Which Reducing Agent Can Efficiently Bind and Release Oxygen?

  • Thread starter Thread starter kateman
  • Start date Start date
AI Thread Summary
A user is seeking a reducing agent capable of binding oxygen in a small system, allowing for its later removal through electric current or heat. The discussion suggests the concept of a closed-loop electrolysis of water to remove and recombine oxygen. A specific recommendation is made for using chromium trioxide on refrigeration-grade adsorption silica, detailing a method where the silica is treated and heated to facilitate oxygen scavenging. The process involves passing dry nitrogen and carbon monoxide through the silica, which changes color as it absorbs moisture and oxygen. The user expresses interest in exploring various options for oxygen removal, indicating a desire for experimentation rather than a specific solution.
kateman
Messages
113
Reaction score
0
Hello, I am looking for a reducing agent that will, at least partially, take oxygen out of a small system and will allow that oxygen to evolve if it was exposed to an electric current or given sufficient heat etc.
Basically I want something to bind oxygen and allow me to get rid of it at some later point and be able to repeat the process once again [ideally not by a chemical reaction, but I am open to all suggestions].

Any and all ideas are welcomed, thanks!
 
Engineering news on Phys.org
You mean like a closed loop electrolysis of water? where the oxygen is removed from the water and then allowed to recombine with the water?
 
You are looking for an oxygen getter material. There are several that I am familiar with but the one that I have used most is chromium trioxide on refrigeration grade adsorption silica. Chromium trioxide is dissolved in water and slurried with the silica which is then dried, loaded into a thick-walled glass column equipped with inlet and outlet gas-tight fixtures. The loaded column is wrapped with resistive nichrome tape and then insulated with glass wool. The orange/brown silica is slowly heated to a few hundred degrees C while dry nitrogen is passed through the column. When the silica has given up its adsorbed water, the column is cooled somewhat and carbon monoxide is flowed through for about a half hour. Following this, the heating is discontinued while dry nitrogen is slowly passed through until the column is RT. The silica is now a blue color that turns purple as is absorbs moisture and finally brown as it scavenges oxygen from the carrier gas. I used this system for years in my air/water-free reactions.

Repeat the process when the column is depleted. I forget the details such as the particular temperatures I used.
 
Thank you PaulS1950 and chemisttree for your suggestions, particularly chemisttree for your detailed responce.

Iam not after anything in particular, rather Iam just trying to find out what possible options there are out there for me to play with.

Thanks again!
 

Similar threads

Was Photosynthesis at first sustainable?
Replies
9
Views
4K
Can Sodium Carbonate be Produced Using a DIY Setup?
Replies
8
Views
3K
Oxygen Enriched Internal Steam Compression Ignition Engine (OEISCIE)
Replies
14
Views
4K
Can bacteria be used as a control agent to fight viral infections?
Replies
1
Views
2K
Writing: Input Wanted Spacecraft One Alpha 10: Energy, Materials & Protection
Replies
2
Views
2K
Cooking (Thermodynamics) Problems
Replies
14
Views
4K
Chemically regenerating my auto's catalytic converter?
Replies
19
Views
7K
Building a wall to reduce maximum collision force
Replies
5
Views
2K
"Ground" and "Center Tapped" Power Transformer Secondary in guitar amp
Replies
6
Views
3K
Is Nuclear Power More Efficient Than Coal in Energy Production?
Replies
10
Views
13K

Hot Threads

Recent Insights

Back
Top