Design and Modeling of useful Tool for Satellite Solar Array Preliminary Sizing and Power System Analysis

A. H. Dida
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引用次数: 2

Abstract

Design for any satellite includes its electrical power needs and the system to supply them. The availability of solar energy has encouraged the development of solar cell arrays which are major structural element for providing power generation of many spacecraft. Solar cell array design must be instituted early in the development of satellite design mission. The high performance of satellite solar cell array design depends on the intensity of sunlight incident, the conversion efficiency of solar cells and the interaction of the array with satellite. The advances in technology are nowadays allowing the production of solar cells in different sizes and more importantly with increased efficiencies exceeding 30%. The most efficient technology for electricity generation from solar energy is multi-junction solar cells. Simplicity, relatively modest cost, and high reliability have caused these solar cells based on GaAs to be chosen for supplying the electrical power system of almost satellites. The aim of this research work was designed and modeled a useful tool for satellite solar array preliminary sizing and power system analysis of our spacecraft system. We had also simulated and compared a various solar cells to investigate their performance in terms of efficiency to select the adequate type of cells that should be chosen to insure performance at the required output to the end of the mission while minimizing costs. The useful tool of satellite solar array sizing was validated using data Alsat-1 project. The required area and weight of satellite solar array are calculated and selected to provide the required end-of-mission power without complicating installation of cells.
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卫星太阳能电池阵初步选型及电力系统分析实用工具的设计与建模
任何卫星的设计都包括其电力需求和供电系统。太阳能的可用性鼓励了太阳能电池阵列的发展,太阳能电池阵列是为许多航天器提供发电的主要结构元件。太阳能电池阵列的设计必须在卫星设计任务的早期就开始。卫星太阳能电池阵列设计的高性能取决于入射太阳光的强度、太阳能电池的转换效率以及阵列与卫星的相互作用。如今,技术的进步使生产不同尺寸的太阳能电池成为可能,更重要的是,效率提高了30%以上。最有效的太阳能发电技术是多结太阳能电池。简单、相对适中的成本和高可靠性使得这些基于砷化镓的太阳能电池被选择为几乎卫星的电力系统供电。本研究工作的目的是为卫星太阳能电池阵的初步尺寸设计和我国航天器系统的动力系统分析提供一个有用的工具。我们还模拟和比较了各种太阳能电池,以研究它们在效率方面的性能,以选择适当类型的电池,以确保在任务结束时达到所需输出的性能,同时最大限度地降低成本。利用Alsat-1项目的数据验证了卫星太阳能电池阵尺寸的有用工具。计算和选择卫星太阳能阵列所需的面积和重量,以提供所需的任务结束功率,而不使电池的安装复杂化。
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