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Continuous Emission Monitoring. James A. JahnkeЧитать онлайн книгу.

Continuous Emission Monitoring - James A. Jahnke


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the United States, the verification or certification procedures established for CEM systems are given in standards called “performance specifications.” The performance specifications include requirements for the installation, design, performance, and testing of CEM systems. The installation criteria are regulatory guidelines for identifying measurement locations where representative measurements can be expected. Design specifications require that the instruments must be designed in a certain manner. These are important and specified in detail for opacity monitors, but are minimal for gas monitors.

      The specifications for the performance of the monitoring systems are the most important part of these standards (except for opacity monitors, where the design specifications predominate). Specifications are given for drift, relative accuracy, and, in some cases, linearity. Basically, the design of a gas monitoring system is not relevant to the specifications. It does not matter whether the system is extractive or in‐situ or if the method of measurement is electro‐optical or electrochemical. It does matter, however, how the system performs. The proof of a system is in its performance as installed. The performance specification test procedures are applied to demonstrate that the installed CEM system meets “performance specifications.” If a CEM system meets these specifications, it is considered capable of providing quality data for the purpose of the implementing rule.

      As noted, EPA does not approve specific brands of instrumentation or specific analytical methods (in the case of gas monitoring) for source monitoring systems. This is in contrast to the policy of approving specific instrument models for continuous ambient air analysis. The procedure of meeting performance specifications provides latitude in continuous monitoring system design and application by allowing sources to handle individual monitoring problems. Since stack conditions vary from plant to plant, a CEM system found to work well at one plant may not work at another. Vibration, heat, or other conditions may necessitate a careful analysis of available monitors and systems before one can be chosen for the job. The performance specifications define the procedures to be used for checking the installed instrument's performance. It is the installed instrument system, operating on the stack, that is approved, not the model.

Originating EPA Office Program Citation for Implementing Rule Performance Specifications
OAQPS NSPS 40 CFR 60 Appendix B
OAQPS Air toxics 40 CFR 63.8 monitoring requirements
OAR‐ARD Acid rain 40 CFR 75 Appendix A
OSW Boilers and industrial furnaces 40 CFR 266 Appendix IX
OWM Sewage sludge incinerators 40 CFR 503 Subpart E

      U.S. CEM system certification procedures differ from those instituted in the European Union, where CEM system analyzers must undergo “type” testing, both in the laboratory and field, to show that they meet the design and performance specifications of the EU standard EN 15267. However, it has been found that a CEM system accredited under EN 15267 does not necessarily guarantee that it will pass a U.S. Performance Specification Test after installation.

      The earliest applications of CEM systems in the 1970s were often met with frustration. Systems were installed and certified, but over a period of time began to fail. Either inconsistent data or no data would be generated. Often, the monitoring systems behaved so poorly that the data would not be accepted by control room operators. The problem was not so much in the instrumentation itself, but in misconceptions in how the systems operated. CEM systems were viewed as just another plant sensor, such as a thermocouple or pressure gauge – once installed, it would be expected to function for an extended period of time; failure could be corrected by a simple replacement. CEM systems, however, are more complicated than sensors. If not serviced periodically, serious corrosion and plugging problems can result, which can lead to a breakdown of the system. Failures cannot always be corrected through simple replacement, but instead may require expensive repairs and recertification.

      The realization came quickly that in order to continue operating, a CEM system must be maintained continually (Jahnke 1986). Periodic inspections, a preventive maintenance program, and performance assessment procedures are all necessary for a CEM system to provide quality data on a continuing basis. These are the elements of a quality assurance program.

      Part 60 Quality Assurance Procedures

      Quality assurance programs were not required for CEM systems in the implementing rules promulgated by EPA in the 1970s and early 1980s. After the initial certification was achieved by passing the performance specification tests, no further testing was required, unless requested by the agency for special circumstances. It was not until the 1980s that EPA proposed minimum quality assurance procedures for SO2, NOx, and diluent monitoring systems in Appendix F to 40 CFR 60 (U.S. EPA 2020e). This rule was promulgated in 1987 and is today known as Procedure 1 of Appendix F. Other procedures were added to Appendix F as continuous monitoring requirements extended to the measurement of other pollutants, such as mercury and hydrochloric acid. However, quality assurance procedures for opacity monitors were not published until 2014 (U.S. EPA 2014a) although opacity monitors have been required at certain facilities since 1973.

      Other U.S. QA Procedures

      QA requirements for acid rain Part 75 CEM systems were promulgated along with the implementing rule and are found in 40 CFR 75 Appendix B (U.S. EPA 2020h). The requirements include procedures for SO2 and NOx monitoring systems, O2 and CO2 diluent monitors, and flow monitors. The flow monitoring procedures are especially important


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