Horizontal centrifugal mud pump

　　Product Overview:

　　Positive displacement pumps are commonly used in the transportation of high viscosity or high consistency media in China, but they have high gas content when transported. When using hard particles or multiphase mixtures that are sensitive to shear forces. The shutdown accidents caused by high failure rate and short service life bring huge economic losses to users. In response to the aforementioned pumping challenges in the industry, our company has successfully developed a blade type high viscosity disc pump based on long-term technological accumulation and reference to advanced technologies at home and abroad.

　　The blade type high viscosity disc pump impeller is an improvement on the traditional disc impeller. Its working mechanism is no longer simply relying on the viscous internal friction between the medium and the disk to transfer energy, but mainly relies on the driving of the blades and the transfer of energy between the fluids to achieve the transportation of the medium, greatly improving the efficiency of traditional disk pumps. Unlike general vane centrifugal pumps, the blades are discontinuous between the two discs. There is a blade free zone in the middle of the impeller. In addition to the advantages of smooth disc pumps, vane disc pumps are also particularly suitable for conveying difficult to pump media with low viscosity.

　　The vane disc pump has the advantages of stable operation of the unit, no blockage, small wear on flow components, long service life, and convenient maintenance. This series of pumps can deliver high viscosity (3X 105cp) and high concentration (solid content up to 80%, particle size 50-80mm, up to 200mm). High gas content (up to 80%) and oil. Water and gas. Sand. Polyphase mixed materials such as fibers. Especially suitable for operating systems with a large range of flow changes and small head changes.

　　Features and advantages:

　　(1) Layered flow that is not affected by pulsation: Layered flow that is not affected by pulsation ensures that it does not damage the structure of the product that needs to be treated with caution and does not damage shear sensitive liquids.

　　(2) Low impeller wear: When conveying solid-liquid two-phase fluid, particles will not come into contact with the impeller flow passage components, resulting in low impeller wear.

　　(3) Strong anti clogging ability: The special impeller design makes the pump have strong anti clogging ability when transporting high viscosity fluids and other pumped media.

　　(4) Multifunctional structure: It can effectively transport various liquids without causing damage to the liquid, and the efficiency will not significantly decrease with the increase of medium viscosity.

　　(5) Low operating costs: Compared to all other pump structures, disc pumps have been proven to be more convenient in maintenance and repair, reducing pump shutdown time and operating costs under difficult pumping conditions.

　　(6) Strong self priming ability. Compared with centrifugal pumps, vane disc pumps have stronger corrosion resistance, and under the same conditions, the cavitation margin of vane disc pumps is only about half of that of centrifugal pumps.

　　Application field:

　　(1) Petroleum and chemical departments transport drilling mud, crude oil, sludge, paraffin, heavy oil, lime lotion and synthetic fiber.

　　(2) The mining, metallurgical, and power sectors transport slurry and slag water. Iron oxide scale water, etc.

　　(3) The food and pharmaceutical sectors transport dairy materials. Sauce and juice sensitive to shear force. Blood products, etc.

　　(4) Conveying pulp with a solid content below 80% in the paper industry