地磁房湿度对地磁观测的影响及解决方案

地磁房湿度变化较快或过大都易引起地磁数据的异常变化,且室内湿度不易控制,地磁房、磁通门磁力仪探头湿度智能在线分析监控系统可以实时显示监控地磁房、磁通门磁力仪探头湿度的变化,超过湿度阈值则发出报警信号,进而可以采用科学的方法控制探头观测环境的湿度,提高观测数据的稳定性、可靠性。本文介绍了该系统的设计思路和主要功能。     

阿青水电站沥青心墙坝渗流分析与控制

水电站的渗流计算分析是一项复杂而在设计中又极其重要的工作,很难获得符合实际的渗流分析结果。结合阿青水电站的渗流控制分析,全面阐述了水电站渗流分析中熟悉工程概况和水文地质条件,明确分析任务、概化模型、剖分网格、选取材料参数,确定了计算方案和边界条件,整理分析计算结果,进行方案比较,分析了参数敏感性的方法和过程,认为应做好上述每一个环节,对全面把握工程的渗流性状,进行防渗排水体系的方案选择和优化的重要意义。分析表明,河床最大剖面的渗流量不一定比较低坝高剖面的渗流量大,狭窄河谷心墙堆石坝坝体和坝基总的渗流量,也可能比大坝最大剖面的渗流量与坝轴线长度的乘积大。     

Using an inerter‐based device for structural vibration suppression

This paper proposes the use of a novel type of passive vibration control system to reduce vibrations in civil engineering structures subject to base excitation. The new system is based on the inerter, a device that was initially developed for high‐performance suspensions in Formula 1 racing cars. The principal advantage of the inerter is that a high level of vibration isolation can be achieved with low amounts of added mass. This feature makes it an attractive potential alternative to traditional tuned mass dampers (TMDs). In this paper, the inerter system is modelled inside a multi‐storey building and is located on braces between adjacent storeys. Numerical results show that an excellent level of vibration reduction is achieved, potentially offering improvement over TMDs. The inerter‐based system is compared to a TMD system by using a range of base excitation inputs, including an earthquake signal, to demonstrate how the performance could potentially be improved by using an inerter instead of a TMD. Copyright © 2013 John Wiley & Sons, Ltd.     

Design,simulation, and large‐scale testing of an innovative vibration mitigation device employing essentially nonlinear elastomeric springs

This study proposes an innovative passive vibration mitigation device employing essentially nonlinear elastomeric springs as its most critical component. Essential nonlinearity denotes the absence (or near absence) of a linear component in the stiffness characteristics of these elastomeric springs. These devices were implemented and tested on a large‐scale nine‐story model building structure. The main focus of these devices is to mitigate structural response under impulse‐like and seismic loading when the structure remains elastic. During the design process of the device, numerical simulations, optimizations, and parametric studies of the structure‐device system were performed to obtain stiffness parameters for the devices so that they can maximize the apparent damping of the fundamental mode of the structure. Pyramidal elastomeric springs were employed to physically realize the optimized essentially nonlinear spring components. Component‐level finite element analyses and experiments were conducted to design the nonlinear springs. Finally, shake table tests using impulse‐like and seismic excitation with different loading levels were performed to experimentally evaluate the performance of the device. Experimental results demonstrate that the properly designed devices can mitigate structural vibration responses, including floor acceleration, displacement, and column strain in an effective, rapid, and robust fashion. Comparison between numerical and experimental results verified the computational model of the nonlinear system and provided a comprehensive verification for the proposed device. Copyright © 2014 John Wiley & Sons, Ltd.     

Development of an operational rainfall data quality-control scheme based on radar-raingauge co-kriging analysis

Abstract

Automatic raingauge data often serve as an important input to hydrological and weather warning operations. They are not only fundamental in quantitative rainfall analysis, but also act as the ground truth in warning operation and forecast validation. Quality control is required before the data can be used quantitatively due to systematic and random errors. Extremely large random errors and unreasonably small or false zero values can hamper effective monitoring of heavy rain. Yet both are difficult to detect in real-time by objective means. In an attempt to address these problems, a rainfall data quality-control scheme based on radar-raingauge co-kriging analysis was developed. The important threshold values required in the data quality control of 60-min raingauge rainfall were determined from a detailed analysis of the distributions of rainfall residuals defined as the arithmetic difference and the logarithm of the ratio between a raingauge measurement and its co-kriging estimate. The scheme has been developed and is in real-time use in Hong Kong, a coastal city of about 1100 km² area with more than 150 raingauges installed. Geographically, it is located in the subtropics and dominated by heavy convective rainfall in the summer. As a basis of the quality-control scheme, the co-kriging rainfall analysis was shown through a verification exercise to be superior to those obtained by the Barnes analysis and ordinary kriging of raingauge data. The performance of the quality-control algorithm was assessed using selected cases and controlled tests, and was found to be satisfactory, with a high error detection rate for the two targeted types of error. Limitations and operational issues identified during a real-time trial of the quality-control scheme are also discussed.

Citation Yeung, H.Y., Man, C., Chan, S.T., and Seed, A., 2014. Development of an operational rainfall data quality-control scheme based on radar-raingauge co-kriging analysis. Hydrological Sciences Journal, 59 (7), 1285–1299. http://dx.doi.org/10.1080/02626667.2013.839873     

混沌遗传算法在高层结构风振控制优化中的应用研究

将混沌遗传算法(Chaos Genetic Algorithm,简称CGA)引入高层结构的风振控制优化中,对采用黏弹性阻尼器来控制风振响应的高层结构进行参数优化;用Matlab语言编制了均布法、迭代法、简单遗传算法(Simple Genetic Algorithm,简称SGA)和混沌遗传算法的风振控制优化分析程序;对9个高层结构进行风振控制优化,对比了算法程序的计算效率以及无控、均布、迭代、SGA和CGA工况下的结构风振响应。研究结果表明:混沌遗传算法可以应用于高层结构风振控制优化之中;混沌遗传算法的计算效率比简单遗传算法最高提升了29%;经混沌遗传算法优化后,黏弹性阻尼器附加给结构的附加阻尼比与均布和迭代相比最高分别提高了61%和22%,CGA工况的顶层加速度响应与均布和迭代法相比最高分别减小了14%和12%。为高层结构风振控制优化研究提供了新思路,具有一定的理论价值和实际意义。     

基于Leica ADS80系统的航空遥感影像成果质量控制研究

通过对“辽宁省农村集体土地确权登记发证”项目0.2m分辨率航空遥感影像成果的检查验收,阐述了应用Leica ADS80系统生产航空遥感影像成果的检查内容、检查方法及质量控制的关键点,进而提出了航空遥感影像成果检查的技术核心。本文对于其它生产单位应用Leica ADS80系统生产的高分辨率航空遥感影像成果的检查验收提供了可以借鉴的经验。     

山区公路半填半挖路基沉降控制指标与标准研究

为了避免路基沉降导致路面结构破坏,对适用于山区公路半填半挖路基的沉降控制指标和标准进行了研究。首先,基于常泊松比假定,推导了三维Merchant模型的Prony级数表达式,并以ABAQUS为工具建立了半填半挖路基沉降计算模型。计算结果表明,半填半挖路基工后沉降曲线为“勺”形或“S”形,曲线形状的差异揭示了路基沉降的时空耦合效应。其次,基于路基工后沉降机制分析,提出了如下假定：半填半挖路基工后沉降曲线为中心对称的“S”形,对称中心两侧的曲线段为抛物线。通过沥青路面结构对抛物线形路基沉降的力学响应分析,揭示了路面结构附加弯拉应力与抛物线方程的二次项系数a具有线性关系,据此提出采用a值作为半填半挖路基沉降控制指标。最后,基于沥青路面结构在交通荷载和路基沉降共同作用下的破坏模式,提出了半填半挖路基沉降控制标准的确定方法。研究成果为合理控制半填半挖路基工后沉降提供了明确的技术依据。     

一种控制直剪蠕变试验剪应力的简易装置

土的蠕变是指土在保持应力不变的条件下,应变随时间延长而增加的现象。研究土的蠕变性质对于确定土的长期强度有重要意义,土的蠕变研究也是近几年的研究热点。然而,土的蠕变试验周期特别长,因此简便、易行又有一定可信度的蠕变试验仪器,对于土蠕变性质的研究有较大的推动意义。直剪蠕变试验是研究确定土的蠕变性质的一种最简单、最直观的试验方法。但由于该试验只是控制剪切力不变,剪切过程中,试样受剪面积逐渐减小,剪应力持续增大,整个过程并不是蠕变。通过在传统仪器上附加一个简单装置,利用液体的浮力来控制试验剪切力,从而使得试样在剪切过程中的剪应力不变。在对仪器进行相应改进后,做了对比试验,检验该装置对剪应力的控制效果,试验结果表明,该简易装置可在一定程度上控制剪应力。     

近距离下穿在建地铁隧道施工爆破变形及控制方法研究

近距离爆破下穿尚未完成二衬的区间隧道是一种较为特殊的工况,涉及初支破坏、既有隧道下沉等诸多问题。以青岛地铁2号线近距离（250 mm）下穿刚完成初支的3号线隧道工程设计及施工为实例,通过在施工时采用自进式管棚、拱顶部位掏空、辅助中孔掏槽、对既有隧道施加张拉力、限载限行等多项措施,并根据类比给出合理的爆破振速控制指标,控制爆破振速及隧道变形。运用有限元分析软件MIDAS-GTS进行三维模型数值分析,揭示在建隧道爆破施工对既有隧道变形及内力变化规律。经过理论计算与实测分析,采取的各项措施能够达到预期的效果,3号线初支结构未见异常,其研究成果对特殊条件下的爆破下穿设计与施工具有参考价值。