In industries such as mining, metallurgy, chemical processing, and wastewater treatment, slurry media present significant challenges for flow measurement due to high solid content, strong abrasion, and unstable flow conditions. Traditional electromagnetic flowmeters often struggle with signal fluctuation, electrode fouling, and reduced stability under such demanding applications.
To address these challenges, a new generation of high-frequency excitation slurry electromagnetic flowmeters has been developed, offering improved performance in complex and harsh process conditions. By increasing the excitation frequency of the magnetic field, the system significantly enhances signal response sensitivity, particularly for low-conductivity and high-solid-content media.
The high-frequency excitation technology effectively reduces electrode polarization and electromagnetic noise interference, ensuring a more stable and accurate output signal even under highly variable slurry conditions. Combined with advanced wear-resistant liners and optimized electrode structures, the meter is designed for long-term operation in highly abrasive and corrosive environments.
The product range covers a wide measurement spectrum from DN3 to DN3000, enabling precise flow monitoring from micro-flow dosing systems to large-scale industrial slurry pipelines. Small-diameter models are particularly suitable for laboratory dosing, additive injection, and fine chemical processing, while large-diameter versions are widely applied in mining slurry transport, ore beneficiation, coal slurry measurement, and sludge treatment systems.
With its strong adaptability and enhanced signal processing capability, high-frequency excitation electromagnetic flow technology is becoming a key solution for improving measurement reliability in difficult slurry applications, supporting greater process efficiency and automation in modern industrial systems.