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In Situ CO, Oxygen, and Opacity Measurement for Optimizing Combustion Control System Performance
Abstract
The performance of a combustion control system is limited by the accuracy and reliability of the feedback provided by the stack emission flue gas monitoring system which is utilized to analyze the composition of the products of combustion.
A detailed review of the latest state-of-the-art In Situ measurement techniques is provided, including: gas filter correlation spectroscopy (CO), zirconium oxide fuel cell (oxygen), and glass fiber optics based transmissometers (opacity).
Recent advancements in the design and application of microprocessor-based In Situ CO, oxygen, and opacity stack emission monitoring systems are outlined, including a review of the performance capability of the latest microprocessor-based combust ion control systems.
Subject
Combustion Control SystemCO, Oxygen, Opacity Measurement
In Situ Measurement Techniques
Microprocessor-based Monitoring Systems
Collections
Citation
Molloy, R. C. (1982). In Situ CO, Oxygen, and Opacity Measurement for Optimizing Combustion Control System Performance. Energy Systems Laboratory (http://esl.tamu.edu); Texas A&M University (http://www.tamu.edu). Available electronically from https : / /hdl .handle .net /1969 .1 /94361.