Draeger Gas Detector Tube Technical Information


There are certain rules and guidelines to be followed to ensure proper usage and correct results when using Draeger Gas Detector Tubes, including the tubes found in the Simultaneous Test Sets provided with the Draeger CDS Kit.

Draeger Gas Detector Tube Storage

To guarantee the accuracy of the tube indication throughout the shelf life, Draeger-Tubes should be stored in the original package at room temperature (approximately 20 C). A note on the package indicates a maximum storage temperature of 25 C (i.e. 77 F). Avoid excessively low (less than 35 F) or higher (greater than 77 F) temperatures during storage and do not subject the tubes to light for prolonged periods.

Draeger Gas Detector Tube Use in Cold Temperatures

Since some of the reagents can freeze below 0 C it is almost impossible to give correction factors for the use of detector tubes in cold temperature. However, etube there is a simple answer to the problem, namely to ensure that the temperature in the tube remains within the operating range (see operating instructions) during the measurement. The easiest way to do this is to keep the tube warm by holding it closely in the hand. This technique is useful down to -20 C (i.e. -4 F). Sports mittens with a slit in the palm work well at the lower temperatures.

Draeger Gas Detector Tube Disposal

Do not dispose of used or expired Draeger-Tubes in domestic waste. Draeger-Tubes must be disposed of properly, since the reagent system of the tube contains chemicals, even though the chemicals are present in extremely small amounts.

The storage or disposal of chemicals must be conducted according to local, state and federal regulations. Draeger Safety can provide the tube user a letter with general comments on disposal requirements as well as an attachment listing the pre-use contents of each of 15 defined groups of tubes (based on chemical reactants).

The U.S. Environmental Protection Agency maintains a toll-free telephone service called the RCRA Hotline, which provides guidance on regulatory issues. The number for the RCRA Hotline is 800-424-9346.

Draeger Supplemental Short Term Detector Tubes

The tubes in the Simultaneous Test Sets of the CDS Kit are characterized as “semi-quantitative”, providing rough estimations on the concentrations of 8 chemical agents. Draeger has nearly 200 short-term tube options capable of detecting over 1,000 different chemicals.

There is space in the CDS Kit for 6 additional boxes of individual detector tubes, which are also used with the accuro sampling pump provided. Selection of these tubes is an individual choice and is influenced by what chemicals might be expected to be present in a certain area. For example, if there is a nearby industrial facility that has certain chemicals in use for their processes, tubes for those specific chemicals would be a likely choice.

There are certain common chemical or chemical families for which individual tubes most often may be selectively added to the CDS Kit. An overview of some of these, and relevant tubes to respond, is presented here. More detailed information is always available from Draeger Safety or our Authorized Distributors.

Ammonia

Ammonia is the 3rd largest volume chemical produced in the United States and is used in a large variety of applications. Draeger manufactures 5 different short-term ammonia tubes able to detect from 0.25 to 100,000 ppm. The tube with the most utility within the TLV and IDLH ranges is the Ammonia 5/a (P/N CH20501), which can measure between 5-700 ppm. The tube can also detect other basic gases such as organic amines.

Chlorine

Chlorine is the 9th highest volume chemical produced in the United States, still most commonly used in water purification. Draeger manufactures 3 different short-term tubes able to detect from 0.02 to 500 ppm. The recommended tube would be the Chlorine 0.2/a (P/N CH24301) capable of measuring between 0.02-30 ppm. This tube is also capable of estimating levels of chlorine dioxide if present. Additionally, it has sensitivity to bromine and nitrogen dioxide.

Carbon Monoxide

May be present in toxic concentrations at the site of a fire. Draeger provides 5 different short-term tubes for the detection of CO, including the Carbon Monoxide 10/b (P/N CH20601). This tube is capable of measuring from 10 to 3000 ppm CO. As the tube has sensitivity to a number of hydrocarbons a carbon pre-tube can be provided to remove interfering substances.

Hydrogen Sulfide

Draeger provides 10 different tubes for the measurement of hydrogen sulfide, which is highly flammable and toxic by inhalation. TLV is 10 ppm in air. The Hydrogen Sulfide 5/b tube (P/N CH29801) has a detection range of 5-600 ppm.

Petroleum Hydrocarbons

The Draeger Petroleum Hydrocarbons 10/a tube (P/N 8101691) has specific sensitivities to hexane, heptane, octane and other hydrocarbons. The standard calibration is for n-octane at 10 to 300 ppm. This tube is therefore capable of general measurement of a number of common substances such as gasoline, kerosene/aviation fuel, diesel fuel and various solvents/spirits.

Chlorinated Hydrocarbons

Different chlorinated hydrocarbons still have a number of applications including dry cleaning (perchloroethylene), solvents (trichloroethane), degreasing (trichloroethylene) and adhesive production (vinyl chloride). Draeger manufactures tubes for all these specific compounds. The two most commonly used in HazMat Response have been the Perchloroethylene 2/a (P/N 8101501), range of 2-300 ppm, and the Trichloroethylene 10/a (P/N CH24401), which can measure 50-2000 ppm of TCE.

 


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