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How Lead Dioxide (pbo2) Anode is Used in Textile Wastewater Treatment?
How Lead Dioxide (pbo2) Anode is Used in Textile Wastewater Treatment? Electrochemical methods offer an environmentally friendly way of removing toxic inorganic or organic species via redox reactions. These methods may be a good option for textile wastewater treatment, since they are easy to implement, versatile, and can lead to high organic and color removals; their main drawbacks regarding the use of electrical energy and the poor current efficiencies attained at low pollutant concentrations. However, the use of adequate ano
Why Iridium Coated on Titanium Substrate is an Excellent Material for Oxygen Evolution Reaction?
Why Iridium Coated on Titanium Substrate is an Excellent Material for Oxygen Evolution Reaction? The anodic oxygen evolution reaction (OER) has significant importance in many electrochemical technologies. In anodic oxygen evolution reaction (OER), due to the extremely corrosive acidic environment and the high potential required to drive this reaction. Only a few materials are able to meet the necessary requirements to simultaneously provide sufficient reactivity and durability in harsh oxidizing conditions. Typically those are o
Why DSA Titanium Anodes are Used in Chlorine Evolution Reactions?
Why DSA Titanium Anodes are Used in Chlorine Evolution Reactions? The chlorine evolution reaction is one of the most important practical applications of electrochemical reactions carried out on an industrial scale. In this reaction, sodium chloride is electrolyzed producing chlorine gas at the anode as well as sodium hydroxide and hydrogen at the cathode. Industrial chlorine evolution is performed on “dimensionally stable anodes″, on which corrosion and other degradation processes progress only slowly. Dimensionally
The Property and Application of Titanium Metal
The Property and Application of Titanium Metal The metal titanium has a density between aluminum and steel. It is the ninth most abundant element in the Earth’s crust and the fourth most abundant structural metal. Titanium has the strength of alloyed steel and the density of aluminum. Uses for titanium have expanded, based on its inherent properties as well as on the development of new alloys. The major use is still in airborne applications, such as engines, airframes, missiles, and spacecraft. Aerospace applications
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