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AAE450 Senior Spacecraft Design Rick Hutchings Week 2: January 25 th, 2007 Thermal Control Thermal Control Systems for TV.

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Presentation on theme: "AAE450 Senior Spacecraft Design Rick Hutchings Week 2: January 25 th, 2007 Thermal Control Thermal Control Systems for TV."— Presentation transcript:

1 AAE450 Senior Spacecraft Design Rick Hutchings Week 2: January 25 th, 2007 Thermal Control Thermal Control Systems for TV

2 AAE450 Senior Spacecraft Design Thermal Control Systems Types of Systems –Passive Coldplate Electrical Equipment Radiator – Active Radiator Coldplate Electrical Equipment Figures based on Fischer, ref 1

3 AAE450 Senior Spacecraft Design Active Thermal Control Mass (kg)Power (kW)Volume(m 3 ) Heat Exchangers 92.25 0.24 Coldplates 240.00 0.56 Pumps with Accumulator 528.001.271.87 Plumbing and Valves 439.21 Instruments and Controls 146.40 Fluids 146.40 Radiators 2067.84 15.30 Total 3660.111.2717.97

4 AAE450 Senior Spacecraft Design References 1)Fischer, Mark. Thermal Control. Feb 1995. University of Texas. 21 Jan 2007. 2)Larson, Wiley and Pranke, Linda. Human Spaceflight Mission Analysis and Design. St. Louis: McGraw-Hill Companies (Pg. 513-537) 3)“Project Legend.” Spring 2005 Purdue University. 5 Jan 2007 (Pg. 285 289) <https://engineering.purdue.edu/AAE/Academics/Courses/ aae450/2005/spring>

5 AAE450 Senior Spacecraft Design Back-up Slides Mass (kg)Power (kW)Volume(m 3 ) Heat Exchangers 17 + 0.25 * capacity in kW0 0.016 + 0.0012 * capacity in kW Coldplates12 * capacity in kW00.028 * capacity in kW Pumps with Accumulator 4.8 * loop capacity in kW0.023 * loop capacity in kW0.017 * loop capacity in kW Plumbing and Valves Add 15% to active systemNegligible Instruments and Controls Add 5% to active systemNegligible Fluids Add 5% to active system0Negligible Heat Pumps8 * capacity in kWVariesNegligible Fixed Radiators5.3 per m 2 Negligible0.02 per m 2 From Table 16-7 in Larson, Wiley, and Pranke, Linda, ref. 2

6 AAE450 Senior Spacecraft Design Passive –Heat radiated at Q = A*s*e*h*(T r 4 - T e 4 ) s = Boltzman’s Constant (5.67E-8 W/(m 2 -K 4 )) e = Surface emissivity (0.9 for radiators) h = Radiator efficiency factor (assumed 0.9) A = 55000W/(5.67E-8*0.9*0.9*(300^4-10^4) = 147.85 m 2

7 AAE450 Senior Spacecraft Design A = Q/ q q: heat rejection rate(W/m 2 ) Q: heat load = 55000/171 =321.64m 2

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