Sand gravel pump manufacturer and supplier 2025: Discover CNSME centrifugal slurry pump manufacturer’s heavy duty and extreme duty horizontal slurry pumps, which are designed to meet the toughest demands of industrial slurry handling. Ideal for mining, dredging, and power plants, these pumps are engineered with a horizontal configuration, offering enhanced stability during operation. Equipped with a high – efficiency impeller, they can achieve a remarkable flow rate up to 5000 m³/h, ensuring continuous and efficient transfer of abrasive and corrosive slurries. Made from wear – resistant materials, our pumps reduce maintenance costs and downtime. Count on us for reliable, durable, and high – performance horizontal slurry pump solutions that drive your business forward. Find additional information on slurry pump parts.
The sealing system of CNSME pump is made of corrosion-resistant rubber and polyurethane, which provides excellent sealing performance and effectively prevents slurry leakage. Using a variety of methods such as packing sealing, mechanical sealing and expeller sealing, it can flexibly respond to different working conditions and ensure the normal operation sealing effect of the pump. The sealing system reduces leakage and slurry loss,reduces costs and prolongs the consumption of efficient frame plate and components. At the same time, we can customize seals according to customer needs to adapt to high temperature, high pressure and sedimentary media,and we have three sealing methods.
The impeller is the core component of the slurry pump, which promotes the flow of the slurry by converting mechanical energy into fluid kinetic energy. It adopts wear-resistant materials such as high-chromium alloy, rubber or polyurethane, which can adapt to the corrosion and abrasion of different slurries. The impeller design includes closed, semi-open and open to meet different flow and lift needs. Precision casting and dynamic balance tests ensure the efficient operation and long-term reliability of the impeller.
Parameter design: According to the flow rate, head and other technical parameters, design a slurry pump program to meet the requirements. Software simulation: Use fluid analysis software to simulate the operation of the pump, optimize the impeller design, flow channel structure, in order to improve the efficiency and durability of the pump. Material Selection: Determine the material of pump body, impeller and other wet-end parts, such as high chromium alloy, wear-resistant rubber, etc., to meet the wear and corrosion resistance needs of different working conditions. Mould Design – According to the design scheme, make the molds of pump body, impeller, throatbush and other key parts. Precision Casting – Adopt precision casting process to ensure accurate size of parts, uniform material and avoid defects and internal stress. Find more details at https://www.cnsmepump.com/.
Froth pump and slurry pump both play indispensable roles in industrial production fields, however, they have significant differences in structure, working principle, application and maintenance. We’re going to discuss their differences in depth in order to better understand their features and size the right pump models. Special impeller design and casing structure are adopted for froth pumps to suit the transfer of frothy slurry. Generally, its impeller has bigger diameter and fewer vanes, and this way, shearing to the foam will be reduced, and at the same time, bigger flow and lower head can be maintained. Interior of the casing is also treated specially to reduce the damage to the foam, to keep the foam’s stability and completeness.
Structure and materials of the pump – Abrasion resistance: A pump’s abrasion resistance is of key importance due to the fact that the slurry contains solids. The common known abrasion resistant materials include abrasion resistant cast iron, stainless steel, high chrome alloy, rubber, polyurethane and ceramics etc. Sealing performance: Slurry pump with good sealing performance should be selected to protect foreign solid particles from entering into the pump which may cause the pump’s damage. Common sealing methods include mechanical seal and gland packing seal.