太阳光压作用下空间太阳能电站的动力学响应

Fangnuan Xu; Zichen Deng; Bo Wang; Yi Wei; Qingjun Li

doi:10.1051/jnwpu/20183620590

太阳光压作用下空间太阳能电站的动力学响应

Fangnuan Xu, Zichen Deng, Bo Wang, Yi Wei, Qingjun Li

航空学院

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

The attitude and structural vibration of tethered solar power satellite were studied considering solar radiation pressure. Firstly, the simplified model of tethered solar power satellite was established. The solar panel was modeled as an Euler-Bernoulli Beam, the bus was modeled as a particle, and the tethers were modeled as massless springs. The equations of motion were derived based on absolute nodal coordinate formulation and Hamilton's principle. Then, Symplectic Runge-Kutta method was adopted to solve the differential equations. The proposed model and numerical algorithm were validated through a numerical example. Finally, numerical simulations were carried out. Simulation results showed that solar radiation pressure as well as structural vibration cause small fluctuation of the attitude angle. Moreover, the effect of solar radiation pressure on structural vibration can be neglected.

投稿的翻译标题	Dynamic Response of Solar Power Satellite Considering Solar Radiation Pressure
源语言	繁体中文
页（从-至）	590-596
页数	7
期刊	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
卷	36
期	3
DOI	https://doi.org/10.1051/jnwpu/20183620590
出版状态	已出版 - 1 6月 2018

关键词

Absolute nodal coordinate formulation
Elastic deformation
Hamiltonian system
Solar power satellite
Solar radiation pressure
Space tethers
Symplectic algorithm

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10.1051/jnwpu/20183620590

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title = "太阳光压作用下空间太阳能电站的动力学响应",

abstract = "The attitude and structural vibration of tethered solar power satellite were studied considering solar radiation pressure. Firstly, the simplified model of tethered solar power satellite was established. The solar panel was modeled as an Euler-Bernoulli Beam, the bus was modeled as a particle, and the tethers were modeled as massless springs. The equations of motion were derived based on absolute nodal coordinate formulation and Hamilton's principle. Then, Symplectic Runge-Kutta method was adopted to solve the differential equations. The proposed model and numerical algorithm were validated through a numerical example. Finally, numerical simulations were carried out. Simulation results showed that solar radiation pressure as well as structural vibration cause small fluctuation of the attitude angle. Moreover, the effect of solar radiation pressure on structural vibration can be neglected.",

keywords = "Absolute nodal coordinate formulation, Elastic deformation, Hamiltonian system, Solar power satellite, Solar radiation pressure, Space tethers, Symplectic algorithm",

author = "Fangnuan Xu and Zichen Deng and Bo Wang and Yi Wei and Qingjun Li",

year = "2018",

month = jun,

day = "1",

doi = "10.1051/jnwpu/20183620590",

language = "繁体中文",

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T1 - 太阳光压作用下空间太阳能电站的动力学响应

AU - Xu, Fangnuan

AU - Deng, Zichen

AU - Wang, Bo

AU - Wei, Yi

AU - Li, Qingjun

PY - 2018/6/1

Y1 - 2018/6/1

N2 - The attitude and structural vibration of tethered solar power satellite were studied considering solar radiation pressure. Firstly, the simplified model of tethered solar power satellite was established. The solar panel was modeled as an Euler-Bernoulli Beam, the bus was modeled as a particle, and the tethers were modeled as massless springs. The equations of motion were derived based on absolute nodal coordinate formulation and Hamilton's principle. Then, Symplectic Runge-Kutta method was adopted to solve the differential equations. The proposed model and numerical algorithm were validated through a numerical example. Finally, numerical simulations were carried out. Simulation results showed that solar radiation pressure as well as structural vibration cause small fluctuation of the attitude angle. Moreover, the effect of solar radiation pressure on structural vibration can be neglected.

AB - The attitude and structural vibration of tethered solar power satellite were studied considering solar radiation pressure. Firstly, the simplified model of tethered solar power satellite was established. The solar panel was modeled as an Euler-Bernoulli Beam, the bus was modeled as a particle, and the tethers were modeled as massless springs. The equations of motion were derived based on absolute nodal coordinate formulation and Hamilton's principle. Then, Symplectic Runge-Kutta method was adopted to solve the differential equations. The proposed model and numerical algorithm were validated through a numerical example. Finally, numerical simulations were carried out. Simulation results showed that solar radiation pressure as well as structural vibration cause small fluctuation of the attitude angle. Moreover, the effect of solar radiation pressure on structural vibration can be neglected.

KW - Absolute nodal coordinate formulation

KW - Elastic deformation

KW - Hamiltonian system

KW - Solar power satellite

KW - Solar radiation pressure

KW - Space tethers

KW - Symplectic algorithm

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DO - 10.1051/jnwpu/20183620590

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ER -

太阳光压作用下空间太阳能电站的动力学响应

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