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Impact of Operating Parameters on the Nitrate Removal by Nanofiltration
Ali Rıza Dinçer, Tarık Uçar
Department of Environmental Engineering, Namık Kemal University, Çorlu, Tekirdağ, Turkey.
Abstract:
The removal of NO3– from synthetic water has been studied using two different nanofiltration (NF) membranes(GE Osmonics DK and, GE Osmonic DL). Nitrate removal efficiencies of two different nanofiltration membranes investigated by means of a lab-scale membrane module in synthetic nitrate solutions that have different concentration. The impact of principle working parameters, for example, NO3– concentration, pH, and pressure and permeate flux of both membranes, was examined.
The outcomes demonstrated that the dismissal of NO3– and the flux rate for all membranes (DK and DL) expanded directly with the trans-membrane pressure and diminished with the NO3– concentration. Nitrate rejection rate for the DL membrane was between approximately 23% and 30% . Under the same pressure (6 bar), the DK membrane generated a higher nitrate rejection rate (42%-55%) than the DL membrane. And also, rejection levels for 12 bar pressure achieved by DK have been in range of 63-69%, while DL gives the lowest rejection in the range of 29-30%.
The wide range change of the pH from 4 to 11 of the feed did not alter nitrate rejection very much for DK and DL membranes. Nitrate rejection for DL and DK membranes decreases by increasing feed concentrations and filtration time.
Keywords: Nanofiltration, Synthetic water, Nitrate removal, DK and DL membranes
Pages: 41 – 57 | Full PDF Paper