Reverse Osmosis with Intermediate Chemical Demineralization: Scale Inhibitor Selection, Degradation, and Seeded Precipitation
Shichang Xu, Ping Wang, Lixin Xie, Yawei Du, Wen Zhang

TL;DR
This paper presents a two-stage reverse osmosis process with intermediate demineralization to treat brines with high calcium sulfate content and reduce concentrate discharge.
Contribution
The study introduces a combined UV/H2O2 degradation and seeded precipitation strategy to improve water recovery in reverse osmosis.
Findings
RO-400 effectively inhibits calcium sulfate scaling across a wide saturation index range.
UV/H2O2 degrades RO-400 completely in 15 minutes under optimized conditions.
Seeded precipitation achieves 97.12% reaction degree of CaSO4 with low SIg for reuse.
Abstract
Two-stage reverse osmosis (RO) processes with intermediate concentrate demineralization (ICD) provide an efficient strategy to treat brines with high CaSO4 contents and reduce concentrate discharge. In this paper, an SRO concentrate is treated using ICD to remove CaSO4 and then mixed with a PRO concentrate for further desalination in SRO, thereby reducing the discharge of the concentrate. We investigate the selection and degradation of scale inhibitors, as well as seeded precipitation in the two-stage RO process with ICD, to achieve a high water recovery rate. A scale inhibitor is added to restrain CaSO4 crystallization on the membrane surface, and the optimized scale inhibitor, RO-400, is found to inhibit calcium sulfate scaling effectively across a wide range of the saturation index of gypsum (SIg) from 2.3 to 6. Under the optimized parameters of 40 W UV light and 70 mg/L H2O2,…
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Taxonomy
TopicsMembrane Separation Technologies · Calcium Carbonate Crystallization and Inhibition · Membrane-based Ion Separation Techniques
