Overview

This article explains the technical function of ASR® (Automatic Sensor Cleaning) and summarizes how the electrochemical cleaning cycle reduces sensor fouling in continuous operation.

ASR® is designed to decrease manual cleaning effort and support stable measurement performance between maintenance intervals.

Operating Principle

During an ASR® cleaning cycle, water is electrolyzed at the sensor surface:

H₂O → O₂ + H₂

The generated gases act directly at the interface where deposits form and create a multi-layer cleaning effect.

Cleaning Mechanism

• Hydrogen/oxygen bubble formation creates local shear forces that help detach adhered coatings.
• Oxygen supports oxidation of organic contamination layers.
• Hydrogen supports reduction of oxide-based deposits (for example iron and manganese compounds).
• The combined action helps weaken and remove mixed fouling layers, including biofilm-like structures.

Process Characteristics

• Generated gas volumes are small and remain within normal process operation limits.
• After the cleaning pulse, gases recombine quickly to water.
• No external mechanical cleaning step is required during the ASR® cycle.
• Effectiveness depends on water composition, fouling type, and configured cleaning frequency.

Operational Notes

• Set cleaning intervals according to observed fouling tendency and process stability.
• After parameter changes, verify trend stability and sensor response under normal flow conditions.
• If drift persists, check sample quality, flow conditions, and sensor condition before increasing cleaning frequency further.

Video Reference

Technical overview: ASR® technology video 

Related Articles

• Setting Krypton® Multi ASR® Cleaning Frequency 
• Setting Krypton® DIS ASR® Cleaning Frequency