In a gas turbine combined cycle power plant with a heat recovery steam generator, ammonia and hydrazine are injected into the boiler feed water, while sodium phosphate is used in the drum boiler water. However, hydrazine is feared to cause health problems, and sodium phosphate may cause phosphoric acid corrosion. An alternative method has been applied in recent years wherein only ammonia is used for water treatment. Although the ammonia concentration in the drum boiler water depends on the gas-liquid distribution coe cient of ammonia, the measured result of the gas-liquid distribution coe cient in the actual plants is found to be smaller than the reported value in the equilibrium state. This is because the boiler feed water passes through the drum boiler before attaining equilibrium. In this study, a novel dynamic model for the gas-liquid distribution of ammonia between the drum boiler water and the drum boiler steam was investigated by applying the two-lm theory. Using this novel model, the ammonia gas-liquid distribution coe cient in the drum boiler can be estimated more accurately. Furthermore, the ammonia concentration of the boiler feed water can be determined, even in a water treatment system with only ammonia, which is e ective in preventing ow-accelerated corrosion of the drum boiler.
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