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2009, 2009 IEEE Aerospace conference
51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition
A Wind-powered Rover for a Low-Cost Venus Mission2013 •
lpi.usra.edu
IAC–08–A3. 6.9 Mission Architecture and Technology Options for a Flagship Class Venus in Situ MissionThe Astrophysical Journal
Atmospheric Escape From TOI-700 d: Venus versus Earth Analogs2019 •
To support NASA future Venus in-situ exploration missions, Advanced Cooling Technologies, Inc (ACT) is developing a Venus Lander thermal management system based on a cooling concept that uses venting of consumable fluids. This system will allow at least 24hours of operation on Venus surface in the high temperature (460°C) and high pressure (~92 bar) environment. The consumable-based cooling system will reject both the electronics waste heat generated inside the vehicle as well as the incoming heat leaks from the hot Venus environment. The system consists of two pressure vessels (primary vessel and compressed gas vessel) and a network of flow channels that are embedded within the lander’s structure for environmental heat guarding. The primary vessel will be charged with working fluid (ammonia) at saturation that is further pressurized by compressed gas (e.g. helium), such a way that the resulted fluid mixture can be vented into the environment at a pressure higher than the saturation...
Journal of Geophysical Research
Thermal structure of Venusian nighttime mesosphere as observed by VIRTIS-Venus Express2010 •
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Planetary and Space Science
Strongly-cooled ionizing plasma flows with application to venus1975 •
Journal of Geophysical Research
Understanding the variability of nightside temperatures, NO UV and O 2 IR nightglow emissions in the Venus upper atmosphere2011 •
AIAA SPACE 2009 Conference & Exposition
Evaluating Low Concept Maturity Mission Elements and Architectures for a Venus Flagship Mission2009 •
2007 •
Advances in Space Research
Venus atmospheric platform options revisited2010 •
Advances in Space Research
Water in the deep atmosphere of Venus from high-resolution spectra of the night side1995 •
2019 •
Journal of Geophysical Research
Pioneer Venus Orbiter magnetic field and plasma observations in the Venus magnetotail1989 •
2006 •
Earth, Planets and Space
Absolute calibration of brightness temperature of the Venus disk observed by the Longwave Infrared Camera onboard Akatsuki2017 •
2011 •
2012 •
Geophysical Monograph Series
Technology perspectives in the future exploration of Venus2000 •
2012 •
2008 •
Geophysical Monograph Series
Experiencing Venus: Clues to the origin, evolution, and chemistry of terrestrial planets via in-situ exploration of our sister world2007 •
Advances in Space Research
The Lavoisier mission : A system of descent probe and balloon flotilla for geochemical investigation of the deep atmosphere and surface of Venus2002 •
Volume 1: Advanced Computational Mechanics; Advanced Simulation-Based Engineering Sciences; Virtual and Augmented Reality; Applied Solid Mechanics and Material Processing; Dynamical Systems and Control
Sensitivity Analysis of a Solar Cooling System2012 •
2010 •
12th International Energy Conversion Engineering Conference
Non-Cooled Power System for Venus Lander2014 •
Experimental Astronomy
European Venus Explorer (EVE): an in-situ mission to Venus2009 •
Planetary and Space Science
Venus Monitoring Camera for Venus Express2007 •