DocumentCode
2344388
Title
Integrative optimum design for Nano-satellite´s radiator surface and heat insulation layers based on chaos genetic algorithm
Author
Wang, Yuying ; Li, Yunze ; Liu, Dongxiao
Author_Institution
Sch. of Aeronaut. Sci. & Eng., BeiHang Univ., Beijing, China
fYear
2009
fDate
25-27 May 2009
Firstpage
3741
Lastpage
3745
Abstract
Passive thermal control system is very important for nano-satellite´s temperate control and its working safety. The design of radiator surface and heat insulation layers´ thickness are two important points for the design of nano-satellite´s passive thermal control system. A thermal dynamic model for nano-satellite´s thermal system was presented by lumped parameter method. And the expressions of the three lumped units´ temperatures were calculated. To keep the devices´ temperature (Ti), the heat radiator´s temperature (Tr) and the heat insulation layers´ temperature (Ts) at suitable working levels, nano-satellite´s radiator surface and heat insulation layers´ thickness are optimized based on chaos genetic algorithm (CGA). The optimization using simple genetic algorithm (SGA) is also carried out as comparison, and results showed that CGA is more effective in solving this optimization problem.
Keywords
artificial satellites; cooling; genetic algorithms; temperature control; chaos genetic algorithm; heat insulation layers; heat radiator temperature; integrative optimum design; lumped parameter method; nanosatellite radiator surface; nanosatellite temperate control; passive thermal control system; thermal dynamic model; Algorithm design and analysis; Chaos; Control systems; Genetic algorithms; Genetic engineering; Heat engines; Insulation; Nanoscale devices; Temperature control; Thermal management; chaos genetic algorithm; heat insulation layer; nano-satellite; radiator surface;
fLanguage
English
Publisher
ieee
Conference_Titel
Industrial Electronics and Applications, 2009. ICIEA 2009. 4th IEEE Conference on
Conference_Location
Xi´an
Print_ISBN
978-1-4244-2799-4
Electronic_ISBN
978-1-4244-2800-7
Type
conf
DOI
10.1109/ICIEA.2009.5138902
Filename
5138902
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