As a major mining power in South America, Chile has a developed copper and lithium mining industry. A large amount of high-salt wastewater is generated during the mining process, and there is an extremely urgent demand for evaporation crystallization salt production, resource recycling and environmental compliance. With nearly 20 years of R & D and production experience in skid-mounted MVR evaporators, Baihuipu has successfully exported CE/UL dual-certified skid-mounted MVR evaporators (focusing on the core function of evaporation crystallization salt production) to Chile. Relying on the brand's patented technology and customization advantages, it accurately adapts to local mining high-salt wastewater conditions, realizes integrated treatment of efficient evaporation, crystallization and salt production, helping Chilean enterprises achieve environmental compliance and resource recycling.

Chile's mining high-salt wastewater has extremely high salt content and contains heavy metal ions, requiring strict purity of crystallized salt. At the same time, some mine projects are located on plateaus with complex climates, which have extremely high requirements for the weather resistance and stability of equipment. Traditional evaporation equipment is prone to failure and fails to meet the salt production purity standard, making it difficult to adapt to on-site needs. Baihuipu's skid-mounted MVR evaporator focuses on the function of evaporation crystallization salt production, adopts a patented high-efficiency crystallizer, with stable salt production purity ≥ 98.5%, which can be directly recycled as industrial salt for reuse. It is equipped with the brand's independently developed low-temperature operation system for plateaus, adapting to Chile's plateau climate. At the same time, the skid-mounted modular design does not require complex civil engineering, and installation and commissioning can be completed in 5-7 days, solving the construction problems in plateau areas. Relying on intelligent energy-saving technology, the energy consumption is reduced by more than 60% compared with traditional equipment.