1) weighted amplitude wave superposition (WAWS)
谐波合成
1.
Based on the basic features of fluctuating wind and Davenport wind speed spectrum,in this paper a method to simulate the fluctuating wind field of transmission tower-line system by weighted amplitude wave superposition (WAWS) method which is improved by decimation-in-time fast Fourier transform (DIT-FFT) in time domain is proposed.
文章基于脉动风的基本特性和Davenport风速谱,提出了时域法中基于按时间抽取的快速傅里叶变换技术改进的谐波合成法,然后对输电塔线体系的脉动风场进行了仿真,结果表明,仿真的脉动风速与实际风速一致,仿真的风场符合脉动风的空间相关性规律,计算效率得到了提高。
2) spectral representation
谐波合成法
1.
In consideration of large computational efforts of Deodatis simulation,a modified spectral representation method was proposed for simulating the fluctuating wind field of long span bridges.
针对现有Deodatis方法模拟大跨度桥梁空间脉动风场中存在的计算量问题,通过对谱分解矩阵引入插值近似,减少谱分解的次数,从而提高该谐波合成法的计算效率,并节省内存花费,实现了对三维空间脉动风场的有效模拟。
2.
A numerical example is undertaken and a comparative study has been performed on the merits and drawbacks of the ARMA representation method and the spectral representation method which is widely used to simulate .
本文将基于线性滤波器的ARMA模型应用于大跨度桥梁的风场模拟,推导出自回归(AR)阶数p和滑动回归(MA)阶数q不等情况下,ARMA模型用于模拟多变量稳态随机过程的公式,将ARMA风场模拟方法与目前广泛应用于大跨度桥梁风场模拟的谐波合成法应用于一座实际大跨度斜拉桥的风场模拟,通过对比研究得出一些有意义的结论,并证实了ARMA法能够在保证模拟精度的前提下,大大提高风场模拟的效率。
3.
A combination of the wave superposition method and the modified spectral representation method is applied to a wind field simulation for whole bridge including the deck and the towers.
将谐波合成法与修正的谱描述法结合用于大跨度桥梁主梁及桥塔上的随机风场模拟。
3) CAWS
[英][kɔ:] [美][kɔ]
谐波合成法
1.
Based on the natural wind properties and the correlativity of nodal winds, CAWS (Constant Amplitude Wave Superposition) is employed to simulate wind speed time series of the Caiyuanba Changjiang Bridge in Chongqing.
基于自然风特性,通过考虑结构节点间的风速时程相关性,采用谐波合成法模拟了重庆菜园坝长江大桥脉动风速时程。
2.
Based on the characteristics of natural winds and the correlativity of wind-speed time histories between simulated points,this paper adopted the method of CAWS(constant amplitude wave superposition) to model after the rib wind-speed time histories of Dashengguan Changjiang Bridge in Nanjing.
基于自然风特性及模拟点间的风速时程相关性,采用谐波合成法模拟了南京大胜关长江大桥的拱肋脉动风速时程。
4) harmonic synthesis method
谐波合成法
1.
Based on the probabilistic characteristics of turbulent wind,the harmonic synthesis method is used to simulate the sample of the level turbulent wind velocity history of a cable-stayed bridge main beam.
基于脉动风的概率特性,采用谐波合成法模拟了某斜拉桥主梁的水平脉动风速时程样本。
5) harmonic synthesis
谐波合成,谐波综合
6) composition harmonic wave current
合成谐波电流
补充资料:谐波
谐波
harmonics
(harmonies)频率为基波频率整数倍的正弦波分量,又称高次谐波。在交流电路中.具有非线性阻抗特性的电气设备(见非线性负荷)向电源反馈高次谐波,导致电力系统电压、电流波形崎变,使电能质盘变坏。近年来,由于电力电子技术的发展,大量换流设备、电子设备等具有非线性阻抗特性的电气设备接人电力系统,造成谐波污染。这些电气设备称之为谐波源,主要有电力机车、电弧炉、整流器、变频器、逆变器、相控调速和调压装置、电焊机、感应加热设备、气体放电灯以及有磁饱和现象的机电设备。 谐波的危害性表现在干扰通信线路,使同步发电机额定输出功率降低,感应电动机功率因数下降、转矩降低、损耗增加,变压器温度升高、效率降低,加速电气设备绝缘介质老化,使用寿命缩短,甚至损坏,控制保护及枪侧装t工作精度、可靠性降低等。 谐波限制标准见供电质童。
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参考词条