posted on 2020-09-15, 21:46authored byYvana
D. Ahdab, Danyal Rehman, Georg Schücking, Maria Barbosa, John H. Lienhard
The most common desalination
technology for treating brackish irrigation
water is reverse osmosis (RO). RO yields product waters low in monovalent
ions that are harmful to crops (Na+ and Cl–) and in divalent ions that encourage crop growth (Ca2+, Mg2+, and SO42–). Fertilizer
or divalent-rich brackish water must be mixed with the desalinated
water to reintroduce these nutrients. Monovalent selective electrodialysis
(MSED) provides an alternative to RO that selectively extracts monovalent
ions while retaining divalent ions. This paper investigates the monovalent
selectivity and potential of the new cost-effective Fujifilm MSED
membranes to treat brackish source water in greenhouses, with a comparison
to the widely used Neosepta MSED membranes. Thirteen groundwater compositions
serve as feedwater to an MSED experimental setup to characterize membrane
selectivity, ion transport, limiting current, and membrane resistance.
The Fujifilm membranes demonstrate notable selectivity for all compositions.
On average, they remove six sodium ions, compared to Neosepta’s
four, for every calcium ion and 13 sodium ions, compared to Neosepta’s
seven, for every magnesium ion, while their bench-scale cost is 68%
lower than that of the Neosepta membranes. The Fujifilm selectivity
values are used to calculate annual fertilizer savings of MSED relative
to RO, which average $4995/ha for 6000 brackish groundwaters across
the United States.