What is SensiCLENE

What is Halogen SensiCLĒNE™

The Halogen SensiCLĒNE™ is an advanced amperometric sensor platform designed for reliable, low-maintenance chlorine measurement in challenging pipeline applications. Unlike traditional sensors, SensiCLĒNE™ delivers flow- and pressure-independent operation, maintaining accuracy across a velocity range of 0 to 4 meters per second, including zero-flow conditions. This makes it the only amperometric sensor capable of such performance, ideal for demanding environments like ballast water treatment systems on ships.

US Patents 8,298,391; 8,881,581; 8,887,556; 8,984,931 and others worldwide

Flow and Pressure Independence

The sensor’s unique design eliminates the need for membranes or electrolytes, enabling stable operation under varying flow rates and pressures. Unlike older amperometric sensors, which require up to 24 hours to stabilize after service or calibration, the SensiCLĒNE™- enabled MP5™ sensor resumes operation immediately, even after prolonged exposure to zero chlorine levels.

Minimal Maintenance

The MP5™ sensor, powered by SensiCLĒNE™, maintains stable calibration with minimal operator intervention. Annual maintenance involves a quick replacement of wear parts—screened sensor cap, stainless screws, impeller blade, and polymer beads—taking just minutes with basic tools. Calibration remains unaffected, allowing immediate return to service.

Technical Advantages

01

No Stabilization Period

Immediate operation post-maintenance, unlike traditional sensors requiring hours to “wake up.”

02

Biofouling Resistance

Mechanical and electrochemical cleaning minimizes fouling in harsh environments.

03

Durable Design

Robust enough for the most challenging chlorine sensing applications, such as marine ballast water systems.

Maintenance Simplified

The SensiCLĒNE™ system reduces downtime and operational costs. The annual wear-parts kit ensures the MP5™ remains in peak condition, with no recalibration needed after replacement. This streamlined process enhances system reliability and operator efficiency.

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