Leak Detection
Electronic leak detection methods for R-410A (HFC-calibrated detectors), nitrogen pressure testing, UV dye methods, bubble testing, and EPA leak repair requirements.
- Select the correct electronic leak detector type for R-410A (HFC-calibrated)
- Perform a standing pressure test with dry nitrogen and trace refrigerant
- Apply UV dye and bubble solution leak detection methods
- Explain EPA leak rate thresholds and mandatory repair timelines
Lesson 1
Electronic Leak Detection for R-410A
Choosing the Right Detector
Electronic leak detectors are the most sensitive portable tools for finding R-410A leaks. However, not all detectors work with all refrigerants. There are several sensor technologies, and the exam tests your knowledge of which type is appropriate for R-410A.
Heated Diode (HFC-Calibrated)
Detects: HFCs including R-410A, R-134a, R-407C
Sensitivity: 0.1 oz/year (very sensitive)
Best for: R-410A leak detection - recommended method
Limitation: Sensor degrades over time, needs periodic replacement
Infrared (NDIR)
Detects: HFCs, HCFCs, CFCs - broad spectrum
Sensitivity: 0.1-0.5 oz/year
Best for: Long sensor life, less affected by wind
Limitation: More expensive than heated diode
Heated Anode (Halide Torch Type)
Detects: Chlorine-based refrigerants only (R-22, R-12)
Sensitivity: Moderate
Best for: Legacy R-22 systems only
Limitation: Cannot detect R-410A - no chlorine present
Halide Torch Detectors Cannot Find R-410A
Halide torch (heated anode) detectors respond to chlorine atoms in the refrigerant. Since R-410A contains no chlorine, halide torch detectors will not respond at all - even to a massive R-410A leak. You must use a heated diode or infrared detector calibrated for HFC refrigerants.
Proper Electronic Leak Detection Technique
- Calibrate the detector before each use according to the manufacturer's instructions. Most detectors have a reference leak (a small sealed capsule) for calibration.
- Move the probe slowly - approximately 1 inch per second along joints, fittings, and connections. Moving too fast can miss a small leak.
- Keep the probe tip close - within 1/4 inch of the surface being tested. Refrigerant disperses quickly in air.
- Test from the bottom up - R-410A vapor is heavier than air and sinks. Start at the lowest point of each fitting and work upward.
- Avoid false positives - wind, contaminated shop rags, and nearby refrigerant containers can trigger the detector. Test in still air when possible.
- Verify every hit - if the detector alarms, move away to clear air, re-zero the detector, and return to the suspected spot to confirm.
R-410A requires an HFC-calibrated electronic leak detector (heated diode or infrared). Halide torch detectors cannot detect R-410A because it contains no chlorine. Move the probe at 1 inch per second, stay within 1/4 inch of the surface, and start from the bottom since R-410A vapor is heavier than air.