OVERVIEW

This unique 16-hour online course presents satellite thermal control for small satellites as an organized engineering discipline. Students will learn how to design SmallSat thermal control systems based on best practices developed by the satellite industry.

CubeSats have become increasingly popular as a tool to teach students practical spacecraft design and manufacturing, and NASA, SpaceX, Amazon, and others use CubeSats as a technology testbed for Earth imaging, space explorations, etc. A decade ago, only 10-15 SmallSats were placed in orbit annually—now 10-15 SmallSats are launched per month.

These SmallSats (including CubeSats) are getting more and more power “hungry,” and well-designed thermal management systems are a necessity for this class of satellites. Neglecting the thermal management system could lead to the failure of CubeSat missions.

Thermal tools are needed to design a thermal management system for a CubeSat, and commercially available tools are complex and typically require a deep knowledge of thermal physics. The tools are also expensive, making them unaffordable for small companies or universities. A freeware simplified thermal tool is shared during class, which can be used by CubeSat designers without thermal training. The defining feature of this tool is simplicity of use even for users without a thermal background. Transient and steady-state analysis are available.

Students will finish this course with an understanding of the problems and methods encountered in SmallSat thermal design and the effect of spacecraft size and mission goals on thermal control systems. Many of the points that have made thermal control a confusing subject are clearly explained.

CubeSat developers will greatly benefit from this course, and a knowledge of physics and mathematics is not required. All the illustrations and numerical examples are based on actual situations.

(Course recorded live in Fall 2021)