A computational model of a power plant steam condenser which incorporates the effects of air in-leakage and removal on the performance of the condenser is reported. The condenser interior space is modeled as a porous medium. A quasi-three-dimensional approach is taken in which the steady-state steady-flow conservation equations for the steam-air mixture mass, momentum, thermal energy, and air mass fraction are solved for a series of two-dimensional grids perpendicular to the circulating water flow direction. The air removal system is explicitly modeled. The computational model is used to calculate the performance of the steam condenser of a 750-MWe unit at 100 percent load. Some of the calculated variables are compared with measurements obtained in the condenser. The effects of changing various operating parameters on the condenser performance at 100 percent load are also studied.
A Computational Model of a Power Plant Steam Condenser
Contributed by the Advanced Energy Systems Division for publication in the JOURNAL OF ENERGY RESOURCES TECHNOLOGY. Manuscript received by the AES Division, July 19, 1999; revised manuscript received October 25, 2000. Associate Editor: A. M. Jacobi.
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Roy, R. P., Ratisher, M., and Gokhale, V. K. (October 25, 2000). "A Computational Model of a Power Plant Steam Condenser ." ASME. J. Energy Resour. Technol. March 2001; 123(1): 81–91. https://doi.org/10.1115/1.1348336
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