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P.M. Lang
NOAA CMDL Carbon Cycle-Greenhouse Gases
February 2, 1998
Trace gas standards used for measuring CO2, CO, N2O, SF6, and CH4 by the Carbon Cycle-Greenhouse Gases group (CCGG) of NOAA CMDL are contained in aluminum cylinders purchased from Scott- Marrin, Riverside, California. The cylinders are treated with a proprietary passivation treatment. CCGG uses three different size cylinders but most of our standards are contained in 30 liter (internal volume) cylinders. The cylinders are ordered with brass Ceodeux cylinder valves (CGA590) containing all-metal seats and nickel stems. The cylinders are shipped to CMDL with 1380 kPa (200 psig) of dry, ultrapure air. It is important for the cylinders to be dry (and remain dry) during filling and use. Brass cylinder valves rather than stainless steel, are recommended for all trace gas species measured by CCGG.
NOTE: Read and follow all safety procedures for handling high pressure gas cylinders.
The proper regulator to use for a trace gas standard may depend on the particular trace gas being measured. The regulators CMDL uses for carbon cycle trace gas standards do not always perform well for trace gas stable isotopic measurements. Standards for SF6 measured by GC-ECD may require special high-purity electron capture sensitive regulators. CCGG uses two-stage, high purity, low flow, compact regulators on most standards. The regulators are nickel-plated brass with stainless steel diaphragms and low internal volume. The desired delivery flow rates, purity levels, and corrosiveness of the standard gas should be determined before purchasing a regulator. It is important to note that delivery pressure range and gauge delivery pressure are different. Order a regulator that is within the required delivery pressure range. (For example, a 0-700 kPa (0-100 psig) delivery pressure gauge may have a maximum delivery pressure of 350 kPa (50 psig).)
After purchasing a calibrated standard gas from CCGG, the following guidelines are suggested.
A pressure check is used to isolate different parts of the cylinder and regulator system and look for leaks. If, after closing the cylinder valve and regulator, the pressure on the high side gauge increases, then the regulator is defective and it should not be used. If the high side pressure gauge decreases, then there is a leak between the cylinder and the high side of the regulator, most likely the CGA fitting. If the high side gauge decreases and the low gauge increases, there is a leak in the regulator across the diaphragm and this regulator should not be used. If the low side gauge decreases, then there is a leak between that gauge and the downstrem shutoff.