Influence of boron on rejection of trace nuclides by reverse osmosis

Abstract

Reverse osmosis (RO) has been proved to be an effective technology in the treatment of low level radioactive wastewaters (LLRWs) in nuclear power plants (NPPs). However, particular attention must be paid to any possible negative influence of excessive boron on the performance of membrane units. In this paper, influence of excessive boron on trace nuclide rejection by reverse osmosis had been investigated in a laboratory-scale cross-flow membrane filtration unit. The results demonstrate a positive influence. The increase scope of 1% to 8% can be observed in the nuclide rejection with the boron concentration variation from 0 to 1000mg·L−1. Temperature increase can improve the passage of boron to the permeate side, without obvious loss of nuclide rejection. Increasing the operation pressure or pH values, however, improves trace nuclide decontamination and boron rejection simultaneously. In general, RO unit can perform a favorable rejection of trace nuclide and a moderate rejection of boron. The membrane concentrate contains less boron, which facilitates the volume minimization by evaporation.