Non-Radioisotope Power Systems for Sunless Solar System ... · Non-Radioisotope Power Systems For...

Non-Radioisotope Power Systems for Sunless Solar System Exploration Missions

PI: Michael Paul

The Applied Research Lab at Penn State

Li + SF6

Al + H2O

Mg + CO2

Li + CO2

Credit: Marek Nikodem, Poland

56 GPHS

ALIVE! Advanced Long-life Lander

Investigating the Venus Environment

• Atmospheric Structure Investigation (ASI) – Starting at 90 km altitude; ten 12-bit measurements every 10m for a total of 1.1 Mbits of data, compressed at 10:1

• Neutral Mass Spectrometer (NMS) – Starting at 30 km; 300 measurements for a total 1.8 Mbits of total data

•Tunable Laser Spectrometer (TLS) – Starting at 30 km altitude, 300 measurements. Expected data volume: 3.6 Mbits

• Descent Imager – Used during the last 10 km of descent; 20 images; 96 Mbits (LOCO compressed)

• Raman/Laser Induced Breakdown Spectroscopy (LIBS) – Steerable, targets chosen by science team after landing; 5.2 Mbits per sample; 12 samples; Expected data volume: 62.4 Mbits

• Context Imager – 12 images at 20 Mbits each for a total of 220 Mbits; taken of targets for Raman LIBS

• Panoramic Camera – Two eight-frame panoramas for a total of 308 Mbits

•Meteorology Data (ASI) – Pressure, temperature, wind speed, sound speed; Operating at 1 bps for the duration of the science periods (27.6 hrs) for a total of 100 kbits

ALIVE Science Goals

Landed

Jettison Heat Shield

Deploy Landing Legs

Jettison Backshell

Thank you!

Questions?

Non-Radioisotope Power Systems for Sunless Solar System ... · Non-Radioisotope Power Systems For...

Documents

Transcript of Non-Radioisotope Power Systems for Sunless Solar System ... · Non-Radioisotope Power Systems For...

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