SUZHOU SEAPEAK CO.,LTD
SUZHOU SEAPEAK CO.,LTD
Contact Us
Understanding Centrifugal Filters

Understanding Centrifugal Filters

In intelligent greenhouses, filters are essential equipment. A reasonable configuration of the filtration system plays a crucial role in water treatment and irrigation. If the filtration equipment is mismatched or improperly selected, it will paralyze the entire irrigation system. Therefore, it requires reasonable scientific design and should be selected based on the actual nature of the contaminants in various regions, their concentrations, particle sizes, dimensions of the irrigation device channels, irrigation water requirements, nature of the irrigation system, outflow methods, and other factors to choose the appropriate filter. The commonly used filters are gravel filters, disc filters, centrifugal filters, and mesh filters. They can form different combinations based on different water source conditions. This article introduces the principles and applicable fields of the centrifugal filter.


Principles of the Centrifugal Filter


CentrifugalFilter primarily works based on the principles of gravity and centrifugal force to remove solid particles heavier than water. The centrifugal filter uses the centrifugal force generated by high-speed rotating water flows to separate sand grains and other heavier impurities from the water. It does not have any filter mesh or removable parts internally, making it simple in structure and easy to maintain.


Applicable Fields of the Centrifugal Filter


Irrigation Systems


Centrifugal Filters are suitable for agricultural irrigation, especially for the primary treatment of groundwater and surface water with high sand content. They filter impurities through the force generated by water flow and use centrifugal force to separate sand grains and other solid particles from the water. The centrifugal filter utilizes the centrifugal force produced by high-speed rotating water flows to separate sand grains and other heavier impurities from the water. It does not have any filter mesh or removable parts internally, making it simple in structure and easy to maintain.


Primary Water Filtration


In the initial filtration stage of the irrigation system, centrifugal filters are mainly used to remove solid particles heavier than water, such as sand grains.


Stabilizing Water Flow Loss


At the moment of pump start or stop, centrifugal filtration equipment can stabilize water flow loss, affecting filtration efficiency. Therefore, it is more effective to use them simultaneously with mesh or disc filters.


Additionally, centrifugal filters are also suitable for irrigation of vegetables, fruit trees, greenhouses, flowers, tea gardens, greenery, and various field crops. They can improve the quality of crops, enhance product grade, and maintain ecological balance.


Performance Characteristics of Centrifugal Filters


Centrifugal Force Generated by High-Speed Rotating Water Flows


Centrifugal Filters effectively separate sand and other heavier impurities from water through the centrifugal force generated by high-speed rotating water flows.


No Filter Mesh Design


This equipment does not use internal filter mesh, avoiding issues of filter mesh clogging and replacement, simplifying maintenance.


Multiple Specifications


Provides filter units ranging from 8 inches to 20 inches, meeting different flow rate requirements.


Simple Structure


Centrifugal Filters have a simple structure, small size, large water handling capacity, and long service life.


Easy Maintenance


The equipment is durable, easy to maintain, and suitable for various occasions such as agricultural irrigation.


Efficient Water-Sand Separation


Achieves a separation efficiency of 95%~98% for small particle impurities through high-speed water flow.


Electrostatic Spray and Paint Rust Prevention


The internal and external walls are treated with electrostatic spraying and painting to enhance the equipment's anti-corrosion capability.


Pressure Resistance


Centrifugal filtration equipment can withstand high water pressure, suitable for high-pressure water flow environments.

Related Blogs