Design of novel sliding-mode controller for high-velocity AUV with consideration of residual dead load

This work focuses on motion control of high-velocity autonomous underwater vehicle(AUV).Conventional methods are effective solutions to motion control of low-and-medium-velocity AUV.Usually not taken into consideration in the control model,the residual dead load and damping force which vary with the AUV’s velocity tend to result in difficulties in motion control or even failure in convergence in the case of high-velocity movement.With full consideration given to the influence of residual dead load and changing damping force upon AUV motion control,a novel sliding-mode controller(SMC)is proposed in this work.The stability analysis of the proposed controller is carried out on the basis of Lyapunov function.The sea trials results proved the superiority of the sliding-mode controller over sigmoid-function-based controller(SFC).The novel controller demonstrated its effectiveness by achieving admirable control results in the case of high-velocity movement.

Mechanical Analysis of Dead Load Crown and Structure Parameter of Hydraulic Elastic Bulging Roll

The dead load crown of hydraulic elastic bulging roll was discussed using the theory of elastically supported beam,and the dead load experiment was carried out. The theoretical calculation is consistent with the experimental result. The structure parameters for the thickness of roll sleeve,the length of the oil groove and the crown of roll were discussed. The fundamental principle of determining the parameters was put forward. The theoretical basis of the application of the hydraulic elastic bulging roll was established.

The Stress Analysis for Notched Specimen of Brittle Material under Plane Dead Loading

The stress distribution of notched specimen of brittle material under a plane pressure was studied using a photoelastic meth- od,When elastic deformation appeared inside the specimen,the force transferred by dowel part was triangular transverse force and frictional force on the upper surface of the sample.The quantity of the frictional force was about 31 percent of transverse force.The stress inside the sample was linear along the central cross section of the sample and there was maximum tensile stress σ_y at the tip of the notch.Basing on shearing stress deviation method,the tensile stress σ_y,σ_x and shearing stress τ_(xy) at the cen- tral sections and four adjacent cross sections were calculated.The result pointed out that σ_x and τ_(xy) were smaller than σ_y.There- fore,σ_y was the main factor for crack formation and propagation.

Optimization of Dead Load State in Earth-Anchored Cable-Stayed Bridges

In order to determine the reasonable completed dead load state in earth-anchored cable-stayed bridges,a practical method is proposed. The method is based on the rigidly supported continuous beam method and the feasible zone method,emphasizing on the mutual effect between the self-anchored structural parts and the earth-anchored ones. Three cable-stayed bridge models are designed with the main spans of 1 400 m,including a partially earth-anchored cable-stayed bridge,a cable-stayed-suspension bridge and a fully selfanchored cable-stayed bridge,in which the C50 concrete and Q345 steel are adopted. The partially earthanchored cable-stayed bridge and the cable-stayed-suspension bridge secure lower compressive force in the girder than the fully self-anchored cable-stayed bridge by 25 percent at least. The same is for the material consumption of the whole bridge. Furthermore,the anchor volume is more than 20% lower in the partially earthanchored cable-stayed bridge than that in the cable-stayed-suspension bridge. Consequently,the practical span of cable-stayed bridges can be accordingly extended.

Characteristics of Dynamic Load Response of a Fuel Cell with a Dead-ended Anode

The dynamic load characteristics of a proton exchange membrane fuel cell（PEMFC） with a dead-ended anode were studied. In a 70 h experiment, the effects of anode pressure, operating temperature, and relative humidity of the cathode on the performances of the fuel cell were investigated. The obtained results show that, with different relative humidity of the cathode at 65 ℃, dynamic loading has little effect on the performances of fuel cell and the electrochemically active surface area（ECSA）. However, the fuel cell operating under dynamic load is unstable when the relative humidity is 50%, and at 50 ℃ with 100% relative humidity, applying a dynamic load has a significant influence on the fuel cell performances. Scanning electron microscopy（SEM） showed that both the upstream and middle catalyst layers of the cell were unchanged, whereas the downstream cathode catalyst layer thinned as a response to dynamic load.

钢筋混凝土拱桥加固施工次序方案及效果评价

为研究钢筋混凝土拱桥最优的加固施工次序,以一座在役4跨箱形拱桥的加固方案为背景,设计了3组针对性的加固方案,并对不同拆除加固施工次序下的主拱圈力学性能进行了分析;采用恒载应力变化率(αD)和荷载效应变化率(αN)评价了施工中拱圈的应力变化规律及加固后原拱圈的荷载效应。研究结果表明:拱上结构的拆建次序对加固后主拱圈的力学性能影响较小,但对加固过程中主拱圈的受力状态影响较大;拱顶对称拆除时αD<0,结构处于“卸载”状态,有利于拱桥施工中的受力;αN随着拱上结构恒载减小而增大,且增速减缓,故加固层材料利用率也随拱上结构恒载减小而增大,且增幅变缓;αN越大,则加固效果越好。

曲线现浇箱梁非对称恒载对桥梁动静力响应影响的量化研究

为量化研究曲线现浇箱梁非对称恒载对桥梁动静力响应的影响,首先推导了非对称恒载偏心扭矩的计算,然后选取常规跨径16、20、30、40m及平面曲线半径30、50、100、200m,建立12组等高三跨现浇连续箱梁桥为研究样本.基于Python语言建模、MIDAS/Civil软件进行有限元分析,研究考虑非对称恒载扭矩与否两种情况对曲线现浇箱梁桥支座反力、主梁应力和下部结构内力的影响.结果表明,非对称恒载扭矩引起支座反力外大内小、影响显著且边墩反力受影响程度大于中墩;当桥梁平面曲线半径为30m内时,非对称恒载对曲线箱梁桥梁体应力影响显著,半径达100m后可不考虑非对称恒载对梁体应力的影响;非对称恒载对桥墩安全度的影响极为有限,地震作用下桥墩承载力计算可不予考虑.

宁波地区双桥静探法估算单桩承载力的应用

预制桩被大量地应用于宁波软土地区,且在工民建项目中有应用越来越多的趋势。结合宁波中心城区工程实例,对比分析根据JGJ 94—2008建筑桩基技术规范双桥静力触探法和经验参数法所估算预制桩单桩竖向极限承载力标准值的差异,并与静载检测成果作对比分析,进而对规范公式进行适当修正,初步得出适用于该工程的经验公式,为宁波地区运用双桥静力触探试验方法准确计算单桩竖向承载力标准值、优化桩基设计方案提供借鉴意义。

新能源游船直流微电网系统无差拍预测电压控制策略研究

基于光伏、储能技术混合供电的直流微电网系统被广泛应用于新能源游船。针对其日用负荷供电变流器接入不平衡负荷或者单相负荷时出现的供电电压不平衡问题,文章提出一种基于输出电压正负序分离的无差拍预测电压控制策略,在正负序坐标系下分别实现供电变流器电压正负序分量控制,保证供电变流器输出三相电压平衡,增强系统对不平衡负荷的抗干扰能力,避免增加额外的电能质量治理装置。仿真结果表明,采用所提无差拍预测电压控制策略后,直流微电网的日用负荷供电变流器电压不平衡度从28%降低到0.5%以下,验证了所提控制算法的有效性。

基于改进型自抗扰的微电网负荷频率控制研究

针对可再生能源发电随机性导致微电网频率存在稳态偏差的问题,为了控制电网频率波动,在传统自抗扰控制的基础上设计了改进型自抗扰控制器,对风-光-柴-储微电网进行负荷频率的优化控制。考虑到实际存在的调速器侧隙和发电速率约束的非线性导致的系统不稳定,提出了一种针对多区域多发电机的抗饱和误差补偿策略,提高了控制器的控制性能,并将重复控制与自抗扰控制相结合,该复合控制方法提高了控制器精度,增强了系统鲁棒性。利用Simulink建立两区域电力系统负荷频率控制的仿真模型,将PID控制器、传统自抗扰控制器与改进型自抗扰控制器进行仿真比较,仿真结果表明,改进后的控制器能够迅速地将频率偏差收敛到零,从而使电网的频率保持在额定范围内,从而大大改善了系统的稳定性,提高了系统的动态性能。

斜拉桥索力优化实用方法

合理确定成桥索力是斜拉桥设计中一项十分重要的工作,而目前设计实践中对此存在不同认识.对现有斜拉桥索力优化理论进行评述,认为索力优化的影响矩阵法在理论上最为完善.为便于在设计实践中推广,基于索力优化的影响矩阵法原理,提出一种斜拉桥成桥索力优化的实用方法,并从理论上加以证明,实践上得到检验.实用方法可以方便地进行斜拉桥成桥索力优化,并能实现多种优化方案比选,尤其适用于初步设计阶段.

大兴安岭呼中林区森林死可燃物载量及其影响因子

森林地表死可燃物是引起森林火灾的重要原因,掌握森林地表死可燃物载量的分布,对预防火灾和可燃物管理有重要意义。依据1h、10h和100h分类标准,对呼中林区的不同林型内的地表死可燃物载量进行了对比分析。结果表明:樟子松林内死可燃物总载量最高,偃松林内的最低;对不同类型兴安落叶松林群落的地表死可燃物进行比较,发现笃斯越桔-兴安落叶松林内死可燃物总载量最高,而泥炭藓-杜香-兴安落叶松林的最低;此外,相关分析表明,兴安落叶松死可燃物总载量与平均胸径、平均树高、草本盖度、凋落物厚度呈显著的正相关,与坡向、腐殖质厚度等因子呈显著负相关;多元线性回归分析表明,用兴安落叶松林的凋落物厚度、草本盖度、平均树高因子可较好地估算地表死可燃物总载量,进而为森林可燃物的管理和指导森林防火提供科学的依据。

大跨PC连续刚构桥跨中持续下挠成因及预防措施

目前大跨PC连续刚构桥存在的主要问题是跨中的持续下挠和箱梁的开裂,从砼收缩徐变、预应力损失及箱梁的开裂三个方面分析了各自对跨中持续下挠的影响.由于影响徐变的因素多,因此精确计算徐变对跨中的下挠的影响非常困难,根据徐变产生下挠的机理提出了一些预防措施.

二期恒载对大跨度斜拉桥车桥耦合振动的影响

用多刚体模拟车辆,梁格法简化桥面板,以等效质量的形式施加二期恒载。基于车辆、桥梁空间振动模型,建立桥梁—轻轨车—汽车耦合系统的空间振动方程。采用直接积分法求解此方程,并编制相应程序。以某大跨度斜拉桥方案为例,计算其自振特性,进行大跨度斜拉桥—轻轨车—汽车耦合系统的车桥振动分析,并讨论二期恒载对自振频率和车桥耦合振动响应的影响。研究结果表明:二期恒载会使桥梁结构的自振频率减小,对桥梁结构的位移响应影响较小,但对加速度响应影响明显。

大跨径自锚式悬索桥成桥状态动力特性参数分析

为研究大跨径自锚式悬索桥结构参数对成桥状态下桥梁动力特性的影响,以桃花峪黄河大桥主桥为工程背景,基于MIDAS Civil 2012平台建立全桥空间有限元模型,采用子空间迭代法进行动力计算,分析了垂跨比、恒载集度和结构刚度等参数的变化对该桥成桥状态动力特性的影响。结果表明:桥梁振型较合理,频谱分布密集;垂跨比对结构竖弯振型频率影响较大;恒载集度对结构各阶振型频率影响明显;主缆抗拉刚度主要影响加劲梁的竖弯、扭转振型频率;吊索抗拉刚度对结构的各阶振型频率影响很小;加劲梁抗弯刚度对结构的竖向、侧向、扭转振型频率影响显著;桥塔的纵向抗弯刚度主要影响结构的纵飘振型。

吉林九站松花江特大桥静荷载试验

介绍了吉林九站松花江特大桥模型和实桥静荷载试验的理论计算值及实际试验值。数据表明．该桥梁在使用阶段能够满足承载能力要求，而且有较大的安全储备。

VC轧辊静载凸度的克雷洛夫函数解及结构参数分析

应用克雷洛夫函数对VC轧辊静载凸度进行了力学研究并进行了试验验证。理论计算与试验结果吻合较好。对辊套壁厚、油槽长度和轧辊凸度等结构参数进行了理论分析,提出了确定各结构参数的一般原则,为VC轧辊的应用奠定了理论基础。

大直径扩底桩承载力的沉降变形控制设计法初探

鉴于现有承载力确定方法存在的不足之处 ,通过对大直径扩底桩承载力确定原则的探讨 ,给出了按沉降变形控制确定承载力的方法 ,并推导出了确定无静载试验桩承载力的计算公式 .工程实例验证表明 ,按作者提出方法得到的结果与工程实测值符合较好 ,能充分发挥大直径扩底桩的潜力 ,可以供工程设计时参考使用 .

等截面抛物线拱桥内力实用解析解研究

鉴于抛物线拱解析解研究不充分的现状,提出使用近似弧长微分表达式替代精确弧长微分,得出曲线积分的显式表达式,简化了抛物线拱桥内力解析解表达式。基于此方法,对抛物线两铰拱、无铰拱在主拱圈自重、桥面均布荷载作用下的内力实用表达式进行了推导,用常变位数值比较和具体工程实例结果证明了本文方法比常规解析解有更好的精度,比有限元法数值解有更一般的表达式。

超大跨度斜拉桥施工过程随机模拟分析

针对超大跨度斜拉桥由于悬臂施工过程中各种误差的累积可能使其恒载效应具有较强的随机特性,传统的确定性分析方法不能反映这一重要结构特性的问题,采用Monte Carlo法与有限元法相结合的随机模拟方法,将斜拉桥的梁段自重、张拉索力看成随机变量,进行主跨1 088 m的苏通大桥施工过程随机模拟,研究其恒载效应的频度、均值和标准差。研究表明:由于结构系统的变异性,使结构行为呈现一定的随机性;梁段自重、张拉索力变异对钢主梁斜拉桥恒载应力的影响不如对混凝土主梁斜拉桥那么明显,但其对恒载构形的影响不可忽略。