A time-saving approach to perform technical calculations of thermal conditions of orbital motion of 3U CubeSat nanosatellite was applied, which made it possible to make the thermal calculations of a satellite with simple structure geometry using MatLab and SolidWorks Simulation. Passive thermal regulation facilities are sufficient for a 3U CubeSat to provide thermal conductivity of the case’s structural elements and to remove heat from the lighted surface and internal components to the satellite’s shadowed surface. Application of spectrally selective coatings allows narrowing the range of surface temperatures of 3U CubeSat
The paper presents the development of the power, propulsion, and thermal systems for a 3U CubeSat or...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...
The thermal control of future nanosatellite will be challenging due to dedicated panel surface area ...
Introduction This TFM is involved in the ³Cat-4 project from the Nano-Satellite and Payload Laborato...
The use of small satellites in ambitious missions presents challenges related to thermal breakdowns ...
One of the major reasons, why nanosatellites are still in a state of vulnerability, is the increase ...
The development of miniature satellites for academic and scientific research is well understood due ...
The increasing focus on small satellite missions currently propels space access and will likely serv...
100學年度專任教師研究獎助[[abstract]]This study simulated and analyzed a passive thermal control system for the...
The aim of this thesis is to design a thermal analysis workflow for design of nano and micro satelli...
Development and experimentation of small satellites have become feasible with the advancements in...
The proliferation of space debris is a critical issue as it increases the risk of collisions with fu...
There has been an increasing interest in CubeSats missions due to its small size, low cost and flexi...
The purpose of this thesis is to introduce the concept of thermal testing for a nanosatellite in gen...
The paper presents the development of the power, propulsion, and thermal systems for a 3U CubeSat or...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...
The thermal control of future nanosatellite will be challenging due to dedicated panel surface area ...
Introduction This TFM is involved in the ³Cat-4 project from the Nano-Satellite and Payload Laborato...
The use of small satellites in ambitious missions presents challenges related to thermal breakdowns ...
One of the major reasons, why nanosatellites are still in a state of vulnerability, is the increase ...
The development of miniature satellites for academic and scientific research is well understood due ...
The increasing focus on small satellite missions currently propels space access and will likely serv...
100學年度專任教師研究獎助[[abstract]]This study simulated and analyzed a passive thermal control system for the...
The aim of this thesis is to design a thermal analysis workflow for design of nano and micro satelli...
Development and experimentation of small satellites have become feasible with the advancements in...
The proliferation of space debris is a critical issue as it increases the risk of collisions with fu...
There has been an increasing interest in CubeSats missions due to its small size, low cost and flexi...
The purpose of this thesis is to introduce the concept of thermal testing for a nanosatellite in gen...
The paper presents the development of the power, propulsion, and thermal systems for a 3U CubeSat or...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...
One of the main threats for the success of a CubeSat mission is the unbalanced distribution of therm...