Why Does Compressing Hydrogen Increase Explosion Risks?

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Compressing hydrogen increases explosion risks primarily due to the higher pressure required to contain it, which can lead to vessel breaches. An explosion is defined as a rapid release of pressure, and in the case of compressed gases, this pressure can result from mechanical failure or overpressure. When hydrogen is released, it poses a secondary risk of ignition, especially in larger quantities, as it can expand into a wider area before dilution occurs. This increased area heightens the likelihood of encountering an ignition source. Understanding these dynamics is crucial for safely handling compressed hydrogen.
Pranav Jha
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It is repeatedly mentioned that "compressing hydrogen carries a significant risk of explosion"?. But why does compression of hydrogen carry explosion risk? Is it true for all gases?
 
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Do we somehow increase the chances of "explosion" (defining the term while explaining would be helpful) by compressing a gas?
 
Hydrogen by itself isn't explosive, but compressed oxygen with anything that is flammable or oxygen compressed with another flammable gas can be explosive.
 
What role does "compression" play here?
 
I meant how does compression go on to increase the chance of explosion?
 
Pranav Jha said:
I meant how does compression go on to increase the chance of explosion?

The more highly compressed the hydrogen is the more will be required of its containment vessel. Given the same vessel a higher pressure will be more likely to breach the vessel. In addition, the higher the pressure, the more energy is released, the more likely the uncontrolled release will cause damage, injury, death, etc...

An explosion is a rapid release of pressure. In the case of a chemical bomb the pressure is produced by the chemical reaction and released because it's container (if it has one) is designed to fail at a certain pressure. In the case of compressed hydrogen the pressure results from the compressor which put it into the storage tank, the release happens if the container fails for some reason (impact, rust, overpressure, etc...)

Once the hydrogen is released there is a secondary danger that it will catch fire causing a much higher quantity of destructive energy to be released. The more hydrogen you start with the larger area it will expand into before it becomes to diluted to burn. The larger area offers a higher probability of it finding a source of ignition.
 

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