A salt-containing waste liquid incinerator is a specialized unit designed for the treatment of high-concentration salt organic wastewater. The system applies advanced thermal oxidation technology to completely decompose organic pollutants, while melting or solidifying inorganic salts for safe and continuous discharge. RUIDING’s equipment offers significant advantages, including smooth and clog-free salt removal, stable high-temperature operation, low operating costs, and excellent waste heat recovery efficiency.
It is widely used in the treatment of high-salinity industrial wastewater from sectors such as petrochemicals, pharmaceuticals, pesticides, textiles and dyeing, and papermaking, effectively achieving harmless, reduced, and resource-efficient disposal. By integrating waste heat utilization and flue gas purification systems, it also contributes to energy conservation and environmental protection, supporting the green transformation of industrial production.
theory
Salt-Containing Waste Liquid Incinerator operates on the principles of thermal oxidation and salt separation. It is designed to completely oxidize high-concentration organic waste liquids while separating inorganic salts as molten or solid residues. This process ensures safe, continuous, and efficient disposal of saline wastewater, converting chemical energy into usable thermal energy such as steam or hot water.
The system features a high-temperature combustion chamber with corrosion-resistant refractory materials and a self-cleaning salt discharge structure, preventing blockage and scaling. It achieves destruction efficiencies above 99.99% and can withstand operating temperatures up to 1,200 °C.
ADVANTAGES
Efficient Salt Discharge
Smooth, clog-free salt separation ensures continuous operation even under high salinity and complex waste compositions.
High Oxidation Efficiency
Achieves >99.99% destruction of organic pollutants, meeting strict emission and safety standards.
Durable Structure
Refractory and corrosion-resistant materials withstand up to 1,200 °C with over 15 years of service life.
Energy-Saving Design
Integrated waste heat recovery reduces fuel use by 20–30% and lowers overall operating costs.