Theoretical analysis and auxiliary experiment of the optimization of energy recovery efficiency of a rotary energy recovery device

Abstract A rotary energy recovery device (RERD), as the energy saving equipment of seawater desalination system, has a great significance on reducing the energy consumption and permeate cost of the system. The high or low energy recovery efficiency directly determines whether the engineering application of the RERD can be widely used. In this paper, firstly, based on the calculation formula of energy recovery efficiency, the main impact factors of efficiency were analyzed theoretically, including processing capacity, the high and low pressure differentials, and the leakage of the device. Secondly, in order to carry out some required auxiliary tests smoothly, a new RERD was designed and manufactured, and a complete SWRO desalination system was also established. The results depicted that the energy recovery efficiency reached the maximum and the corresponding optimal processing capacity was about 12.15 m 3 /h when the pressure of the low pressure seawater was 1.0 bar, that of the high pressure brine was 60.0 bar, and leakage of the device was 0.6 m 3 /h. Furthermore, when processing capacity was kept 13 m 3 /h constant and the efficiency was required to exceed 94%, under the existing operating conditions, the maximal leakage of the device was needed no more than 0.43 m 3 /h.