It may seem too good to be true, but Water rockets fill up is a real possibility. In fact, NASA has been working on developing a hydrogen gas engine for decades, but no one has developed a practical, functional one. In the rush to find alternatives to fossil fuels, the aerospace industry is looking to H2-based machines are waiting for NASA to find the source of water in space.
H2Rockets can: how do they work?
Hydrogen gas is the energy that causes H2– rocket power. The fuel works through an electrochemical reaction to make the engine and gas expand. The specific electrochemical reaction is electrolysiswhich involves splitting water molecules into hydrogen and oxygen by electricity. The gas can be stored and released to provide a boost as needed.
Although the idea of ​​sending rockets into space on water may seem like a New Year’s idea, NASA has been working on hydrogen engines since the company was still in its early days. If you consider that hydrogen and oxygen have been used in rockets since the 60s, it is not far-fetched that water will be the fuel of the future.
Fortunately, hydrogen creates something maximum exhaust speed any of the rocket fuel options. Then, oxygen is added for ignition. All that is required to split water into its two components is an applied electric charge. Good luck, right?
The first performance of water-powered engine technology
The first prototype work of 1969 found good results in performance, longevity, safety and power requirements. NASA’s research paper on the experiment reads:
“Obviously, water-electrolysis rockets offer many advantages over other control systems.”
However, the exception at that time was the complexity of the technology. Another prototype study conducted in 1997 said that the size and weight of the water-electrolysis engine and the amount of energy produced made NASA put the project on the back burner until recently.
Now, the idea of ​​H2These powered rockets are an important part of the company’s plan to explore deep space because the program requires use water found in asteroids or in other solar systems such as rocket fuel.
The resolution is in H2– Rocket powered
As with any new technology, there are many Confusion to overcome in the design and implementation of the active water stimulation system:
- Damage and pollution: The equipment should be protected from corrosion and other things that cannot damage the electrolysis part.
- Weight: Weight of H2-Engines should be throttled so they can start.
- Time and money: A lot of money is required in both.
- Research and development: The number of projects is limited.
Action in the aeronautics sphere: Is there a future for water-based space travel?
Thanks to reduced manufacturing costs, Space shooting opportunities have opened up to many playerssuch as SpaceX, Blue Origin, Virgin Galactic, and Boeing. According to GlobalData, a data and research company based in London, more than 660 companies, including various technology vendors, aerospace and defense companies, and startups, work in to create water-producing rockets.
For NASA, in particular, the main goal is to explore the possibility of finding, recovering, and cleaning water efficiently in space. If burning oil is not possible, water as fuel is not possible. Elwood Agasid of the Ames Research Center, which is currently working with one of the aerospace companies looking at the technology, warned:
“But if you think you can, this technology will allow you to do deep research and not worry about running out of production.”
NASA is working to ensure that there is relenishable fuel source and spacebecause using the power of water to exploit the future of green aerospace exploration, we need to know that it gets first.
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