Micro-electrolysis Catalyst
This series of catalysts is a multi-component catalytic oxidation catalyst developed to address the challenges of difficult-to-degrade and poorly biodegradable organic wastewater. It has obtained a national invention patent as a new type of micro-electrolysis catalyst in China. It is produced by combining multi-metal alloy catalysts using high-temperature microporous activation technology and belongs to the new type of dosing, non-caking micro-electrolysis catalysts. When applied to wastewater, it efficiently removes COD, reduces color, improves biodegradability, and ensures stable and long-lasting treatment effects, while also preventing issues such as catalyst passivation and caking during operation
The new type of micro-electrolysis filler (iron-carbon filler) is sintered at a high temperature of around 1300°C. It features an integrated iron-carbon structure, fused catalyst, microporous framework alloy structure, large specific surface area, high activity, and high current density. It can efficiently remove COD, reduce color, and improve biodegradability, providing stable and long-lasting treatment effects while preventing issues such as filler passivation and caking during operation. Compared to modified iron particles used in steel pelletization available on the market, this product's treatment efficiency is more than doubled.
Advantages
Features:
Sintered at 1300°C, stable and efficient
No caking, no passivation
Direct supply from the manufacturer, free samples available
Efficiently removes COD
Reduces color
Improves biodegradability
Provides long-lasting, stable treatment effects with low consumption
1: Iron-carbon filler is composed of a high-temperature melted multi-metal fused catalyst, ensuring the "galvanic cell effect" remains continuously effective.
2: Iron-carbon filler can operate in various scenarios, featuring high activity, lightweight properties, no caking, no passivation, and fast reaction speed, ensuring stable and effective long-term operation. For general industrial wastewater, treatment typically takes only half an hour to several hours.
3: Simple process, long service life, low investment cost, easy operation and maintenance, low operating cost, and stable treatment effects. During treatment, only a small amount of micro-electrolysis reagent is consumed.
4: Excellent coagulation effect, high color and COD removal rates, significantly enhancing the biodegradability of wastewater.
5: After micro-electrolysis treatment, the wastewater generates native ferrous or iron ions in the water, offering better coagulation performance than ordinary coagulants. There is no need to add additional iron salts or other coagulants, and it does not cause secondary pollution to the water.
Applications Of Micro-Electrolysis Catalyst Dye, chemical, pharmaceutical wastewater, coking, and petroleum wastewater : After treatment, the COD value of the wastewater significantly decreases, and the BOD/COD ratio increases substantially. Textile dyeing wastewater, leather wastewater : It has excellent decolorization effects and significantly removes COD.
Electroplating wastewater, printing wastewater, mining wastewater, and other heavy metal-containing wastewater : It can remove heavy metals from the above wastewater. Organophosphorus agricultural wastewater, organochlorine agricultural wastewater : It greatly improves the biodegradability of the above wastewater and can remove phosphorus and sulfides. Precautions For Use 1: Micro-electrolysis water treatment fillers should be protected from water and corrosion before use. Once water is flowing through the system, it should always be kept wet to prevent oxidation in the air, which could affect performance. 2: During operation of the micro-electrolysis system, appropriate aeration levels should be maintained; excessive and prolonged aeration should be avoided. 3: The micro-electrolysis system should not operate for extended periods under alkaline conditions. 4: The suitable pH range for micro-electrolysis operation is around 3.
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