Probabilistic seismic loss estimation via endurance time method

Probabilistic Seismic Loss Estimation is a methodology used as a quantitative and explicit expression of the performance of buildings using terms that address the interests of both owners and insurance companies. Applying the ATC 58 approach for seismic loss assessment of buildings requires using Incremental Dynamic Analysis （IDA）, which needs hundreds of time-consuming analyses, which in turn hinders its wide application. The Endurance Time Method （ETM） is proposed herein as part of a demand propagation prediction procedure and is shown to be an economical alternative to IDA. Various scenarios were considered to achieve this purpose and their appropriateness has been evaluated using statistical methods. The most precise and efficient scenario was validated through comparison against IDA driven response predictions of 34 code conforming benchmark structures and was proven to be sufficiently precise while offering a great deal of efficiency. The loss values were estimated by replacing IDA with the proposed ETM-based procedure in the ATC 58 procedure and it was fotmd that these values suffer from varying inaccuracies, which were attributed to the discretized nature of damage and loss prediction functions provided by ATC 58.

Improved Method of Power Loss and Electric Field Calculations of HVAC Transmission Lines

An improved method for calculating the corona power loss and the ground-level electric field on HVAC transmission lines induced by corona is proposed.Based on a charge simulation method combined with a method of successive images,the proposed method has the number and location of the simulated charges not arbitrary.When the surface electric field of a conductor exceeds the onset value,charges are emitted from corona into the space around,and the space ions and the surface charges on each sub-conductor are simulated by using the images of the other sub-conductors.The displacements of the space ions are calculated at every time step during corona periods in both the positive and the negative half cycles.Several examples are calculated by using the proposed method,and the calculated electric field at the ground level and the corona power loss agree well with previous measurements.The results show that simulating 12 charges in each conductor during 600 time steps in one cycle takes less time while guarantees the accuracy.The corona discharge from a 220 kV transmission line enhances slightly(less than 2%) the electric field at the ground level,but this effect is little from a 500 kV line.The improved method is a good compromise between the time cost and the accuracy of calculation.

Chemical Analysis of Magnesia and Magnesia-Alumina Refractory Materials——Gravimetric method for determination of loss on ignition

1 Scope This standard specifies the gravimetric method for determination of loss on ignition.

Transmission loss simulation based on rectangular-pulse method and experimental evaluation of acoustic performance of perforated intake pipe

Exact simulation of the acoustic performance is essential to the engineering application for a vehicle intake system. The rectangular-pulse method based on the computational fluid dynamics approach was employed for calculating the transmission loss. Firstly, the transmission loss of the single-cavity element was simulated without any airflow, and the effects of different structural parameters on the acoustic performance were investigated comprehensively. Secondly, the static transmission loss of the perforated intake pipe was obtained by the rectangular-pulse method, which is proved to be accurate enough compared with the result by finite element method. Thirdly, under the different conditions of the mean airflow and the operating temperature, the specific transmission loss was acquired respectively. In general, the peaks of the transmission loss are shifted to the lower frequency range because of the reverse airflow, but the amplitudes are irregularly changed. Besides, when the operating temperature increases, the peaks are shifted to the higher frequencies. Finally, with the designed perforated pipe installed to the intake system, the road tests were proceeded to evaluate the actual acoustic performance, and the result indicates that the intake sound pressure level is greatly attenuated. Typically in the range of 600–1500 Hz, the insertion loss of the intake noise at the decelerating moment is almost 20 d B(A), and the overall noise is reduced more than 14.2 d B(A). In conclusion, the perforated intake pipe has been proved excellent in improving the acoustic performance of intake system and could provide the guidance for the automotive engineering application.

A Comparative Study of the Difference Method and the Enzyme-Hydrolyzed Casein Method for Determining True Amino Acid Digestibilities and Endogenous Amino Acid Losses in Duck Feed

In this study, we examined the varia- tions between the difference method and the enzyme- hydrolyzed casein method for determining endogenous amino acid loss and the true amino acid digestibility in ducks fed normal protein-containing diets. These methods were compared to the nitrogen-free （N-free） diet method. The difference method was based on soy- bean meal as the only protein source, with the experi- mental diets containing crude protein levels at 15% and 20%. The enzyme-hydrolyzed casein method was based on enzyme-hydrolyzed casein meal as the pro- tein source, with the experimental diet containing a crude protein level of 17.5%. The N-free diet was prepared with starches and paper fibers. In each meth- od,64 Tianfu meat drakes （7-weeks-old） with an av- erage body weight of 2.77±0.16 kg were used and divided into four groups, and fed four different diets. Each group contained four replicates of four drakes and they were force fed trial diets according to the Sirbald method for detecting their apparent amino aciddigestibility, endogenous amino acid loss and true a- mino acid digestibility. The results demonstrated that using the difference, enzyme-hydrolyzed casein and N-free diet methods, endogenous amino acid losses were 0. 9946,1. 2243 and 0. 9297 mg/g dry matter in- take （ DMI）, respectively. The true amino acid digest- ibility measured by the difference method was 88.93 %±4.43 %. Using the enzyme-hydrolyzed ca- sein method with two dietary crude protein levels of 15% and 20%, the digestibility was 91.15%±4.33% and 91.97%±4. 16%, respectively, and by the N-free diet methods with two dietary crude protein levels of 15% and 20% ,it was 88.55%±4.29% and 88.82 %±4.61%, respectively. The results suggested that when the dietary protein level was 15% to 20 %, the true amino acid digestibility and endogenous ami- no acid loss as determined by the difference method was more accurate than the values determined by the enzyme-hydrolyzed casein method.

不同进水方式对大型水体储热效率的影响

目的针对大型水体跨季节储热时间不匹配问题,分析不同进水方式对储热效率的影响,减少储热过程中的热量损失。方法利用CFD数值模拟软件建立水体储热的分析模型,研究水体储热过程中的热交换规律,以及单双进水口、水平间距、动态进水、流速等因素对水体储热效果的影响。结果进水总流量越小,内部水体温度分层越好;在相同的储热时间内,双进水口方式效率最佳,水体内部平均温度至少比单一进水和动态进水高出16.83%,储热效率分别提高了9.89%和16.14%;相比单一进水口,双进水口方式火用损失降低了21.97%;进水管之间距离越小,水体储热效率越高。结论进水方式对水体储热效率影响至关重要,进水管道越靠近中轴线,采用小流量、双开口的进水形式储热效率越好。

高阶轨道角动量传输光纤设计及传输特性研究(内封底文章)

为解决一般轨道角动量传输光纤传输轨道角动量模式数量少、质量差的问题,提出了一种基于正六边形空气孔排列的新型光子晶体光纤结构。该光纤引入了空气填充率高的矩形空气孔以及采用高折射率材料填充环形传输区域,能够有效提高环形传输区域和包层间的折射率差,且正六边形排列空气孔有利于提高模间有效折射率差。经过结构优化得到最优光纤结构,有限元法的分析结果表明,最优结构下,该光纤在常用波段S+C+L+U波段上能够支持142种轨道角动量模式的传输,最高阶数达到36阶。且所提出光纤具有良好的传输特性,本征模式的最高限制性损耗为10−9 dB/m量级,与典型轨道角动量传输光子晶体光纤相比至少降低了一个数量级;最大有效模场面积能够达到206.18μm^(2),最小非线性系数低至0.397 W^(−1)∙km^(−1);色散平坦且最小色散变化低至1.4578 ps/(nm∙km);所有本征模式纯度均在93.4%~96.8%范围内。且该光纤具有较好的制备可行性,对制造精度要求不高。因此,该光纤在基于轨道角动量光纤的复用系统中具有广阔的应用前景,为提高通信容量提供了一种有效手段。

PCCP断丝破坏规律Ⅱ:数值模拟研究

目前预应力钢筒混凝土管(Prestressed Concrete Cylinder Pipe,PCCP)断丝的数值模拟要么整圈删除断丝,要么将断丝的预应力损失范围假设为固定值,无法依据砂浆损伤程度来判断断丝预应力损失范围是否扩展。本文通过抽象分析砂浆、预应力钢丝和管芯混凝土之间的两两相互作用机制,引入弹簧单元、内聚力模型和塑性损伤模型,提出了管芯混凝土预压应力施加、任意位置钢丝割断和断丝预应力损失范围扩展的全过程模拟方法,明确了调控断丝预应力损失范围的初始大小、扩展时机和扩展幅度的关键参数。基于原型试验建立了恒定内压下集中和离散断丝的数值模型,从内压加载到断丝破坏的全过程角度验证了新模拟方法的合理性,揭示了管芯的预应力损失和破坏规律,使实际工程中各种三维断点分布的模拟成为可能,可为更精准地预测和评估断丝PCCP结构性能提供新手段。

大华会计师事务所声誉损失的影响研究——基于会计师事务所和投资者视角

近些年来会计师事务所声誉损失事件层出不穷,造成了严重的经济后果,也为审计市场带来了前所未有的声誉危机。本文在对大华会计师事务所声誉损失事件介绍的基础上,利用案例分析法和事件分析法分别从会计师事务所自身和投资者视角对会计师事务所声誉损失造成的影响进行研究。结果表明会计师事务所声誉损失会导致事务所自身降低审计收费、客户流失率上升等。同时,会导致大华会计师事务所客户股价产生累计平均异常收益率的负向波动。最后提出相关建议。

物之使用利益的损害赔偿研究

权利人的物因遭受他人侵害毁损、灭失,该物在修理、重置过程中,权利人丧失对物的正常使用,导致使用利益受损。我国《民法典》中并无使用利益损害赔偿的一般性规定,司法实践中却存在大量相关案例,因此研究物之使用利益损害赔偿的原理与规则有其必要性。侵害物之使用利益能否构成侵权的关键点在于使用利益是否为受侵权法保护的民事权益。而权利人能否请求损害赔偿,还须证明使用利益遭受侵害时确实存在财产上的损害。无损害即无赔偿,但并非所有的损害都必然会得到填补,因此对物之使用利益的损害的具体赔偿仍需区分探讨:将物分为具有经营性目的的物和不具有经营性目的的物,对于不具有经营性目的的物可根据是否支出替代费用细化区分,没有实际支出替代费用的还须再判断其是否为生活必需品。

Physics-Informed Neural Networks with Two Weighted Loss Function Methods for Interactions of Two-Dimensional Oceanic Internal Solitary Waves

The multiple patterns of internal solitary wave interactions(ISWI)are a complex oceanic phenomenon.Satellite remote sensing techniques indirectly detect these ISWI,but do not provide information on their detailed structure and dynamics.Recently,the authors considered a three-layer fluid with shear flow and developed a(2+1)Kadomtsev-Petviashvili(KP)model that is capable of describing five types of oceanic ISWI,including O-type,P-type,TO-type,TP-type,and Y-shaped.Deep learning models,particularly physics-informed neural networks(PINN),are widely used in the field of fluids and internal solitary waves.However,the authors find that the amplitude of internal solitary waves is much smaller than the wavelength and the ISWI occur at relatively large spatial scales,and these characteristics lead to an imbalance in the loss function of the PINN model.To solve this problem,the authors introduce two weighted loss function methods,the fixed weighing and the adaptive weighting methods,to improve the PINN model.This successfully simulated the detailed structure and dynamics of ISWI,with simulation results corresponding to the satellite images.In particular,the adaptive weighting method can automatically update the weights of different terms in the loss function and outperforms the fixed weighting method in terms of generalization ability.

(Si_(0.2)Ti_(0.2)Nb_(0.2)Ta_(0.2)V_(0.2))C高熵陶瓷的低温制备及吸波性能

寻求具有良好耐高温及力学性能的新型陶瓷材料是吸波材料领域的研究热点之一。高熵碳化物陶瓷具有高温热稳定性及抗氧化性好等优点,但合成温度高且吸波性能研究较少,限制了其在高温吸波材料领域的应用。本工作采用熔盐法合成了多晶岩盐晶型(Si_(0.2)Ti_(0.2)Nb_(0.2)Ta_(0.2)V_(0.2))C高熵碳化物陶瓷,研究了其物相组成、微观形貌及吸波特性。结果表明:随着反应温度的升高,样品的衍射峰逐渐锐化,吸波性能明显提高。当反应温度为1500℃时,3.72 GHz时最低反射损耗达-34.68 dB;与已报道的高熵碳化物陶瓷相比,在相同的有效吸收带宽(2.3 GHz)下,涂层厚度减少了13.3%(1.5 mm降低到1.3 mm),其介电损耗主要来源于极化损耗和导电损耗。本工作制备的高熵碳化物陶瓷可以为研究制备新型环境适应、耐高温、抗冲击的高性能单相吸波材料提供新途径。

HEC-HMS水文模型不同降雨损失方法对比研究

为对比分析HEC-HMS模型三种降雨损失方法在沁河流域的适用性。借助Morris筛选法识别降雨损失方法的关键参数,选用流域内5场雨洪资料进行参数率定和模拟精度分析。结果表明:(1)SCS CN值曲线法、Green-Ampt法、Initial and Uniform法主要敏感性参数分别为CN值、土壤饱和导水率、恒定损失率。(2)选取洪峰流量、洪水总量、峰现时刻误差以及Nash系数对模型模拟精度进行评价,SCS CN值曲线法和Initial and Uniform法模拟结果达到乙等精度,Green-Ampt法模拟结果达到丙等精度。研究成果可为半湿润地区中小流域降雨损失方法的选择提供参考。

三重指数裸土信息提取优化方法及其应用

快速、准确、简便地提取裸土信息对高效监测水土流失状况、科学开展水土保持工作具有重要意义。本研究以福建省长汀县为研究区域,构建了三重指数裸土信息的遥感提取方法,选取裸土指数BI初步提取裸土信息,再利用垂直不透水面指数PISI和仿归一化建筑指数NDBI*剔除裸土中混杂的建筑用地。将三重指数法应用于长汀县的结果表明:①长汀县裸土面积从2016年的128.61km^(2)下降至2022年的102.22km^(2),反映出该县水土保持工作的良好成效。②三重指数法操作简便,并且在分离裸土和建筑用地信息上有较好的表现,提取总精度在96%以上,Kappa系数大于0.89。

基于相对差异度改进的可变模糊溃坝生命损失率等级评价

针对传统可变模糊数学评价模型在处理呈指数态渐变指标时出现的等级隶属度跃变情况,综合考虑溃坝生命损失系统的模糊性和随机性,对评价模型进行了相关改进,提出了一种基于改进可变模糊的溃坝生命损失率评价模型。对传统评价模型中的相对差异度函数进行了改进,并将改进的方法应用于4个水库的生命损失率风险后果排序。实际生命损失率与生命损失率风险等级的排序结果一致,改进后模型的科学性和实用性得到验证。

赖氨酸席夫碱合成及缓蚀性能的创新实验设计

设计了环保型赖氨酸席夫碱的无溶剂合成及缓蚀性能测试的创新实验。以赖氨酸和香草醛为原料,采用无溶剂法合成赖氨酸席夫碱,并通过外红光谱对产物结构进行了表征。采用失重法和电化学方法研究了赖氨酸席夫碱缓蚀剂在30℃、0.5 mol·L^(-1)的H_(2)SO_(4)溶液中对Q235钢的缓蚀作用,探讨了缓蚀机理,并对赖氨酸席夫碱进行了吸附热力学研究。实验结果表明:与赖氨酸相比,相同添加量时,赖氨酸席夫碱的缓蚀率更高。当赖氨酸席夫碱添加量为500 mg·L^(-1)时,缓蚀率可达到86.09%。赖氨酸席夫碱分子在Q235钢表面的吸附既有物理吸附又有化学吸附。通过同时降低阳极金属溶解和阴极析氢反应,从而降低腐蚀反应速率,由此判断其为混合型缓蚀剂。通过该实验,可激发学生的科研能力,拓展学生的实验思路。

高低频复合励磁磁心损耗量化的研究

针对高低频复合励磁磁元件磁心损耗难以精确测量和建模的问题,在详细分析现有磁心损耗测量方法和磁心损耗模型局限性的基础上,根据直流功率法测量原理搭建高低频复合励磁磁心损耗测量系统,利用损耗能精确测量的空心电感验证其测量精度。最后,基于直流偏置下脉宽调制(pulse width modulation,PWM)波励磁的磁心损耗模型,提出高低频复合励磁磁性元件的磁心损耗预测模型,并实验验证预测模型最大相对误差为-8.83%,具有较高的精度。

2-SiC混合型三电平ANPC变流器损耗均衡策略

提出一种针对2-SiC混合型三电平有源中性点箝位(3L-ANPC)变流器的损耗均衡策略,通过设计新的开关状态和切换顺序,使得SiC器件承担更多的开关事件,在零电平状态时两条零电平回路同时导通,降低系统导通损耗。同时通过合理分配开关时序,实现一半Si开关管在全开关周期的零电流开关(ZCS),进一步提高变换器效率。提出器件损耗分析模型,评估所提出方法的器件损耗分布情况。最后,搭建单相ANPC逆变器实验平台,实验结果验证了该调制方法的有效性。与现有调制方法相比,所提2-SiC 3L-ANPC变流器调制方法能够实现更高的系统效率和更好的损耗均衡效果。

基于Amesim的斜齿轮功率损失仿真与分析

该文以纯电动汽车减速器斜齿轮传动为研究对象,基于Amesim仿真软件对斜齿轮传动在转动过程中可能存在的能量损失进行仿真分析。首先建立了一对斜齿轮仿真模型以及基于不同齿轮参数的能量损失仿真的数学模型,给出了计算能量损失所需要的一些计算方法;然后采用新斯凯孚(SKF)方程来计算斜齿轮两侧轴承所产生的摩擦力矩并采用PID速度控制方法提供所需的转速;最后进行仿真分析验证。仿真结果表明,该模型能够非常好地模拟出斜齿轮转动过程中存在的各种能量损失以及总损失,能够结合不同斜齿轮参数设置找到总损失最低的一组数据,从而为齿轮参数优化以及齿轮设计提供依据和参数。

基于谱元法的复杂海洋空间甚低频声传播特征研究

围绕甚低频水下声传播特性以及海底地形对其影响,利用谱元法开展复杂海洋空间声场仿真研究。构建了计入海底复杂流−固耦合的轴对称模型实现谱元法中的点声源激发和全波模拟。通过时域和时频域分析发现,Scholte波多次通过阶梯状上坡地形后,能量结构稳定,脉冲宽度和频带范围都没有显著变化。甚低频声波传播特性同时受整体地形和局部起伏影响。近似真实海底地形,如阶梯状地形条件下的声传播损失特性无法简单地用单一对数表达式有效描述。浅海阶梯状上坡地形软质海底中,声源接近海底时激发的界面波向远处传播的能力优于水中声波。软质海底水平海洋空间中有效激发并接收界面波模态时,整体的声传播损失近似于柱面扩展。