pH/ORP Sensors PH8EFP, PH8ERP, OR8EFG, OR8ERG

Yokogawa's pH and ORP analyzers are highly reliable. They feature advanced functions and are useful for a wide variety of applications including water quality management in a broad range of production processes and in medium-sized wastewater treatment plants, or as general pH and ORP control systems.

Based on Yokogawa's track record and years of experience, a comprehensive range of products has been produced to provide solutions best suited to individual applications.

In addition to the PH8EFP, PH8ERP, OR8EFG and OR8ERG standard Ryton pH and ORP sensors, specialty pH and ORP sensors are available for various applications.

Although pH / ORP sensor was used as an analog detector in the past, it became possible to use it as a digital detector (with Variopin connector) by installing the SENCOM Smart Adapter SA11. pH / ORP sensor is a pH detector that compatible to on-site use and various combinations.

Details

Ryton pH/ORP sensors PH8EFP, PH8ERP, OR8EFG, OR8ERG

  • With a body made of Ryton, a strong engineering plastic which is comparable to Teflon in terms of corrosion resistance and heat resistance, a wide range of applications are possible.
  • A single type of electrode can support all applications regardless of whether a holder or cleaner is used.
  • The integrated-electrode design simplifies calibration with standard solutions and maintenance.
  • The glass electrode of a pH analyzer, the platinum or gold electrode, and the junction of an ORP analyzer can each be easily replaced.
  • By combining pH and ORP sensor with SENCOM Smart Adapter SA 11, it becomes a digital detector. Yokogawa provides open environment with higher model.
    * Refer to "SENCOM Smart Adapter SA11" for more details.

1. pH Sensors
1-1. KCl Refillable Type Electrode PH8ERP

Measured object Hydrogen ion concentration (pH) in aqueous solution
Measurement principle Glass electrode method
Measuring range pH 2 to 12
Measuring temperature -5 to 80℃
Measuring pressure Atmospheric pressure to 50 kPa
Temperature compensation sensor Pt1000
Weight Approx. 0.4kg
Digital communication function Support SENCOM4.0
(Variopin connector and SA11 adapter connected)


1-2. KCl Filling Type Electrode PH8EFP

Measured object Hydrogen ion concentration (pH) in aqueous solution
Measurement principle Glass electrode method
Measuring range pH 0 to 14
Measuring temperature -5 to 105℃
Measuring pressure Atmospheric pressure to 10 kPa (General purpose or big volume tank 500 ml)
Atmospheric pressure to 500 kPa (Medium pressure)
Temperature compensation sensor Pt1000
Weight Approx. 0.4 kg
Digital communication function Support SENCOM4.0
(Variopin connector and SA11 adapter connected)


2. ORP Sensors
2-1. KCl Refillable Type Electrode OR8ERG

Measured object Oxidation-Reduction potential in aqueous solution
Measurement principle Metal electrode method
Measuring range -1500 to 1500 mV
Measuring temperature -5 to 80℃
Measuring pressure Atmospheric pressure to 50 kPa
Weight Approx. 0.4 kg


2-2. KCl Filling Type Electrode OR8EFG

Measured object Oxidation-Reduction potential in aqueous solution
Measurement principle Metal electrode method
Measuring range -1500 to 1500 mV
Measuring temperature -5 to 105℃
Measuring pressure Atmospheric pressure to 10 kPa (General purpose or big volume tank 500 ml)
Atmospheric pressure to 500 kPa (Medium pressure)
Weight Approx. 0.4kg

Resources

Overview:

Cyanide-bearing wastewater from mining and electroplating facilities and certain types of chemical plants is toxic and must be treated by oxidation with chlorine or chloride to bring the cyanide concentration within regulatory limits.

Industry:Electrical and Electronics

Overview:

In flue gas desulfurization systems that use magnesium hydroxide (Mg(OH)2) slurry, the consumption of the desulfurization agent (Mg(OH)2) is controlled by using online pH analyzers. A great concern in the pH measurement is heavy staining of the pH electrodes by the Mg(OH)2 slurry. To ensure accurate measurement, frequent cleaning of the electrodes with an acid is required, adding to both maintenance workload and cost.

Industry:Chemical, Power

Overview:

Optimizing four key factors will decrease pH sensor costs and optimize process control and overall plant efficiency.

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