1. A graphical method for the determination of optimum operating parameters in a humidification-dehumidification desalination system.
- Author
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Huang, Xin, Ling, Xiang, Li, Yang, Liu, Weihong, and Ke, Tingfen
- Subjects
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HUMIDITY control , *SALINE water conversion , *PINCH analysis , *HEAT capacity , *ENERGY consumption - Abstract
Abstract Humidification–dehumidification (HDH) technology is an innovative desalination technology which has received considerable attention from researchers in recent years. In this study, the effects of mass flow rate ratio and pinch point temperature difference (PPTD) on the energy consumption of the HDH system are investigated by pinch analysis. A new parameter, pinch point heat capacity rate ratio (PHCR), is introduced to normalise the optimum point for energy consumption. It is found that the specific energy consumption of the system is minimised when the PHCR of the dehumidifier equals to unity. The value of GIR can be achieved 3.978 when the PHCR of dehumidifier equals to unity, at the inlet temperature of the solution in the humidifier equals to 65 °C and PPTD of the humidifier and dehumidifier equals to 1 °C. Based on this discovery, the regression equations are used to predict the optimum value of the mass flow rate ratio at different operating parameters. Combining the regression equations with the evaporation rate contour plots, an efficient graphical method is proposed for the determination of optimum operating parameters of the HDH system. It can be used to determine the operating parameters efficiently according to the performance requirements of the system. Highlights • A graphical method determining the optimum operating parameters is proposed. • PHCR is introduced to normalise the optimum point for energy consumption. • GIR and GOR are minimised when the PHCR of dehumidifier is equal to unity. • The relation of HRR and GIR is only related to the air states in the humidifier. • Regression functions can predict optimal value of mass flow rate ratio accurately. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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