In modern industrial systems, compressed air is indispensable. From powering tools and packaging machines to maintaining sensitive process environments, compressed air plays a vital role. However, one often overlooked variable can silently undermine this entire system — moisture.
This moisture, if uncontrolled, leads to corrosion, equipment failure, product contamination, and non-compliance with industry standards. The solution? Dew point sensors.
This blog explores the fundamentals of dew point sensors — what they are, how they work, where they’re used, and how to select the right one for your industrial system.
What is Dew Point?
Dew point is the temperature at which water vapor in the air condenses into liquid. In compressed air systems, if the dew point is too high, it indicates excessive moisture — a serious risk for equipment and product integrity.
Importance of Dew Point Monitoring
Dew point control is critical because it:
Prevents corrosion in pipelines and pneumatic tools
Maintains consistent product quality in sectors like food, pharma, and plastics
Improves energy efficiency in drying systems
Ensures compliance in controlled environments like cleanrooms
Industrial plants that rely on dry, contaminant-free air simply cannot afford to overlook dew point monitoring.
How Dew Point Sensors Work
Dew point sensors use various sensing technologies to detect humidity and calculate the dew point. The most commonly used are:
Capacitive or Polymer-Based Sensors These sensors measure changes in humidity and temperature, using algorithms to estimate the dew point. They’re ideal for field use due to fast response times and stable performance.
Chilled Mirror Sensors These high-precision instruments cool a mirror until condensation forms. The temperature at which condensation occurs is recorded as the dew point. Best suited for labs and calibration-grade applications.
Output and Integration Options Depending on the sensor model, outputs can be:
Analog: 4–20 mA
Digital: RS-485 or Modbus
Local display-based: for standalone setups
These outputs support integration with SCADA systems, PLCs, or remote monitoring dashboards.
Where Dew Point Sensors Are Used
Dew point sensors are deployed in applications where moisture management is directly linked to safety, compliance, and product quality. Use cases include:
Compressed Air Systems Dry air improves uptime and avoids tool corrosion.
Refrigerated and Desiccant Dryers Dew point sensors verify dryer performance in real time.
Plastic Molding Lines Moisture can cause lens fogging and defects. Dew point sensors help stabilize drying processes.
Pharma Manufacturing & Cleanrooms Ensure GMP/ISO compliance and prevent microbial growth.
Food Packaging Units Humidity control is essential to preserve freshness and avoid spoilage.
HVAC Systems Maintain optimal humidity for comfort or production needs.
Selecting the Right Dew Point Sensor
Choosing the right dew point sensor involves aligning its features with your operational environment and control needs. Here’s a selection framework:
1. Measurement Range For compressed air, opt for -40°C to +10°C range. For cold storage or cleanrooms, go for lower ranges (down to -60°C).
2. Output Requirements For integration with industrial systems, 4–20 mA or Modbus output is preferred. Handheld monitoring may require local displays or USB ports.
3. Environmental Protection Outdoor or harsh environments require IP65 or flameproof-rated sensors. Indoor setups can use compact variants.
4. Calibration Support To ensure continued accuracy, select sensors that support annual calibration with traceability certificates.
Field Insights and Practical Tips
Case Example In a plastic molding unit, dew point sensors were installed upstream of the dryer. They detected unexpected humidity spikes during night shifts. This insight led to a control valve replacement and a 40% drop in product rejection rates.
Placement Advice Position dew point sensors not only at the compressor outlet but also near critical usage points like end-of-line valves, machines, or storage tanks.
Conclusion
Dew point sensors are critical components in modern industrial systems. They don’t just measure air quality — they help prevent failures, protect product integrity, and ensure system reliability.
Whether you’re a plant engineer, automation specialist, or procurement manager, investing in the right dew point sensor brings measurable returns.