Exothermic reactions that release hydrogen?

In summary, exothermic reactions that release hydrogen are chemical reactions that result in the production and release of hydrogen gas. These reactions typically involve combining hydrogen with another element or compound, which results in the breaking of chemical bonds and the release of energy in the form of heat. Common examples of exothermic reactions that release hydrogen include the reaction between acids and metals, such as hydrochloric acid and zinc, and the reaction between water and alkali metals, such as sodium. These reactions are important in various industrial processes, such as the production of ammonia and hydrogen fuel cells.
  • #1
technobot
29
0
Hello, I was wondering if there are any exothermic (or otherwise spontaneous) chemical reactions that release hydrogen, in which the reagents and products aren't strongly hazardous?

I know of the reaction of alkali metals with water, but these produce strong alkaline solutions.. Perhaps one could use some extra additive to make this less hazardous (e.g. maybe precipitate some harmless salt of the alkali metal)?
 
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  • #2
Any reagent that is reactive enough to release hydrogen exothermically will by definition be hazardous. Hydrazine is a perfect example of this.

H2N2H2 + catalyst (Ru, Fe2O3, FeN...) -----> 2H2 + N2 + heat
 
  • #3
Just two, exothermic, Hydrogen producing chemical reactions that I can think of off the top of my head would be reactions between metals and acids (for example, Magnesium reacting with Hydrochloric acid), and also the reaction between Aluminum metal and a Sodium Hydroxide solution.
 
  • #4
Easy method to extract hydrogen from water discovered

Saw this on Eco-Talk TV show and researched it. It's pretty interesting.

Apparently, if you melt together aluminum and gallium and create an alloy, when you later add water, it reacts and releases hydrogen. This was discovered a few months ago at Purdue U., patented and the rights have been sold to a company named AlGalCo, LLC.

Read more here:

http://www.physorg.com/news98556080.html

The remaining question is whether other, less expensive metal alloys would exhibit similar properties.

Reminds me of all those turn-of-the-century anectodotal stories about inventors making fuel from water, who were put out of business by the oil companies. Maybe some of them were true.
 
  • #5
Walk_the_Walk said:
Saw this on Eco-Talk TV show and researched it. It's pretty interesting.

Apparently, if you melt together aluminum and gallium and create an alloy, when you later add water, it reacts and releases hydrogen. This was discovered a few months ago at Purdue U., patented and the rights have been sold to a company named AlGalCo, LLC.

Read more here:

http://www.physorg.com/news98556080.html

The remaining question is whether other, less expensive metal alloys would exhibit similar properties.
Alcali metals, for example (Gallium is quite expensive). Anyway, if it weren't for its higher toxicity, you could use mercury, which has the same effect on aluminum; worse, if you touch an aluminum body with an object having some mercury metal or mercury(II) salt, that Al body will start to "rotten" in air, especially in the presence of acqueous vapour. (Hg amalgamates continuously with Al making it react with oxygen or water).
 
  • #6
I believe that high lithium content aluminum alloys will do the same thing. The energy output (H2) per weight is much better for this alloy than the Al/Ga as well. It certainly costs less as well.

All this is moot, however, since any metal that can produce hydrogen in contact with water will never be available to the public. This is due to the use of these metals in the illicit manufacture of drugs (and you know who you are!).

As soon as this material was made available to the market it would go to baaad places and people.

What's next? A hemp-powered steam car? Maybe for the California market. I could just imagine it now... "Oh, man! I need this medical marijuana to power my car to go to the doctor!" Yeah, and I need to tailgate him as well! (for medical reasons, of course)
 
  • #7
thanks for your reply - it is interesting and insightful, but your comments on hemp are so far off base that, with all due respect, I wonder if you have ever researched anything on this topic. If you were to do so, you would learn that the industrial version of hemp has many, many wonderful properties and uses; produces a great deal of natural oils, could be used to supplant our dependency on foreign oil, and most important of all - contains about 0.03% THC. That is, you could not get high on it if you tried.

Unfortunately, the 'reefer madness' era and the Reagan era has all but shut down most industrial uses of hemp, unless you live in Canada.

But, I am not trying to start another thread, here, just pointing out some important facts.
 
  • #8
I was kind of hoping that my hemp comments were a little off somewhere...
I didn't know about the hemp oil, though. Thanks for the heads up.
(now, where did that tongue-in-cheek emoticon go?)
 
  • #9
Mg + H20

If the water is steam, it'll work quicker, but the Mg will replace the H2 in a single displacement reaction giving you hydrogen gas.
 

1. What is an exothermic reaction that releases hydrogen?

An exothermic reaction that releases hydrogen is a chemical reaction in which energy is released in the form of heat and hydrogen gas is produced. This type of reaction is often used in industrial processes and can also occur naturally, such as in the reaction between water and certain metals.

2. How does an exothermic reaction that releases hydrogen occur?

An exothermic reaction that releases hydrogen occurs when a chemical bond is broken, resulting in the release of energy. This energy is used to break apart molecules and create new ones, in this case, producing hydrogen gas as a byproduct.

3. What are some examples of exothermic reactions that release hydrogen?

Some examples of exothermic reactions that release hydrogen include the reaction between water and sodium, the reaction between hydrochloric acid and zinc, and the reaction between aluminum and hydrochloric acid. In all of these reactions, hydrogen gas is produced along with heat.

4. What are the uses of exothermic reactions that release hydrogen?

Exothermic reactions that release hydrogen have many practical uses, including in the production of ammonia for fertilizers, in the refining of metals, and in the production of hydrogen fuel cells for clean energy. These reactions are also used in various industrial processes, such as in the production of plastics and in the manufacture of electronic components.

5. Are exothermic reactions that release hydrogen dangerous?

Exothermic reactions that release hydrogen can be dangerous if not handled properly. The release of hydrogen gas can lead to explosions if it is not properly controlled. Additionally, some of the reactants used in these reactions can be hazardous if handled incorrectly. It is important to follow safety protocols and use proper equipment when conducting exothermic reactions that release hydrogen.

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