Calibration gas, also known as specialty gas or calibration gas mixture, is a precisely formulated mixture of gases used as a reference standard to test and ensure the accuracy of analytical instruments, primarily gas detectors and analyzers. These instruments are vital for safety in various industries, as they detect the presence and concentration of specific gases, often hazardous ones, in the environment.
Why is calibration gas essential?
Accuracy Verification: Gas detectors can drift over time due to factors like sensor aging, exposure to chemicals, temperature fluctuations, and humidity. Calibration gas provides a known, certified concentration of a target gas, allowing technicians to verify if the detector is reading accurately.
Sensor Response Confirmation: It confirms that the sensors in the detector are responding appropriately to the gases they are designed to detect.
Alarm Function Testing: Ensures that alarms trigger at the correct threshold concentrations, providing timely warnings of dangerous conditions.
Adjustment and Correction: If a detector's readings are off, calibration allows for adjustments to be made, bringing the instrument back into accurate measurement.
Regulatory Compliance: Many industries have strict regulations regarding gas detection, and regular calibration with traceable gases is often a requirement.
How does calibration work?
The process involves exposing the gas detector's sensor to a known concentration of the calibration gas for a specific period. The detector's reading is then compared to the certified concentration of the calibration gas. If there's a discrepancy, the detector is adjusted to match the known value. This establishes a reliable baseline for future readings.
Types of Calibration Gases:
Calibration gases are categorized based on their application:
Zero Calibration Gases: Used to establish a baseline reference point, bringing the detector's reading to "zero" in an environment free of the target gas. Nitrogen is a common zero calibration gas because it is inert.
Single Calibration Gases: Contain a known concentration of one specific gas, used to calibrate instruments designed to detect that particular substance (e.g., ammonia for an ammonia detector).
Span Calibration Gases (or Multi-Gas Calibration Gases): These are mixtures containing known concentrations of two or more gases. They are used for instruments that can measure multiple gases simultaneously (e.g., a mixture of carbon monoxide, hydrogen sulfide, oxygen, and methane for a four-gas detector).
Calibration gases can also be classified as:
Reactive Gases: These gases react more easily with environmental variables like heat, moisture, or cylinder materials. Examples include chlorine, hydrogen chloride, and sulfur dioxide. They typically have shorter shelf lives and require specific storage in aluminum cylinders.
Non-Reactive Gases: These are more stable and do not interact as significantly with environmental elements. Examples include carbon monoxide, carbon dioxide, and methane. They generally have longer shelf lives and can be stored in steel cylinders.
Calibration Gas Standards and Traceability:
For calibration gases to be reliable, they must be traceable to national or international standards. The National Institute of Standards and Technology (NIST) in the U.S. plays a crucial role in providing traceability for gas analysis. This means:
The composition of the calibration gas has been verified against NIST standards.
The measurement process follows appropriate protocols.
Documentation exists showing the complete chain of custody and calibration.
Stated measurement uncertainties are provided.
Accredited laboratories (e.g., ISO 17025 accredited) and certified reference material producers (e.g., ISO 17034 accredited) ensure the highest quality and metrological standards for calibration gases.
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