为有效利用捕获的太阳能确定纳米卫星的最佳轨道路径

2009 First International Conference on Advances in Satellite and Space Communications Pub Date : 2009-07-20 DOI:10.1109/.22

B. Mocanu, Maria-Mihaela Burlacu, J. Kohlenberg, M. Prathaban, P. Lorenz, Ruxandra Tapu

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引用次数: 4

摘要

小卫星对地观测是当前空间研究的重要发展方向。小型卫星通常由太阳能系统提供动力。为了最大限度地利用小卫星捕获的太阳能，轨道路径选择成为一个重要的参数。在这项工作中，我们对在珀尔修斯项目中开发的未来小型卫星(纳米卫星)进行了一些数值研究。我们确定了轨道角度的最佳变化(卫星轨道平面与太阳矢量之间的最小角度)，以获得尽可能短的日食持续时间，并保持尽可能长的角度值，从而最大限度地利用其光伏板捕获的太阳能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Determining Optimal Orbital Path of a Nanosatellite for Efficient Exploitation of the Solar Energy Captured

Small satellites for earth observation are an important ongoing development in space research. Small satellites are usually powered from a solar energy system.In order to maximize the solar energy captured on small satellites, orbit path selection becomes an important parameter. In this work, we have conducted some numerical studies for future small satellites (nanosatellites) developed within the PERSEUS project. We have determined the optimal variation of the orbit angle (the minimum angle between the satellite’s orbit plane and solar vector), in order to obtain an eclipse duration as short as possible, and to maintain the angle value as long as possible thus maximizing the solar energy captured by its photovoltaic panels.

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2009 First International Conference on Advances in Satellite and Space Communications

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