Design of SWRO Desalination Plant for Nuclear Research Center
الشريط الجانبي للمقالة
محتوى المقالة الرئيسي
الملخص
Libya has an infinite water resource available in
the coastal towns and cities being located on Mediterranean
Sea with 1950km coast. Therefore, the need for desalinated
water for Nuclear Research Center NRC located in Tajura
is currently about 1200 m
3
/day. To cover the center present
and future water needs for research and development
activities, two thermal sea water desalination plants have
been assembled in the site. One of the plants uses Multi
Stage Flash technology and the other one uses Multi Effect
Desalination technology with capacity of 1200m
/day each
one. Detailed design for 1200m
3
/day seawater reverse
osmosis SWRO unit is carried out using ROSA S oftware to
make the technical comparison with other MSF and MED
units. The unit labeled an S W30XLE-440i by the results of
the Software is selected since it required the lower feed
pressure of 55.5bar and highest salt recovery of 45% with
total dissolved solid of 190ppm. From the technical point of
view, the study showed that SWRO required lower sea
water inlet flow rate than MSF and MED. The units
efficiency are 43%, 10.5% and 25% for SWRO, MSF, and
MED, respectively. Further the Product quality TDS
190ppm for RO unit is suitable for drinking water, while
those of MSF and MED 50ppm. Energy consumption as
heating steam is not required for the S WRO unit; however,
a steam flow rate 7.3m 3/hr is required by MSF and MED
units. These make SWRO unit friendlier to the environment
and most proper technically under these situations.
تفاصيل المقالة
هذا العمل مرخص بموجب Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
المراجع
Befesa Desalinat ion Development s Ghana Limited, “proposed
seawat er reverse osmosis desalinat ion plant at Nungua, Accra”,
March 2011, pp. 29-30.
E. Massaoud and O. Abd Alazizi, “ Design Criteria of 10,000
m
/day SWRO Desalinat ion Plant of Tajura - Libya”, Tajura
Nuclear Research Center.
The Nat ional Associat ion of Scient ific Research “Official
document s of Descript ion of t he Plant Process MSF and MED
plant s”, Tripoli - Libya, 2004.
E. Gkeredaki, “ Autonomous photovoltaic powered seawater
reverse osmosis for Remot e coast al areas”, Mast er of Science in
Sust ainable Energy Technology, Delft university of Technology,
June 2011, pp. 5.
Reverse Osmosis Membranes Technical Manual, “FILMTEC
Reverse Osmosis Membranes”, Dow Chemical Company, pp. 80 93.
Dow Chemical Company, “ An Overview of Product s,
Applicat ions, and T echnical Resources”, Dow Liquid Separat ions,
December 1997, pp. 10.
D. Plessis, A. Burger, C. Swartz and N. Musee, “A Desalinat ion
guide for Sout h African municipal engineering”, Water Research
Commission, July2006, pp. 47-48.
Miller-Leaman, Inc, USA. “ Automatic T URBO-DISC filt er”.
Dow Chemical Company, “P ret reat ment wit h DOW™
Ultrafilt rat ion Helps to Save Wat er at Jumeirah Beach Hot el”,