High-Level Project Summary
Use many high-temperature solid-state LiAl-CO2 batteries with superior specific energy by using a high-performance cathode, an innovative tri-layer solid-state electrolyte framework, and ambient carbon dioxide at Venus's surface as a reactant.
Link to Final Project
Link to Project "Demo"
Detailed Project Description
We Use Solid-State Lil-Co2 Battery With
1- Anode: Lil Metal Anode That
Less Active
Dendrite-Free
2- Cathode: Was Prepared By Spraying ''Mwcnts-COOH'' Suspension on Carbon Paper Current Collector And Then Removing The Ethanol Solvent. ( Porous Carbon )
3- An Innovative-Layer Solid State Electrolyte Framework
And Ambient Carbon Dioxide At Venus Surface As A Reactant
Space Agency Data
NASA space agency data helped us to select our solution, HOTtech program from NASA provides high-temperature batteries that withstand venus' surface temperature and pressure, that idea inspire us to develop our storage system using solid-state Lil-CO2 to survive for 60 days
Hackathon Journey
An amazing journey, it is a simple description of our experience with NASA space apps, problem solving and thinking about the real challenges are the main benefits, we are working as a team and involved with other teams to help each other, to be free not constrained that give us unbelievable solutions, innovation is our inspiration to the choice that solution, we are interested in space and hope to explore space, finally, we want to thank NASA for giving us that chance.
References
Energy Storage Technologies for Future Planetary Science Missions | NASA Solar System Exploration
Venus Resources – NASA Solar System Exploration
Automaton Rover for Extreme Environments (AREE) | NASA
Exploring Hell: Avoiding Obstacles on a Clockwork Rover | NASA
The Memory-Maker - Space Apps Challenge | 2019
The Rover's Energy - NASA Mars
Tags
#venus challenge #storage system