构不稳定。本文成果可为后期渡槽的安全加固设计提供一定的参考。

宋家嘴渡槽爆破拆除工程的实践

东风渠灌区宋家嘴渡槽因老化损坏严重,拟爆破拆除后原址重建。基于宋家嘴渡槽爆破拆除工程实例,对爆破方案选择、参数与网络设计、爆破安全、防护措施及效果等进行了较为详细的阐述与分析。实践证明,爆破方案和各项防护措施符合工程的实际情况,达到了预期的目的,对于同类型的渡槽爆破施工有一定的借鉴作用。

大型钢桁架式渡槽结构地震响应研究

针对非一致地震激励下大型钢桁架式渡槽结构的隔震响应开展研究,依托实际工程在ABAQUS中建立了渡槽结构的整体有限元模型,给出了非一致激励的输入方法和摩擦摆隔震支座的简化模型,通过试验验证了摩擦摆隔震支座简化模型的准确性,并对一致激励和非一致激励、无隔震支座和有隔震支座的数值模拟结果分别进行了对比。结果表明:中墩正上方的桁杆为渡槽结构的最薄弱位置;非一致激励会显著增大渡槽结构,尤其是边跨的动力响应;在中墩顶部设置摩擦摆隔震支座能起到较好的隔震减震效果,提升桁架结构和槽墩的地震安全性。

胡家湾渡槽预制槽身吊装施工方案研究

胡家湾渡槽拆除重建工程采用六跨连拱结构及预制矩形槽身吊装的施工技术。依据吊装工程施工的实际,对汽车吊吊装计算、资源配置、进度计划、施工工艺技术、槽身吊装特点及安全控制措施等问题进行了充分研究。工程的实施表明,槽身吊装专项施工方案合理,为吊装工程的顺利实施奠定了基础,可供类似输水结构的吊装施工借鉴。

基于博弈论-云模型的梁式渡槽风险评估研究

梁式渡槽作为大型输水工程中重要的交叉建筑物,其安全与稳定性直接决定了输水干渠的正常运行,一旦失事将会造成严重的灾害和社会经济损失。选取影响槽墩冲刷破坏、裹头边坡失稳、槽身挡水3大类12个风险指标,利用层次分析法确定主观权重、熵权法确定客观权重、博弈论赋权法确定组合权重,建立云模型风险评估模型。选取某大型输水工程6座典型梁式渡槽为研究对象,开展实例研究,结果证明本研究为大型输水工程交叉建筑物的风险评估研究提供了新思路。

南宁五化灌区马兰渡槽设计方案变更分析

根据全国最新“三区三线”划定成果,对原南宁市五化灌区马兰渡槽设计方案进行了变更。通过将原马兰渡槽设计方案与最新“三区三线”划定成果进行比较,提出了原址倒虹吸、原址渡槽两个设计变更方案。随后,从工程占地、地质条件、结构布置、施工运维等方面分析了各设计变更方案的优缺点,综合比选确定原址倒虹吸方案为最优设计方案。

基于改进云模型的湿陷性地基渡槽稳定状态评估

【目的】由于跨湿陷性黄土区的输水渡槽因服役期内的地基变形和建筑物老化,造成渡槽的服役安全性和结构稳定性难以定量评估,为对湿陷性地基渡槽的稳定状态进行评估,以宁夏固海扩灌灌区的清水河渡槽为研究对象,构建了基于湿陷性黄土地基稳定状态与渡槽建筑物稳定状态的多级评估体系耦合的湿陷性黄土地基渡槽稳定状态综合评估体系,【方法】使用云模型对湿陷性黄土地基渡槽稳定状态进行综合评估,使用AHP-熵权法对云模型进行改进,研究中使用拉格朗日乘子法将AHP法与熵权法进行耦合后计算指标权重,以提高模型权重的合理性使其更加客观精确。【结果】研究结果显示:现役清水河渡槽的湿陷性黄土地基稳定状态、渡槽建筑物稳定状态及湿陷性黄土地基渡槽整体稳定状态的云数字特征参数分别为W_(1)=(4.608,0.766,0.228)、W_(2)=(6.094,0.674,0.214)和W=(5.307,0.720,0.221)。【结论】结果表明:现役清水河渡槽的湿陷性黄土地基稳定状态、渡槽建筑物稳定状态及湿陷性黄土地基渡槽整体稳定状态分别处于V_(3)(中等)稳定状态、V4(较为)稳定状态以及V_(3)(中等)稳定状态。该评估模型可为同类湿陷性黄土区域的水工建筑物的稳定状态评估提供参考。

装配式矩形截面带栏杆整体预制渡槽关键技术研究

结合某项目实际,通过采取装配式矩形截面带栏杆整体预制渡槽结构优化和模具改进等措施,解决了预制渡槽质量大、生产困难等问题,形成装配式矩形截面带栏杆整体预制渡槽生产工艺标准,有效保证了构件质量和工程项目的顺利推进,为类似项目提供参考。

引江济淮淠河总干渠渡槽桥概念设计

引江济淮淠河总干渠渡槽桥是安徽省1号工程引江济淮河道上的一座通水、通航桥梁,桥上水体重量约4万吨,且旱、涝水位变幅极大,属于超量级可变重载。针对该桥竖向刚度和竖向位移、开口断面抗扭能力以及先建后挖的边坡稳定和基础变位等难以控制的问题进行概念设计。该桥采用左右分幅、上桁下拱的结构方案,有效控制了下挠和上拱值,较好地解决了竖向刚度和竖向位移变幅问题;采用上开下合布置形式,梁式U形槽下设置2个拱片+M形横联,有效控制了侧倾和压弯下挠,解决了U形槽的横向变形和扭转问题;采用外桁内波布置,创造性地采用了一种波形板槽壁,通过叶摆式支撑板连接在桁架桥上,解决了水槽与桥体传递力线、水凉钢热的温差效应、水体与桥槽的流固耦合等问题,并采用水工试验等验证了结构的减振作用;采用分阶段的土体开挖施工方案,形成时间差,解决了先建后挖的边坡稳定和基础变位问题;设置分流岛结构、观景平台和监控景观塔,解决了大体量桥体景观设计问题。充水试验结果表明桥梁结构状态良好。

灌渠渡槽工程高大组合支撑体系施工技术

结合涔天河水库扩建工程西干渠标段渡槽施工,以单跨最高高度58m的弄石渡槽为研究对象,分析工程施工的主要难点,提出采用高大组合支撑体系施工技术,对渡槽支撑体系主要结构设计进行详细阐述。实践证明,高大组合支撑体系施工技术能够减少支撑体系基础混凝土和钢管的用量,节约工程建设投资,降低施工安全风险,大大加快工程施工进度。