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- Title
Effect on backwash cleaning efficiency with TDS concentrations of circulated water and backwashing water in SWRO membrane.
- Authors
Jong Woo Nam; Jun Young Park; Ji Hoon Kim; Yong Soo Lee; Eui Jong Lee; Min Jung Jeon; Hyung Soo Kim; Am Jang
- Abstract
The osmotic backwash in the seawater reverse osmosis (SWRO) membrane induced by the osmotic pressure of a salt feed solution was investigated. The system was shifted immediately to a backwash process by reducing the operation pressure to zero to allow a net backwash driving force. The backwash process has two distinct stages: first stage--the backwash flux drops sharply at the initial, second stage--the backwash flux reaches equilibrium with time. A backwash cleaning efficiency is affected by some factors such as circulated water concentration, operation pressure, and cross-flow velocity in the SWRO membrane system combined with osmotic backwash. The feed water (or circulated water) concentration is the most influential and the pressure and cross-flow velocity are relatively less significant. In this study, the influence of backwashing water concentration on backwash cleaning efficiency was investigated under various circulated water concentrations. When the circulated water concentration was higher, the backwashing flux became greater and required less time to reach equilibrium; however, the internal concentration polarization occurred in the permeate side more rapidly and the backwash accumulated volume curve could be reversed with time. These results support the necessity of the optimization of the SWRO filtration/osmotic backwash mode between the concentrations of the feed water, the permeated and circulated water, and the time between the filtration and the backwash.
- Subjects
REVERSE osmosis in saline water conversion; REVERSE osmosis process (Sewage purification); PRESSURE; EQUILIBRIUM; ARTIFICIAL membranes; PERMEABILITY
- Publication
Desalination & Water Treatment, 2012, Vol 43, Issue 1-3, p124
- ISSN
1944-3994
- Publication type
Article
- DOI
10.1080/19443994.2012.672162