@ARTICLE{Bouchareb_Abderrezak_Experimental_2019, author={Bouchareb, Abderrezak and Metaiche, Mehdi and Lounici, Hakim}, number={No 42}, pages={49-58}, journal={Journal of Water and Land Development}, howpublished={online}, year={2019}, publisher={Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute}, abstract={In recent years, the increasing threat to ground water quality due to human activities has become a matter of great con-cern. The ground water quality problems present today are caused by contamination and by over exploitation or by combination of both. Reverse osmosis (RO) desalination is one of the main technologies for producing fresh water from sea water and brackish ground water. Algeria is one of the countries which suffer from the water shortage since many years, so desalination technology becomes inevitable solution to this matter. In this study, a comparison is provided of results of reverse osmosis desalination for three different qualities of brack-ish water from the central-east region of Algeria (Bouira and Setif Prefectures), wherein they cannot use it as human drink-ing or in irrigation systems. The main objective of our study is to establish a comparison of the reverse osmosis membrane TW30-2540 performances in the term of (permeate flow, recovery rate, permeate total dissolved solids – TDS and salts re-jection) under different operation pressures (each one takes a time of 720 second for pilot scaling). In order to make an overview comparison between the experimental and the simulated results we used ROSA (Reverse Osmosis System Analy-sis) software. At the end of this study we noted that, the simulated results are lower than the pilot scaling values and the most re-moved salts are the sodium chlorides with 99.05% of rejection rate.}, type={Artykuły / Articles}, title={Experimental versus theoretical study of reverse osmosis pilot scaling: The case of Algerian brackish water desalination}, URL={http://journals.pan.pl/Content/113439/PDF-MASTER/Bouchareb%20et%20al%20461.pdf}, keywords={ions salts rejection, reverse osmosis (RO), ROSA software, salt passage (B), spiral wound membrane (SWM)}, }