QUICK SPECS

Range: 0 … 14 pH
Temperature:  32 … 212°F (0 … 100°C)
Pressure:  Full vacuum … 43 psig (-1 … 3 bar)
Sensor Material: Alpha pH
Diaphragm/Junction: 3X Ceramic
Electrolyte: Gel
Reference Electrode: Ag/Ag Cl – Silamid®

TYPICAL APPLICATIONS

• Boiler Condensate
• Boiler Blow-down
• Reverse Osmosis (RO) Systems
• Water for Injection (WFI)
• Ultra-pure water

1 – SENSOR HEAD: Memosens Digital Sensing Technology

Memosens sensors provide several benefits with regard to ease of use and reduction of operating costs:

• Submersible inductive connection removes measurement influence from moisture and humidity that are commonly present in process applications.
• Galvanically isolated so there is no measurement influence from noise or ground loops. This is especially beneficial when using plastic holders.
• Calibration and diagnostics can be performed in the shop or lab. This reduces field maintenance time and process downtime.

2 – ELECTROLYTE:

a) Gel: Gel electrolyte does not require refilling, making this sensor a low-maintenance solution.

b) KCl Rings: A KCl reservoir (solid KCl rings) assist in preventing the electrolyte from being leached out of the reference system, extending sensor life.

3 – REFERENCE ELECTRODE: Ag/Ag Cl – Silamid®

The Silamid reference electrode is constructed using a glass tube internally lined with silver and packed with silver chloride powder. A polyester fiber plug is added as an additional barrier to prevent poisoning and extend sensor life.

4 – DIAPHRAGM/JUNCTION: 3X Ceramic

Robust and corrosion-resistant design. The density of a ceramic junction allows for the reference system to be pressurized. This slows the fouling/poisoning of the reference system, extending the time between calibrations and reducing sensor replacement frequency.

Using 3 junctions eliminates the influence of flow and ensures a solid connection between the reference electrode and process fluid.

5 – SENSOR MATERIAL: Alpha pH glass

Alpha glass is medium-impedance, fluoride-resistant, hydrogen sensitive glass. It is designed for use in applications requiring fast response time in both low temperature and extremely low ionic environments (>10 μS/cm).