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TRANSDUCERS, TRANSMITTERS & SENSORS THE IMPORTANT ROLE OF THERMAL SENSORS
Understanding how sensors work, how to identify damage and how to replace them will ensure optimal performance
There’s a lot more to thermal sensors than simply recording temperature, as Randy Brown, chief system designer at Watlow, explains...
F
rom motion sensors that aid safe parking, to pressure sensors that measure air flow in air conditioning units, many applications used in our daily lives are guided by sensing technology. In industrial heating applications, temperature sensors are key components that provide temperature feedback, used to monitor and control the process. However, there is a lot more to thermal sensors than simply recording temperature.
Without temperature sensors, a
system is essentially blind. While some simple thermal systems can rely on a thermostat device to maintain a relative temperature within 5˚C, many processes require a far greater degree of accuracy. This is where temperature sensors come in. However, with various types and purposes of thermal sensors, how do engineers determine which is best for a given application and how to correctly apply them?
There are two categories for temperature sensors: contact and non-contact. Contact sensors include resistance temperature detectors (RTDs), thermocouples and thermistors that must be in contact with the solid, liquid, or gas it’s measuring. Non-contact sensors involve thermal imaging and infrared sensors, which determine temperatures from a distance by measuring the thermal radiation emitted by an object or heat source. These sensors are
temperature sensors, a system is essentially blind’
‘Without
often found in hazardous environments where there are high temperatures, such as high voltages or within moving machinery. Two of the most used sensors in thermal applications are RTDs and thermocouples. RTDs use resistance to determine temperature of a source. They are often used in industrial applications because they are comprised of metal, instead of ceramic or polymer, and are highly stable and accurate, making them ideal for repeatable precision and a more accurate assessment of a processing system. Thermocouples measure the temperature delta between two points, using a metal junction of two dissimilar types of wire to measure the micro-voltage. Changes in voltage are read by a process controller, which calculates the relationship between voltage and heat. This allows engineers to adjust the temperature of the heater bundle to increase, decrease or maintain the ideal temperature for an industrial process. Watlow, which manufactures temperature sensors including thermocouples and RTDs, used its expertise to develop an industrial thermocouple that supported an aircraft manufacturer in heat treating engine components. The manufacturer needed a thermocouple that could easily route through the furnace wall and be safely used in temperatures exceeding 1,000˚C. Meeting these design requirements, Watlow delivered
a thermocouple that overcame these challenges for easy and safe use. In addition to choosing the type of sensor, understanding where temperature sensors fit into a production line is also key to making the most out of them. Sensors should be placed in the areas that represent critical process steps, such as inlets and outlets of heater bundles. Additional sensors should be applied to monitor for process extremes that may cause safety or quality problems.
By nature, thermal system temperatures often change throughout the process with some areas heating or cooling faster than others based on the laws of thermodynamics, making sensor placement key.
While every application is different, careful consideration needs to be applied into sensor placement. Besides this, it should also be understood how to identify when a sensor is damaged and how to replace it, to achieve the best outcome for a thermal process. RTDs and thermocouples can become damaged and incorrectly read the temperature of heating systems, creating inconsistencies and compromising quality. This can be caused by secondary junctions in thermocouples or element damage to RTDs. Unusual temperature fluctuations or differences between multiple heater bundles means a sensor needs replacing. While temperature sensors in industrial environments differ from those that help us to park our cars, they are crucial components that allow systems to safely run in medical, food processing and energy applications. Design engineers need superior sensors for uncompromising quality and control in thermal applications.
Watlow
www.watlow.com
MARCH 2022 | PROCESS & CONTROL 9
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