Abstract
In modern water treatment technologies Water needs to be processed to a level that can be reused in a meaningful way. Plasma production or plasma injection in liquid water provides an opportunity to inject advanced Oxidation processes in water for purification or chemical processing. Such technology can revolutionize Drinking water treatment, as well as current practices of chemical processing by removing physical catalysts. An overview of current water treatment is presented here where Technology, its limitations and the future, may include Plasmabased advanced oxidation method. In plasma Introduction to liquid water produces and attacks a host of reactive species finally mineralize the contaminants in the solution. This interaction takes place at the boundary layer or at the interaction zone is concentrated at the plasma - liquid water interface. There are limitations of traditional plasma injection procedures which include limited throughput capacity, electrode shear and reduced Process Volume. Here the technical limitations of plasma based water reactor will also be discussed.
Highlights
UN passed a goals proclaiming access of drinking clean water a basic human right to every human being on earth
Freshwater scarcity derived from seasonal weather variations, climate change, and over‐development has led to serious consideration for water reuse
Water reuse involves the direct processing of wastewater for either indirect or directly potable water reuse
Summary
UN passed a goals proclaiming access of drinking clean water a basic human right to every human being on earth. Reactions at this point lead to expansion of products from interface and air condition, Induces chemical reactivity to the liquid state Plasma In addition to these OH production systems, many other reactions, including thermal dissociation which occurs at a higher gas temperature than that 2200K, Electron-Ion Dissociative Recombination, Water Ion Dissociation driven by hydration, interaction with radicals, Metastables and positive-negative ion recombination. Examining the overall effectiveness of different release strategies is complete These tests suggest that methods such as adding plasma above liquid water may be beneficial. Case study related to Plasma and Liquid water purification- Plasma has ability to perform AOPs as needed from a water purification perspective Because of this ability, several investigations have shown Includes plasma based water treatment, the decomposition of organic compounds - major pollutants in source water of special interest, Plasma’s ability to treat water contaminated with herbicides / Pesticides, VOCs, Bacteria and Textiles, these contaminants are representative of a portion of emerging threats to source waters.
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