Safety and low-GWP refrigerants
The shift to A2L refrigerants increases safety considerations due to their flammability. Standards like UL 60335-2-40 and IEC-60079-29-1 address these risks by recommending leak detection in HVACR systems. While not mandatory under the standards themselves, U.S. state building codes will require such systems by 2025, with regions like California accelerating adoption through agencies like the California Air Resources Board (CARB). This timeline challenges manufacturers to adapt quickly.
Common leak detection technologies
Several sensor technologies could be used for refrigerant leak detection, including Photoacoustic NDIR (PA), Non-Dispersive Infrared (NDIR), Thermal Conductivity (TC), Electrochemical (EC), and Metal Oxide (MOx):
- PA sensors detect refrigerant gases by measuring acoustic waves generated from pressure changes caused by pulsed IR light absorption. They offer high sensitivity and selectivity, and are particularly well-suited for applications where precision and low cross-sensitivity are critical.
- NDIR sensors use infrared absorption to detect refrigerant gases with high selectivity, though they are costlier and reach their limits with the extreme temperature and humidity requirements of the application.
- TC sensors measure changes in thermal conductivity, offering fast response times and long-term stability, making them very suitable for high-volume A2L leakage applications.
- EC sensors, while effective for some gases, lack the lifetime needed to meet A2L detection requirements, limiting their practicality.
- MOx sensors are affordable and adaptable but are prone to drift over time and can degrade after exposure to high refrigerant concentrations, reducing reliability.
The choice of technology depends on factors like cost, durability, and compliance with standards like UL 60335-2-40.
Sensirion’s refrigerant detection technology choice
Sensirion has multiple gas sensor technologies available, which are suitable for refrigerant leak detection, including NDIR, TC, MOx, and others. After evaluating application needs, manufacturability, scalability, and compliance with UL 60335-2-40, Sensirion selected TC technology for A2L leak detection applications. This choice reflects TC’s stability and scalability, supported by Sensirion’s CMOSens® MEMS chip manufacturing platform.
Outlook for refrigerant detection
The rise of flammable low-GWP refrigerants in HVACR systems is inevitable as regulations tighten. As safety standards integrate into legislation, the demand for reliable detection solutions will grow, shaping technological development in the coming years. A2L is an important step towards lower GWP refrigerants, with Sensirion working on enabling other important refrigerants such as propane with reliable sensing.
