News hardware The largest reservoir of hydrocarbons is not on Earth, it is in space and we know where!
What if our salvation does not come from our favorite planet Earth but from another planet that is a light year away from us? As the world seeks an alternative solution to hydrocarbons from Russia, a glimmer of hope has dawned 1.5 billion kilometers away from us.
- Be less dependent on specific countries and plan for the future
- From Earth to the Moon x 3800: Discovery of Titan, Saturn’s Natural Satellite
- 2001, a space Odyssey
- Really exploitable major discovery?
Be less dependent on specific countries and plan for the future
The current conflict between Russia and Ukraine in Eastern Europe has affected the entire world economy and is forcing us to look for alternatives, especially from Russia’s dependence on gas and hydrocarbons.
If there is no shortage of raw materials in the world at the moment, Russia, a third world oil producer, supplies more than 60% of the gas to Europe, and for certain countries it could go up to 80%. A worrying situation, especially when we know that Russia does not comply with their new rules (payment only in rubles) and threatens to cut off floodgates for countries whose reserves are of concern and guarantee no further. Winter
Although the United States and the Gulf states have expressed a desire to increase their production to meet sanctions against Russia, the long-term solution may be far from real, far, far away … in light years away in a galaxy.
From Earth to the Moon x 3800: Discovery of Titan, Saturn’s Natural Satellite
If the discovery is not new, it is now taking a completely different turn, with the current situation and future predictions.
It was in 1988 that NASA decided to give the green light to the Cassini-Hygens mission, a mission to study the behavior of a natural satellite of Saturn, which is considered to be “very close to Earth” in its design. It is estimated that this satellite will be almost identical, despite the announcement of Earth -179 degrees Celsius about 4 billion years ago.
The only “problem” is that apart from 1.5 billion kilometers away from us, its extremely dense atmosphere, made up of dense clouds, interferes with any conventional observation by our satellites and so it was decided to send a probe to study it. .
This is where the Cassini-Hygens mission was born, named after the two space explorations used, namely the Orbiter (Cassini) and its Lander (Hygens). And if the launch happened on October 15, 1997, It took about 7 years to reach Saturn’s orbit July 1, 2004 and a few more months to search for Huygens to land on Titan, January 14, 2005.
2001, a space Odyssey
Contrary to popular belief, Titan is not a planet but a natural satellite of Saturn. The two are often confused, but they should not be confused.
A natural satellite is a star that revolves around another star, like the moon revolves around the earth, while a planet is a star which revolves around a star like the earth which revolves around the sun. So Titan revolves around Saturn at a distance of 1,221,865 km, which allows us to make a complete rotation in 15 days, 22 hours, 41 minutes and 24 seconds as opposed to 365 days for us.
When the Huygens probe landed on Titan, we had no idea what we were going to discover, and were surprised when the first images arrived. We have been able to discover lakes and rivers but also sand dunes. The material is very close to what we know in the world in a nutshell.
Really exploitable major discovery?
But what interests us most today is the amount of hydrocarbons found on this rocky planet. With all the data collected thanks to Cassini before the end of the mission in 2017, It has been established that Titan contains 40 times more hydrocarbons than all the oil wells on earth. Known-unknown.
Note that a new mission called “Dragonfly” on Titan is planned to takeoff in 2026 and reach the site in 2034. The initial mission, which will last about 3 years, will measure the composition of different types of materials. Land.
According to NASA, the value of all the minerals stored in the asteroids in the first belt of our solar system would be one hundred billion dollars for every person on Earth. 7.7 billion inhabitants x 100 billion, We let you do the math …
Now the question is: what do we do with all this information? Exploitation of these materials, even if they are technically “proven”, takes years to figure out how to get them back to us. To answer all these questions we will leave it to Elon Musk …
By LudlinkJournalist jeuxvideo.com