High-Level Project Summary
We made it possible and developed a mechanism with which we can degenerate the energy on Venus despite it’s harsh climate. With use of titanium heat resistant metal, miniature wind turbines, heavy storms, wind speed of 360kph and the use of filtering mechanism is capable of making easy source of electricity which will work accordingly: in the opening the mixture of wind and sand will be blasted, in the mechanism there will be resistance that will redirect the wind direction and into another tube sand will be filtered outside.Produced electricity will be stored into specialty covered lithium-ion battery, which can distribute energy thought the device and with it we can discover new areas.
Link to Final Project
Link to Project "Demo"
Detailed Project Description
we created the product which help to the Venus rover to produced the energy. The wind will reach into the robot by the opened pipe with the sand. They will attack the resistance of titanium ,the wind will jump aside and will get into the pipe where there is the wind generators and they improve the kinetic energy to electro energy.
Electroenergy will charge the batterries of lithium-ion which would be pack by the titanium. From this , the energy would be distributed into the other parts of rover. This mechanism would be on the several places that provides the enough energy for rover.
Space Agency Data
When we first started working on this project, we started to look into Venuses harsh climate: high temperatures, neverending strong winds, surface covered with sand, high radiation, thick clouds made from sulfuric acid and etc. In addition we researched Rovers already made by NASA to understand how they operate and stumbled upon design of prize winning vehicle that helped to simplify our invention.
Hackathon Journey
our team offers the challanges that deeps our knoledge more. we worked together and create that we planed. This idea would be more developed and improved in the future.
Before we were participants of fthis project I have been an usual boy who knew a lot in his mind. But it turned out the planets may be radically different to each other around us. e.x.for climate, gravitation and many other natural habitats. We understand that it is necessary different methods and abilities to adopt different planets. Because of this we tried to give each explaned and needful abilities and methods to our machine. We suppose, that it is successfull. On the application day our goal was to choose such challange as would help us to learn foreigh places and fortunatelly, we appeared Venus challange that made us gratefull and gave us the wish to get across this challange. And now, We could this. Now we are ready for any challanges.
We wanted to create as simple, minimalistic and functional design , which we worked hard and achieved our object.
the members of team "Shamaia" tried to use all materials from the books,internet resources and from our knowledge for cutting our problem.Also we had the meeteing to our metors that made a great influence with our methods of toughts and teach us to find the simple way out to cut the problem.
Thanks for Elene Gogolasvili for the opportunity to learn and improve ourselves and our abilities. Also thanks for Tech Club that gave us the space for united working.
References
websites:
- https://www.nasa.gov/sites/default/files/atoms/files/beyond-earth-tagged.pdf
- http://astro.if.ufrgs.br/solar/sovvenus.htm
- https://www.cei.washington.edu/education/science-of-solar/battery-technology/#:~:text=A%20lithium%2Dion%20(Li%2D,and%20separated%20from%20their%20electrons.
- https://mars.nasa.gov/mer/~
- https://mars.nasa.gov/mars2020/spacecraft/rover/electrical-power/?fbclid=IwAR17p98gGSDfB7HSfh3zBp86UAfId_cUOzSFtZiOMTO9FXiE-GrxdWCJP-w
- https://mars.nasa.gov/mars2020/spacecraft/rover/cameras/?fbclid=IwAR05VO7QeDE59Vd66NpnbNjIti2qD07IOuvetuPCZ2vplZmeoxRrDUGGHx8
- https://en.wikipedia.org/wiki/Kinetic_energy
- https://www.nasa.gov/feature/jpl/nasas-venus-rover-challenge-winners-announced
- https://www.google.com/search?q=temperature+on+venus&oq=temperature+on+venus&aqs=chrome..69i57j35i39j0i512l8.6287j1j7&sourceid=chrome&ie=UTF-8
- https://www.google.com/search?q=venus+climate&sxsrf=ALiCzsYJPsBG-2rtZo-B6Semp8hISLn9Vg%3A1664733188425&ei=BNA5Y_q9GfON9u8Pp6GIMA&oq=venus+&gs_lcp=Cgdnd3Mtd2l6EAEYATIECCMQJzIECCMQJzIECCMQJzIECAAQQzIICC4QgAQQ1AIyBQguEIAEMgUILhCABDILCC4QgAQQxwEQrwEyBQgAEIAEMgUIABCABDoKCAAQsQMQgwEQQzoKCC4QgAQQhwIQFDoRCC4QgAQQsQMQgwEQxwEQrwE6DgguEIAEELEDEMcBEK8BOgsIABCABBCxAxCDAToLCC4QgAQQsQMQgwE6CAgAEIAEELEDSgQIQRgASgQIRhgAUABYwgVg6hdoAHABeAGAAeoEiAGpC5IBBzAuNS41LTGYAQCgAQHAAQE&sclient=gws-wiz
- https://www.irena.org/wind
- https://en.wikipedia.org/wiki/Wind_turbine#:~:text=A%20wind%20turbine%20is%20a,60%20GW%20added%20each%20year.
book:
- carl sagan - cosmos
Mentors:
- Nukri Tusishvili - Product Manager at Webiz Georgia
- Davit Nozadze - teacher at robolab
- Nika Yufaradze - designer, illustrator
- Juansher Jejelava - professor at Ilia university at particle physicist
- Sopi Zambaxidze - Corporate Portfolio Risk Manager at TBC Bank
- Elene Darjania -Head of experimentation. System thinker. Urban planner. Educator.
video:
images:
Tags
#Shamaia, #venus, #venus-rover, #energy, #wind, #kinetic-energy, #lithiumbattery, #generateenergy , #batterypower,