Estimating the Steam Quality in Power-Generating Boilers from Electrical Conductivity and pH Measurements

— The quality of steam produced by boilers is strictly standardized and must be maintained whatever the quality of makeup water and whatever the composition of the boiler unit’s thermal cycle equipment. Under the conditions of constantly improved instruments for chemical monitoring, it becomes possi...

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Bibliographic Details
Published in:Thermal engineering 2021-05, Vol.68 (5), p.387-394
Main Authors: Larin, A. B., Larin, B. M., Savinov, M. P.
Format: Article
Language:English
Subjects:
Algorithms
Ammonia
Boilers
Carbon dioxide
Combined cycle power generation
Diagnostic systems
Electrical resistivity
Engineering
Engineering Thermodynamics
Estimation
Heat and Mass Transfer
Heat recovery
Heat recovery systems
Indicators
Mathematical analysis
Measuring instruments
Steam electric power generation
Supercritical pressures
Water quality
Water Treatment and Water Chemistry
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Summary:— The quality of steam produced by boilers is strictly standardized and must be maintained whatever the quality of makeup water and whatever the composition of the boiler unit’s thermal cycle equipment. Under the conditions of constantly improved instruments for chemical monitoring, it becomes possible to develop measurement systems using which the main standardized and diagnostic steam quality indicators can be monitored by measuring the electric conductivity and pH of cooled samples. Unlike boilers operating at a pressure of 13.8 MPa and higher, steam boilers for steam pressures equal to 9.8 and 3.9 MPa—and also industrial heat recovery steam generators—operate with steam that has a higher content of salts and carbon dioxide; in addition, it contains ammonia, which enters into steam from boiler water. Steam quality is often estimated using the two-quadrant nomographic chart of Mostofin, who proposed it more than 50 years ago. In using certain computation algorithms, it is possible to calculate the standardized and diagnostic steam quality indicators, such as concentrations of sodium, chlorides, ammonia, carbon dioxide, and salt content. The article presents an algorithm for estimating the concentrations of the above-mentioned impurities for cooled live steam samples of power-generating boilers operating at pressures below 10.0 MPa, and boilers for superhigh and supercritical pressures, and industrial heat recovery steam generators, including the combined-cycle power plant units. Examples of using the calculation procedure for analyzing the steam quality in industrial boilers are given.
ISSN:0040-6015
1555-6301
DOI:10.1134/S0040601521040030