Innovative Pump Solutions
For diverse industries
Our sealless centrifugal magnetic-drive pumps offer a superior solution for fluid handling across a vast array of industries. Engineered for exceptional reliability and leak-free performance, Magnevo™ pumps excel in environments where contamination, safety, and environmental protection are paramount. From chemical processing and pharmaceutical manufacturing to food and beverage production and wastewater treatment, our magnetic-drive pumps provide a robust and efficient solution for your specific industry needs.
Agricultural
Magnetic-drive pumps find extensive use in agricultural applications due to their ability to handle corrosive chemicals and fertilizers commonly used in farming practices. These pumps are employed in irrigation systems to deliver water and nutrients to crops efficiently. For example, in large-scale farming operations, magnetic-drive pumps are utilized to distribute fertilizers through drip-irrigation systems, ensuring precise and controlled delivery to crops such as corn, soybeans, and cotton. Additionally, these pumps are employed in pesticide-spraying systems, where they provide consistent and reliable pressure for uniform coverage across fields, contributing to effective pest control.
- Distribution of fertilizers in drip-irrigation systems
- Pressure regulation in pesticide-spraying systems
- Circulation of water in hydroponic setups for greenhouse farming
Aquafarming
In aquafarming, magnetic-drive pumps play a crucial role in maintaining optimal conditions for aquatic life. These pumps are used in recirculating aquaculture systems (RAS) to circulate and filter water, providing oxygenation and removing waste products to ensure a healthy environment for fish and other aquatic organisms. For instance, in salmon-farming operations, magnetic-drive pumps are employed to circulate water through filtration systems that remove solid waste and facilitate biological filtration, maintaining water quality essential for fish health and growth. Additionally, magnetic-drive pumps are utilized in hatcheries to provide controlled flow rates for the incubation of fish eggs, promoting successful hatching and early-stage development.
- Filtration and oxygenation in recirculating aquaculture systems (RAS)
- Water circulation in hatcheries for fish egg incubation
- Maintenance of water quality in shrimp farming ponds through filtration and aeration
Aquarium & Aquatic Life
In aquariums, magnetic-drive pumps are indispensable for various functions vital to the health and well being of aquatic life. These pumps are utilized in filtration systems to remove debris and waste, ensuring the clean and clear water conditions necessary for the thriving of fish and other aquatic organisms. For example, in large public aquariums housing diverse marine life, magnetic-drive pumps are employed in protein skimmers to remove organic compounds and improve water quality. Additionally, these pumps are used in circulation systems to simulate natural currents, promoting oxygenation and nutrient distribution within the aquarium environment, which is crucial for the health of corals and other sessile organisms.
- Filtration systems for removal of debris and waste
- Protein skimmers for water purification in marine aquariums
- Circulation systems to simulate natural currents for coral reef habitats
Biofuel production & distribution
Magnetic-drive pumps are utilized in the production and distribution of biofuels, such as biodiesel and ethanol, for various processing and transfer applications. These pumps are commonly employed in biodiesel production plants to circulate feedstock oils and methanol during the transesterification process, which converts triglycerides into biodiesel and glycerol. For example, in large-scale biodiesel facilities, magnetic- drive pumps are used to transfer methanol from storage tanks to reactors, ensuring precise and controlled dosing for optimal conversion efficiency. Additionally, magnetic-drive pumps are employed in bioethanol distillation processes to circulate mash and facilitate separation of ethanol from water and other components, contributing to the production of high-quality fuel ethanol.
- Circulation of feedstock oils and methanol in biodiesel production
- Transfer of methanol in biodiesel transesterification processes
- Circulation in bioethanol distillation for ethanol separation
Chemical manufacturing & distribution
Magnetic-drive pumps are widely used in chemical manufacturing and distribution for the transfer and circulation of various corrosive and hazardous chemicals. These pumps are employed in chemical processing plants to handle various substances safely and efficiently. For example, in the production of specialty chemicals, magnetic-drive pumps are used to transfer precursor materials between reaction vessels and storage tanks, ensuring precise metering and minimizing the risk of leaks or contamination. Additionally, in chemical-distribution facilities, these pumps are utilized to transfer bulk chemicals from storage drums or containers to tanker trucks or railcars for transport to customer locations, providing reliable and leak-free operation.
- Transfer of precursor materials in specialty chemical production
- Distribution of bulk chemicals from storage to transport vehicles
- Circulation of chemicals in chemical-processing plants
Electronic manufacturing
In electronics manufacturing, magnetic-drive pumps are utilized for various processes requiring precise chemical handling and circulation. These pumps are commonly found in semiconductor fabrication facilities, printed circuit board (PCB) manufacturing plants, and electronics assembly lines. For instance, in wafer-cleaning processes in semiconductor manufacturing, magnetic-drive pumps are used to circulate ultra-pure water (UPW) and cleaning chemicals through scrubbers and rinsing baths to remove contaminants and residues from silicon wafers, ensuring high device yield and reliability. Additionally, in PCB manufacturing, these pumps are employed to circulate chemicals used in circuit boards fabrication and assembly.
- Circulation of ultra-pure water (UPW) in semiconductor wafer cleaning
- Chemical handling in electronics manufacturing processes
Mining
In the mining industry, magnetic-drive pumps play a crucial role in various applications, including dewatering, chemical transfer, and chemical processing. These pumps are commonly found in mine dewatering systems, mineral-processing plants, and tailings management facilities. For example, magnetic-drive pumps are used in the transfer of chemicals from bulk storage used for ore processing. Additionally, these pumps are employed to transfer solutions to and from transportation tank trucks and rail cars.
- Dewatering of mine sites
- Transfer of chemicals to and from transportation vehicles
- Chemical handling in ore extraction processes
Offshore
Magnetic-drive pumps are indispensable in the offshore oil and gas industry, where they excel in the challenging and often corrosive environments encountered in the marine environment. Magnetic-drive pumps are integral to maintaining the integrity and efficiency of offshore platforms by facilitating the movement of chemicals in process and separation.
- Seawater cooling systems
- Chemical movement and transfer in process and separation
Power generation
In power plant operations, magnetic-drive pumps are utilized for various applications, including boiler feedwater, cooling-water circulation, and chemical transfer. These pumps are commonly found in fossil fuel, nuclear, and renewable energy facilities. For example, in coal-fired power plants, magnetic-drive pumps are used to circulate demineralized water through boiler feed systems, ensuring efficient steam generation and turbine operation. Additionally, in renewable energy facilities, such as solar thermal power plants, these pumps are used in heat transfer fluid circulation systems for energy capture and storage.
- Circulation of demineralized water in boiler feed systems
- Heat transfer fluid circulation in solar thermal power plants
Pulp & paper
In the pulp and paper industry, magnetic-drive pumps are utilized for various applications, including pulp processing, chemical dosing, and wastewater treatment. These pumps are commonly found in paper mills, recycling facilities, and wastewater treatment plants. For instance, in paper-production processes, magnetic-drive pumps are used to transfer pulp slurries between processing stages, ensuring efficient fiber dispersion and sheet formation. Additionally, in wastewater treatment facilities, these pumps are used to circulate effluent through filtration and clarification systems for the removal of contaminants before discharge.
- Transfer of pulp slurries in paper production
- Chemical transfer for pulp bleaching and treatment
- Circulation of effluent in wastewater treatment
Steel & metal processing
In steel and metal processing industries, magnetic-drive pumps are utilized for various applications, including pickling, electroplating, and coolant circulation. These pumps are commonly found in steel mills, metal-finishing facilities, and automotive-component manufacturing plants. For instance, in electroplating processes, these pumps are employed to circulate plating baths containing metal ions and electrolytes for the deposition of protective and decorative coatings on metal substrates. Moreover, in metalworking coolant systems, these pumps are used to circulate cutting fluids and lubricants for heat dissipation and tool lubrication during machining operations.
- Electrolyte circulation in metal electroplating
- Coolant circulation in metalworking processes
Wastewater Treatment
In wastewater-treatment plants, magnetic-drive pumps play a crucial role in various treatment processes, including aeration, mixing, and sludge handling. These pumps are commonly found in municipal sewage treatment facilities, industrial wastewater treatment plants, and decentralized treatment systems. For example, in activated sludge treatment processes, magnetic-drive pumps are used to aerate wastewater in treatment tanks, providing oxygen for aerobic bacteria that degrade organic pollutants. Additionally, in anaerobic digestion systems, these pumps are employed to mix and recirculate sludge for biogas production and solids reduction. Moreover, in sludge-dewatering processes, these pumps are used to transfer sludge to dewatering equipment, such as centrifuges or belt presses, for the removal of water and volume reduction before disposal.
- Aeration of wastewater in activated sludge treatment
- Mixing of sludge in anaerobic digestion
- Dewatering of sludge in wastewater treatment plants
