04 svedhem venus express aerobraking end of mission · venus express aerobraking and end of mission...
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ILEWG
Venus Express Aerobraking and End of Mission
Håkan Svedhem ESA/ESTEC
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Pericentre velocity vs Orbital Period
Examples (VEX): Delta-V needed for Reduction of orbital period: 24h-18h 90m/s 18h-16h 42m/s 18h-12h 116m/s Aim for experimental demonstration of concept: 24h-23h 12 m/s
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Reducing Apocentre altitude
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Days after last Pericentre Rise manouevre (30 April)
Pericentre Altitude [km]
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Days after last Pericentre Rise manouevre (30 April)
Pericentre Altitude [km]
Aerobraking phase 11/6 – 11/7
Walk-In phase 17/5-10/6
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ILEWG
Models and measurements of density and temperature
• VIRA (Venus International Reference Model), Hedin model, VTS3 model
• Measurements on Venus Express – Spicav, up to 130 km (only CO2) – SOIR, up to 150 km (only CO2) – VeRa, up to 95 km – Drag, by radio tracking, 165-180 km – Torque, 165-200 km
April 2015 Vexag Hampton, VA
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ILEWG
April 2015 Vexag Hampton, VA
Rho = ( C1 e –h/sh1 + C2 e-h/sh2 )
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ILEWG
April 2015 Vexag Hampton, VA
100
150
200
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1.00E-15 1.00E-14 1.00E-13 1.00E-12 1.00E-11 1.00E-10 1.00E-09 1.00E-08 1.00E-07 1.00E-06 1.00E-05
Alti
tude
[km
]
Atmospheric Density [kg/m3]
Polar density, raw torque data
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ILEWG
April 2015 Vexag Hampton, VA
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ILEWG High day to Day variablity from Drag/
Torque measurements at 165km
April 2015 Vexag Hampton, VA
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ILEWG
Example from Magellan
April 2015 Vexag Hampton, VA
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ILEWG
Pericentre Altitude evolution
April 2015 Vexag Hampton, VA
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ILEWG
April 2015 Vexag Hampton, VA
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ILEWG
April 2015 Vexag Hampton, VA
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ILEWG
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ILEWG
Vexag Hampton, VA
April 2015
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ILEWG
Delta-v vs date
April 2015 Vexag Hampton, VA
PC lowering
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ILEWG
Atmospheric Density
April 2015 Vexag Hampton, VA
Large day-to-day variability
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ILEWG
100
150
200
250
1.00E-15 1.00E-14 1.00E-13 1.00E-12 1.00E-11 1.00E-10 1.00E-09 1.00E-08 1.00E-07 1.00E-06 1.00E-05
Alti
tude
[km
]
Atmospheric Density [kg/m3]
Polar density, raw torque data
100
150
200
250
1.00E-15 1.00E-14 1.00E-13 1.00E-12 1.00E-11 1.00E-10 1.00E-09 1.00E-08 1.00E-07 1.00E-06 1.00E-05
Alti
tude
[km
]
Atmospheric Density [kg/m3]
Polar density, raw torque data
Measurements vs. Model results
April 2015 Vexag Hampton, VA
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ILEWG
Solar Array response to aerobraking
April 2015 Vexag Hampton, VA
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ILEWG Using Solar Array temperature as a proxy
for Dynamic Pressure
April 2015 Vexag Hampton, VA
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ILEWG
Evolution of Orbital Period
April 2015 Vexag Hampton, VA
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ILEWG
Success criteria for Venus Express aerobraking experiment 18/5 - 11/7 2014
• Scientific criteria – S1. Record accelerometer data of the maximum density at a signal
to noise ratio of at least 5 for a minimum of 20 pericentre passes below 150 km altitude, to enable new models and studies of the atmospheric structure at these altitudes.
– S2. Record traces of the full accelerometer signal below 150 km for at least ten pericentre passes where the pericentre altitude is below 140 km, to study spatial variability and wave phenomena in the atmosphere.
– S3. Record ground station tracking data (off pericentre) for orbital arcs sufficient to allow calculation of orbital decay, for at least 25 orbits with pericentre passes below 165 km altitude, in order to determine the integrated delta-v per pass, to investigate the time variability of the atmosphere.
April 2015 Vexag Hampton, VA
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ILEWG Success criteria for Venus Express aerobraking experiment 18/5 - 11/7 2014
• Technical criteria – T1. Achieve a reduction of the orbital period of at least 0.5
hour during the plateau between 18 June and 11 July, to demonstrate the efficiency of aerobraking.
– T2. Make at least six pericentre passes at a dynamic pressure of at least 0.4 N/m2, including at least 3 passes at a dynamic pressure of at least 0.5 N/m2, to demonstrate the robustness of the s/c.
– T3. Record temperatures of the solar panel thermal sensors of at least ten pericentre passes below 140 km altitude, in order to evaluate the thermal effects of aerobraking on the solar panels and to verify existing models.
April 2015 Vexag Hampton, VA
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ILEWG Success criteria for Venus Express aerobraking experiment 18/5 - 11/7 2014
• Technical criteria (cont.) – T4. Record data on s/c attitude and thruster firing during
Braking Mode of at least ten pericentre passes below 140 km altitude, to analyse s/c dynamic stability.
– T5. Record temperatures of –Z platform sensors before, during and after aerobraking, in order to evaluate possible damage and/or deterioration of MLI.
– T6. Record data on the electrical performance of the solar panels, to enable comparison of charging characteristics before and after aerobraking, and to evaluate possible damage and/or deterioration of the solar panels.
April 2015 Vexag Hampton, VA
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ILEWG
Conclusions • ESA’s first aerobraking campaign concluded with
great success • Spacecraft design proven to be very robust • Efficiency of aerobraking clearly demonstrated • Collection of atmospheric data of Venus in a region
not accessible by other methods, including discovery (preliminary) of atmospheric gravity waves at these higher than expected altitudes
• Experience gained for future missions (ExoMars, M4 Venus proposal…)
• New record on low altitude aerobraking at Venus • New record in high dynamic pressure at any planet April 2015 Vexag Hampton, VA
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ILEWG
End of Mission
• During a pericentre rise manoeuvre on 28 November the thrusters ran out of fuel and the spacecraft attempted to go to safe mode.
• Safe mode was only partially achieved due to insufficient fuel.
• Pointing was not good and no telemetry could be received but the carrier could be followed for several weeks before finally disappearing 19 January 2015.
April 2015 Vexag Hampton, VA
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ILEWG
Fuel estimates
April 2015 Vexag Hampton, VA
-4.0 kg
-3.0 kg
-2.0 kg
-1.0 kg
0.0 kg
1.0 kg
2.0 kg
3.0 kg
4.0 kg
5.0 kg
6.0 kg Gauging mass at VEX tank depletion
date: 26/11/2014
TPGT
DR
Combined method
Tank residuals
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ILEWG
VEX Final Descent
April 2015 Vexag Hampton, VA
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ILEWG
Final contact
April 2015 Vexag Hampton, VA
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ILEWG
Bye bye Venus Express… April 2015 Vexag Hampton, VA
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ILEWG
April 2015 Vexag Hampton, VA