TY - JOUR AU - 김우승 DA - 2015/05 PY - 2015 UR - http://www.tandfonline.com/doi/abs/10.1080/19443994.2014.900458 UR - http://hdl.handle.net/20.500.11754/36233 AB - In order to establish a method for the prediction of permeability, the significance of permeability in simulating a reverse osmosis (RO) module is studied. An optimization methodology incorporating the simulation model was established to estimate the water and salt permeability, and a number of correlations were studied to represent them. Optimized correlations were then validated over a wide range of operating conditions for a typical RO system for seawater desalination (50-80 bar, 20-35 degrees C, and 25-40 kg m(-3)). Using these permeability correlations, the model satisfactorily predicted two different published experimental observations: (1) predicted the permeate flow rate within a 5% error for 88% of the readings and the permeate concentration within a 10% error for 92% of the readings, and (2) predicted the permeate flow rate within a 6.2% error for 94% of the readings and the permeate concentration within an 8% error for 91% of the readings. The relative deviation between the experimental and predicted results using this procedure is 56% less than the published predicted result. Thus, a method to reliably determine a single permeability correlation for each of the water and salt permeability was established. PB - TAYLOR & FRANCIS INC KW - Reverse osmosis KW - Desalination KW - Optimization KW - Simulation KW - Permeability KW - SPIRAL-WOUND MODULES KW - SPACER-FILLED CHANNELS KW - MASS-TRANSFER KW - PARAMETER-ESTIMATION KW - ANALYTICAL-MODEL KW - MEMBRANE KW - PERFORMANCE KW - SIMULATION KW - WATER KW - SALT TI - Optimization methodology to study/estimate permeability in reverse osmosis desalination IS - 9 VL - 54 DO - 10.1080/19443994.2014.900458 T2 - DESALINATION AND WATER TREATMENT ER -