Removal of Naturally Occurring Strontium by Nanofiltration/Reverse Osmosis from Groundwater.

Yang-Hui Cai,Xiao Jin Yang,Andrea Iris Schäfer

doi:10.3390/membranes10110321

Abstract

Removal of naturally occurring strontium (Sr) from groundwater is vital as excessive exposure may lead to bone growth problems in children. Nanofiltration/reverse osmosis (NF/RO) is commonly used in groundwater treatment due to the high effectiveness and simple maintenance of these pressure driven membrane processes. In this research, a pilot-scale NF/RO system was used to desalinate a natural groundwater sample containing high Sr concentration (10.3 mg/L) and “old” groundwater organic matter (70.9 mg/L) from Esilalei in northern Tanzania to understand the removal of strontium by NF/RO. The impact of applied pressure (10–15 bar) and groundwater pH (3–12) on the membrane performance including permeate flux, strontium and total organic carbon (TOC) flux and removal was investigated. Increasing applied pressure was found to enhance the flux by increasing the driving force and enhance Sr and TOC removal by dilution effect (water flux higher than Sr passage). The alkaline pH caused severe flux decline likely due to membrane fouling and scaling, while it slightly enhanced Sr removal of RO membranes, but weakened the TOC removal. In contrast, acidic and neutral pH of groundwater enhanced TOC removal. These findings suggest that appropriately high applied pressure and acidic pH condition of groundwater are recommended to apply to the NF/RO membrane system in groundwater desalination to achieve better membrane performance.

Highlights

Strontium (Sr) has become a concern and research interest since radioactive Sr was produced and spread from nuclear weapons or nuclear plants, contaminating the environment and biosphere [1,2].Sr occurs naturally as the minerals celestite (SrSO4 ) and strontianite (SrCO3 ) [3]
Acidic and neutral pH of groundwater enhanced total organic carbon (TOC) removal. These findings suggest that appropriately high applied pressure and acidic pH condition of groundwater are recommended to apply to the Nanofiltration/reverse osmosis (NF/RO)
Total organic carbon (TOC) in permeate and feed was measured by a TOC analyzer (GE Analytical Instruments, SUEZ Water Technologies & Solutions, Sievers 900) to quantify Natural organic matter (NOM) concentration at the Ngurdoto Defluoridation Research Station (NDRS)

Summary

Introduction

Strontium (Sr) has become a concern and research interest since radioactive Sr was produced and spread from nuclear weapons or nuclear plants, contaminating the environment and biosphere [1,2].Sr occurs naturally as the minerals celestite (SrSO4 ) and strontianite (SrCO3 ) [3]. Strontium (Sr) has become a concern and research interest since radioactive Sr was produced and spread from nuclear weapons or nuclear plants, contaminating the environment and biosphere [1,2]. Natural Sr is not radioactive and there are four stable isotopes 88 Sr (mainly), 87 Sr, 86 Sr, and 84 Sr [3]. The most common radioactive isotope of strontium is 90 Sr. As a representative radionuclide, 90 Sr is one of the products of nuclear fission in radioactive waste effluents [4]. 90 Sr is one of the products of nuclear fission in radioactive waste effluents [4] It is generated from the reprocessing of nuclear fuels. Non-radioactive strontium has relatively low toxicity, but excessive exposure may lead to bone growth problems in children [4]. Abnormal skeletal development is the primary toxicological effect of excess strontium in animals in the laboratory [4]

Methods

Results

Conclusion