LEM(Micro-electrolysis Catalyst)---Longantai Product Introduction Series 2

1. In the field of industrial wasteWater Treatment, micro-electrolysis technology has shown significant advantages. Taking a chemical plant as an example, micro-electrolysis technology was used to treat phenol-containing wastewater, and the COD removal rate reached more than 85%, and the phenol concentration dropped from the initial 500mg/L to below 20mg/L, with significant treatment effects. In the treatment of printing and dyeing wastewater, the removal rate of chromaticity by this technology can reach more than 90%, and it can effectively degrade difficult-to-degrade organic matter.
The advantages of micro-electrolysis technology are mainly reflected in the following aspects: good treatment effect, able to remove multiple pollutants at the same time; low operating cost, no need to add chemical agents; simple equipment, easy to operate and maintain; strong adaptability, can treat various types of Industrial Wastewater. However, this technology also has some limitations, such as the packing is easy to compact and the treatment efficiency is greatly affected by water quality.
2. LEM catalytic oxidation technology uses the reaction system formed by the LAT-TC series of regular high-efficiency electrochemical oxidation fillers and supporting treatment equipment produced by Long Antai Company to treat wastewater.
2.1 By utilizing the nano-catalytic filler filled in the equipment, a 1.2V potential difference is generated by itself, and wastewater is used as electrolyte. The discharge of the primary battery forms an electric current to electrolyze the wastewater to achieve the purpose of degrading organic pollutants.
2.2 The [H] generated during the treatment process can undergo redox reactions with many components in the wastewater. The working principle of this system is based on the combined forces of electrochemistry, oxidation-reduction, physical adsorption and flocculation precipitation.
2.3 The system is particularly suitable for the purification of heavily polluted water and treats wastewater through complex electrochemical-physical effects.
2.4 It can be used for the pretreatment and deep treatment of wastewater that is difficult to degrade, has high organic matter concentration, and has high salt content, so that benzene can be opened and chain broken, organic macromolecules can be oxidized and decomposed into small molecules, and COD and chromaticity can be greatly reduced.
3. The development history of micro-electrolysis technology fully reflects the important role of scientific and technological innovation in environmental protection. This technology not only provides an effective solution to the problem of industrial pollution, but also makes an important contribution to achieving sustainable development goals. With the continuous advancement of technology and the expansion of its application scope, micro-electrolysis technology will surely show greater application value and development potential in the field of environmental governance.