Presentation is loading. Please wait.

Presentation is loading. Please wait.

simple analysis detailed analysis control methods

Published byRoxanne McGee Modified over 5 years ago

Similar presentations

Presentation on theme: "simple analysis detailed analysis control methods"— Presentation transcript:

1 simple analysis detailed analysis control methods
Thermal Control simple analysis detailed analysis control methods

2 Simple Analysis spherical cow approach simplify geometry
thermal inputs (internal) thermal inputs (external) approximate spacecraft thermal output

3 Radiative Heat Transfer
In steady-state, Qin = Qout [energy/time] qin [energy/area/time] from solar flux (S ~ 1.35kW/m2 at Earth’s distance from Sun) Qin =  SAexposed + Qinternal ( = absorptivity) Qout = qoutAtotal Stefan-Boltzman Law: qout = T4  = emissivity

4 Example Qinternal = 100 W. Atotal = 4 r2, with r = 2 m.
dist. from Sun = 1.25 au = 1.87108 km =  = 0.90 Aexposed = 0.5 Atotal = 25.1 m2 Qin = 100 W SAexposed(R/R)2 = W. Qout = T4Atotal  T = oK = 21 oC = 70 oF r Aexposed internal sources Atotal

5 Detailed FE Analysis Consider individual internal components (placement and thermal properties) and external geometry TRASYS -- builds input file for SINDA SINDA – calculates temperatures of components

6 Control Methods Passive Active MLI (multi-layer insulation)
surface coatings louvers heat pipes Active electric heaters thermal fluid loops

7 Design Procedure Develop list of requirements
min/max temperatures that components can tolerate special thermal rqts for some instruments? Estimate worst case hot/cold conditions Initially, use simple steady-state analysis Later, use FE analysis Select and size thermal control method(s)

Download ppt "simple analysis detailed analysis control methods"

Similar presentations

Modeling and Sizing a Thermoelectric Cooler Within a Thermal Analyzer Jane Baumann C&R Technologies, Inc. Littleton, Colorado.

Modeling and Sizing a Thermoelectric Cooler Within a Thermal Analyzer Jane Baumann C&R Technologies, Inc. Littleton, Colorado.
PH 508: Spacecraft systems

PH 508: Spacecraft systems
1 HEAT TRANSFER PROBLEMS PhysicsPhysics EnvironmentalEnvironmental Equipo docente: Alfonso Calera Belmonte Antonio J. Barbero Departamento de Física Aplicada.

1 HEAT TRANSFER PROBLEMS PhysicsPhysics EnvironmentalEnvironmental Equipo docente: Alfonso Calera Belmonte Antonio J. Barbero Departamento de Física Aplicada.
HokieSat Thermal System Michael Belcher Thermal Lead December 11, 2002.

HokieSat Thermal System Michael Belcher Thermal Lead December 11, 2002.
Solar Orbiter EUS: Thermal Design Considerations Bryan Shaughnessy, Rutherford Appleton Laboratory 1 Solar Orbiter EUV Spectrometer Thermal Design Considerations.

Solar Orbiter EUS: Thermal Design Considerations Bryan Shaughnessy, Rutherford Appleton Laboratory 1 Solar Orbiter EUV Spectrometer Thermal Design Considerations.
Solar Orbiter EUV Spectrometer

Solar Orbiter EUV Spectrometer
Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!

Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!
Radiation: Processes and Properties - Environmental Radiation - Chapter 12 Section 12.8.

Radiation: Processes and Properties - Environmental Radiation - Chapter 12 Section 12.8.
1 Space thermal environment Isidoro Martínez 11 July 2008.

1 Space thermal environment Isidoro Martínez 11 July 2008.
An improved energy balance model: Atmosphere and Greenhouse gases

An improved energy balance model: Atmosphere and Greenhouse gases
Solar Radiation Emission and Absorption

Solar Radiation Emission and Absorption
1 Spacecraft Thermal Design Introduction to Space Systems and Spacecraft Design Space Systems Design.

1 Spacecraft Thermal Design Introduction to Space Systems and Spacecraft Design Space Systems Design.
Heat Transfer Overview

Heat Transfer Overview
1 Aerospace Thermal Analysis Overview G. Nacouzi ME 155B.

1 Aerospace Thermal Analysis Overview G. Nacouzi ME 155B.
CHE/ME 109 Heat Transfer in Electronics

CHE/ME 109 Heat Transfer in Electronics
Some climate principles. Illumination of the earth by the sun: 1. More heat received at the equator than at the poles 2. Solid earth receives more.

Some climate principles. Illumination of the earth by the sun: 1. More heat received at the equator than at the poles 2. Solid earth receives more.
Thermal Modeling of the CX Satellite Jacob Boettcher Thermal Team Lead 4/5/02.

Thermal Modeling of the CX Satellite Jacob Boettcher Thermal Team Lead 4/5/02.
Solar Radiation Emission and Absorption

Solar Radiation Emission and Absorption
Matt Robinson Thomas Tolman.  Describes Convective Heat Transfer  Needed for all external and internal flow situations.

Matt Robinson Thomas Tolman.  Describes Convective Heat Transfer  Needed for all external and internal flow situations.
Flow and Thermal Considerations

Flow and Thermal Considerations

Similar presentations

Ads by Google