H2O2 is a green chemical and environmentally friendly oxidant, it can selectively oxidize many pollutants and can decompose to O2 and Water making no other residues, that can be produced industrially in large scale with the anthraquinone process. H2O2 exhibits exceptional selectivity in oxidizing a wide range of pollutants, including organic compounds, heavy metals, and inorganic contaminants. Its ability to target specific pollutants while minimizing the formation of undesired byproducts makes it an attractive option for sustainable oxidation processes. The alternative method is direct electrochemical of H2O2. One of the advantages of electrochemial on-site production of H2O2 is that can be used in the point of production without transportation and storage need, In this case using the best catalyst that is more selective for the 2 electron- reduction reaction of oxygen.

H2O2 is a green chemical and environmentally friendly oxidant, it can selectively oxidize many pollutants and can decompose to O2 and Water making no other residues, that can be produced industrially in large scale with the anthraquinone process. H2O2 exhibits exceptional selectivity in oxidizing a wide range of pollutants, including organic compounds, heavy metals, and inorganic contaminants. Its ability to target specific pollutants while minimizing the formation of undesired byproducts makes it an attractive option for sustainable oxidation processes. The alternative method is direct electrochemical of H2O2. One of the advantages of electrochemial on-site production of H2O2 is that can be used in the point of production without transportation and storage need, In this case using the best catalyst that is more selective for the 2 electron- reduction reaction of oxygen.

Onsite electrochemical production of hydrogen peroxide from water, air, and electricity

GERANIKOLAHLOOEI, HANIEH
2022/2023

Abstract

H2O2 is a green chemical and environmentally friendly oxidant, it can selectively oxidize many pollutants and can decompose to O2 and Water making no other residues, that can be produced industrially in large scale with the anthraquinone process. H2O2 exhibits exceptional selectivity in oxidizing a wide range of pollutants, including organic compounds, heavy metals, and inorganic contaminants. Its ability to target specific pollutants while minimizing the formation of undesired byproducts makes it an attractive option for sustainable oxidation processes. The alternative method is direct electrochemical of H2O2. One of the advantages of electrochemial on-site production of H2O2 is that can be used in the point of production without transportation and storage need, In this case using the best catalyst that is more selective for the 2 electron- reduction reaction of oxygen.
2022
Onsite electrochemical production of hydrogen peroxide from water, air, and electricity
H2O2 is a green chemical and environmentally friendly oxidant, it can selectively oxidize many pollutants and can decompose to O2 and Water making no other residues, that can be produced industrially in large scale with the anthraquinone process. H2O2 exhibits exceptional selectivity in oxidizing a wide range of pollutants, including organic compounds, heavy metals, and inorganic contaminants. Its ability to target specific pollutants while minimizing the formation of undesired byproducts makes it an attractive option for sustainable oxidation processes. The alternative method is direct electrochemical of H2O2. One of the advantages of electrochemial on-site production of H2O2 is that can be used in the point of production without transportation and storage need, In this case using the best catalyst that is more selective for the 2 electron- reduction reaction of oxygen.
Hydrogen Peroxide
Electrochemical
Membrane
Electrodes
File in questo prodotto:
File Dimensione Formato  
Final Thesis Hanieh Geranikolahlooei.pdf

accesso riservato

Dimensione 4.21 MB
Formato Adobe PDF
4.21 MB Adobe PDF

The text of this website © Università degli studi di Padova. Full Text are published under a non-exclusive license. Metadata are under a CC0 License

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/55580