H. PORTABLE ELECTROCHEMICAL SENSOR METHODS
by W. J. Woodfin, NIOSH/DPSE
Contents: | Page | |
---|---|---|
1. Introduction | 70 | |
2. Principles of Operation | 70 | |
3. Sampling Considerations | 70 | |
a. Safety | 70 | |
b. Applications | 71 | |
c; Environmental Conditions | 71 | |
4. Data Acquisitions and Treatment | 71 | |
a. Calibration | 71 | |
b. Sampling and Measurement Procedure | 72 | |
c. Limits of Performance | 73 | |
5. Manufacturers | 73 | |
6. References | 73 |
1. INTRODUCTION
Portable electrochemical sensor methods include instruments employing this technology in the determination of oxygen and several toxic gases in the field, using battery-supplied power. They range in size from those small enough to fit into a shirt pocket and weighing less than one pound (0.45 kg) to larger units that weigh as much as six pounds (2.7 kg).
2. PRINCIPLES OF OPERATION
The basis for all electrochemical sensors is the use of a porous membrane (normally PTFE) or capillary system which allows the gas to diffuse into the cell containing the liquid or gel electrolyte and the electrodes (Figure 1). The exact configuration will vary with manufacturers and between different toxic gases. When the gas comes into contact with the electrolyte, a change in electrochemical potential between the electrodes is produced. Associated electronic circuitry then will measure, amplify, and control this electronic signal. Because the reaction is proportional to the concentration (partial pressure) of gas present, the signal is easily translated into parts per million, percent, or ppm-hrs, and read on the readout meter or stored in microprocessor circuits for later readout.
3. SAMPLING CONSIDERATIONS
a. Safety Some portable electrochemical monitors have been designed for intrinsic safety, i.e., for use in potentially explosive atmospheres. Check with the manufacturer to ensure that a specific instrument meets the appropriate intrinsic safety requirements (e.g., Underwriter's Laboratory or Mine Safety and Health Administration).