COMPLETE SYSTEM INCLUDES sensor, connecting cable, analyzer, and flow controller.
CONTINUOUS pH CORRECTION eliminates expensive and messy reagents and troublesome sample conditioning systems.
MEASURES FREE CHLORINE IN SAMPLES having pH as high as 9.5.
VARIOPOL QUICK-DISCONNECT FITTINGS make replacing sensors easy.
AVAILABLE WITH CHOICE OF TWO FEATURE-PACKED ANALYZERS.
The Model FCL is a complete system for the determination of free chlorine in fresh water. It consists of an analyzer (choice of Model 54eA or Model 1056), a 499ACL-01 free chlorine sensor, a pH sensor (if required), and a constant head flow controller. The analyzer and flow controller are mounted on a back plate, and quick disconnect Variopol sensor cables are pre-wired to the analyzer, making installation and startup fast and easy. Unlike free chlorine analyzers from other manufacturers, the Model FCL does not use an expensive sample conditioning system or messy reagents to control pH. Instead, the analyzer uses the reading from the pH sensor to automatically compensate for the effect of pH changes on the chlorine sensor signal.
- COMPLETE SYSTEM INCLUDES sensor, connecting cable, analyzer, and flow controller.
- CONTINUOUS pH CORRECTION eliminates expensive and messy reagents and troublesome sample conditioning systems.
- MEASURES FREE CHLORINE IN SAMPLES having pH as high as 9.5.
- VARIOPOL QUICK-DISCONNECT FITTINGS make replacing sensors easy.
- AVAILABLE WITH CHOICE OF TWO FEATURE-PACKED ANALYZERS.
The Model FCL is a complete system for the determination of free chlorine in fresh water. It consists of an analyzer (choice of Model 54eA or Model 1056), a 499ACL-01 free chlorine sensor, a pH sensor (if required), and a constant head flow controller. The analyzer and flow controller are mounted on a back plate, and quick disconnect Variopol sensor cables are pre-wired to the analyzer, making installation and startup fast and easy. Unlike free chlorine analyzers from other manufacturers, the Model FCL does not use an expensive sample conditioning system or messy reagents to control pH. Instead, the analyzer uses the reading from the pH sensor to automatically compensate for the effect of pH changes on the chlorine sensor signal.