Hawk Measurement Systems Unveils the FPM Flotation PulpMaster: Revolutionizing Continuous Level Measurement for the Flotation Process
HAWK Measurement Systems proudly announces the launch of the FPM Flotation PulpMaster, a cutting-edge continuous level measurement system designed to meet the exacting demands of flotation cell pulp and liquid level management. Built with advanced pulse-guided RF float level technology, the FPM is engineered to surpass competitive products with unmatched precision, reliability, and low-maintenance operation, delivering exceptional accuracy without the constant cleaning and troubleshooting that other systems often require.
The FPM Flotation PulpMaster represents a major advancement in flotation cell level measurement,” said Les Richards, CEO of Hawk Measurement Systems. “With the development of our impedance matched pulsed RF technology, we’re setting a new standard in accuracy and dependability, enabling operators to maintain optimal control over the flotation process while reducing maintenance and operational disruptions.”
The HAWK FPM is powered advanced accuracy and signal recognition algorithms giving unmatched accuracy and longevity in the application and including a project specific design high-density polyethylene (HDPE) float with a low coefficient of friction, specifically designed to prevent buildup and jamming in harsh pulp environments. This unique float design ensures continuous, accurate level measurement, eliminating the risks of pulp overspill or froth undercarriage—a common problem in the industry. The innovative impedance matched pulsed RF technology responds solely to the actual pulp and liquid level, with zero interference from froth levels, allowing highly accurate level detection of the pulp level for optimal foam overflow performance .
With this latest innovation, Hawk Measurement Systems reaffirms its commitment to engineering solutions that enhance efficiency and reliability in industrial processes. The FPM Flotation PulpMaster is now available for order. For more information, click here.
