Redox Flow Battery Charging: Understand Electrochemistry

AI Thread Summary
The discussion focuses on the electrochemistry of redox flow batteries, particularly the charging process. It highlights that DC current energizes electrons in the electrolyte, enabling chemical reactions that store electrical energy as chemical energy. The conversation also touches on reversible chemical reactions and the factors that influence their direction, specifically in the context of oxidation reactions in vanadium redox flow batteries. Understanding the energy transfer during charging, where energy supplied by electrons facilitates these reactions, is emphasized as a key concern. Clarifying the participant's chemistry knowledge is suggested to provide more tailored assistance.
cormzy
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How does DC current in an electrode covert its electrical energy into chemical energy.
I am researching the electrochemistry of redox flow batteries, however, I do not understand the charging process.
As I understand DC current arrives in an electrode and transfers energy to excite electrons in the electrolyte thus providing energy to trigger a chemical reaction (storing electrical energy as chemical energy).
I am desperate to understand this concept and any help would be invaluable!
Many thanks,
 
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Your question is more chemistry rather than EE. So before answering, please tell us a bit about your level of chemistry knowledge.

If a chemical reaction is reversible, what drives it to go one direction or the other?
 
anorlunda said:
Your question is more chemistry rather than EE. So before answering, please tell us a bit about your level of chemistry knowledge.

If a chemical reaction is reversible, what drives it to go one direction or the other
In the case of oxidation reaction that needs to occur in a vanadium redox flow battery,
VO2++H2O -- VO2+ +e- +2H+
This reaction requires an input of energy in order to allow this reaction to occur, as VO2 + has a higher chemical energy than VO2+ I want to know the energy supplied by charging electrons is exchanged to the chemicals.
 
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