01
EMEGUSSE
A important objective of humanity is to reach unexplored places, it happens to be able to learn about the development of our environment and how it helps us improve our way of life. Venus is a place with extreme conditions, which seems like an unattainable goal. For this reason I have created the HAD (Heading for the acid desert) project, to explore the unexplored, seeking to help civilization advance through current technology adapted to function in the "Morning Star", demonstrating that it is possible to harness energy in infertile ecosystems through their energy sources on the planet. I hope that this project helps all people to think that Venus is difficult, not something imposible.
02
The mission
We wanted to work on the challenge of emploring Venus together because of the interest in working in a complicated environment, go to the official NASA website and observe something that I loved, generating energy, not carrying it, to help the experts with a small idea; you have to get to Venus, it's not optional, but what will become of us if we can't explore our sister planet? For this reason, I chose to develop EMEGUSEE, advance to another planet to change the idea that it is not possible to advance into the unknown.
Renewable energies are being promoted on earth, but they are not used enough to generate a positive aspect on earth, the use of renewable energies in the world is a key to talk about leaving the planet, where we can aspire to advance to the implementation of these in other functional places, to start a sustainable technological development
There were problems in the development of the website and the knowledge that I had about the information of the elements suitable for Venus; however, we were able to work on what was necessary for the project and approach it to the best of our ability to achieve our challenge.
03
DETAILED PROJECT DESCRIPTION
The EMEGUSEE system (Electron motion energy generator using silicon for extreme environments), is a project that aims to use the heat on Venus to generate electricity through silicon plates, from the movement of electrons when in contact with high temperatures. The project is based on NASA resources and the use of thermal energy. In addition, it is sought that companies and NASA take advantage of the planet's own sources. With the project, Venus' exploration and data-logging systems will be able to last longer using renewable energy. I hope it will be used as a basis to show that pollution does not have to be taken to another planet
Power generating system
The heat reaches the stainless steel layer that is outside, protecting it from extreme conditions (pressure, temperature, toxic gases, etc.), from there the heat travels to the silver layer that protects the generating system and is a good thermal conductor. At this point in the process, the heat reaches the layer of silicon alloyed with boron, which has an excess of electrons, these begin to move to the other layer of silicon alloyed with phosphorus, which has a shortage of these, becoming positively charged and generating electricity; but so that the energy does not expand through the system, it is contained in its layer by means of vitroceramic glass. Then there is a layer of thermoplastic polyurethane to serve as thermal and electrical insulation. Then there are two layers of silicon alloyed with boron and phosphorus respectively, which are surrounded by glass-ceramic glass; its function is to cool the system since the difference in composition generates a thermal difference that cools the EMEGUSEE, but which is isolated by the vitroceramic glass so as not to generate a short circuit. Finally there is the osmium layer for thermal and pressure protection purposes of the battery
Switch system
The energy flow of the energy generator is regulated by two upper switches that close the passage if there is overheating, technical failures or if the battery is storing the possible energy limit
Current system
Inside the osmium tubes and the thermoset polyurethane thermal and electrical insulator are the copper wires that carry the positively and negatively charged electrons from the battery or the electricity generator wrapped in a polyetheretherketone cover. These are regulated by food switches that regulate the flow of electricity
Power storage system
The Yttrium battery stores electricity, since with cathode, anode and electrolytic with zirconium components it helps conductivity, is responsible for storing energy and is protected by a layer of osmium
