Classified by Material
Cast iron cyclone: With its excellent strength and wear resistance, it is suitable for processing high-concentration and high-hardness granular materials and has been widely used in industries such as mining, beneficiation, and coal washing. However, the high density of cast iron material results in a high self-weight of the equipment, and its corrosion resistance is relatively weak. Therefore, anti-corrosion measures need to be taken under specific working conditions.
Cast steel cyclone: With higher strength and compressive performance, it can operate stably under high-pressure and high flow rate conditions, especially suitable for separation scenarios that require high-pressure bearing capacity of the equipment. However, the processing difficulty and manufacturing cost of cast steel materials are relatively high, and when selecting equipment, it is necessary to consider both economy and applicability comprehensively.
Ceramic cyclone: With its excellent wear and corrosion resistance, it exhibits unique advantages in handling highly corrosive materials. In the acidic wastewater treatment process of the chemical and power industries, ceramic cyclones can operate stably for a long time, greatly reducing the frequency of equipment replacement. However, ceramic materials have high brittleness, and it is necessary to avoid severe impacts during equipment installation and operation.
Polyurethane cyclone: It has good elasticity and wear resistance, and is lightweight, making it easy to install and maintain. In industries such as food and beverage that have strict requirements for equipment cleanliness and operating noise, polyurethane cyclones have become the preferred choice for separation equipment due to their unique performance advantages.
Rubber material cyclone: It has good wear resistance and elasticity, low cost, and is suitable for solid-liquid separation scenarios with strong wear resistance.
Oil and gas
Drilling fluid purification: desander/desilter separates drill cuttings and recovers barite (such as oil field drilling).
Oil-water separation: reduce the water content of crude oil and purify oily wastewater (such as oil field joint station).
Chemical and pharmaceutical
Solid-liquid separation: separate catalysts, crystals, or wastewater suspensions (such as titanium dioxide, chemical wastewater).
Liquid-liquid separation: separate organic solvents and water (such as pharmaceutical extraction and emulsion demulsification).
Product classification: control powder particle size (such as plastic particles and resin).
Food and Beverages
Grading and concentration: separation of juice pulp, concentrated starch milk (such as corn starch, tomato paste).
Purification and purification: removal of sediment, adjustment of fat content of dairy products (such as milk skimming, wastewater treatment).
Environmental protection and sewage treatment
Wastewater pretreatment: separation of suspended solids (such as urban sewage, acid mine wastewater).
Sludge concentration: reduction of sludge volume and reduction of dehydration costs (such as sewage treatment plants).
Purification and purification: removal of sediment, adjustment of fat content of dairy products (such as milk skimming, wastewater treatment).
Power and metallurgy
Coal washing: heavy medium cyclone to separate coal and gangue (such as coal preparation plants).
Metallurgical wastewater treatment: separation of heavy metal precipitates (such as steel and non-ferrous metal smelting).
