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عمليات التنافذ الامامي - العكسي لمعالجة المياه الملوثة بالزيوت == Forward - Reverse Osmosis Processes For Oily Wastewater Treatment
Author name:
نور حمود زغير
Supervisor name:
حسن فرهود مكي
General topic:
Chemical Engineering
Specific topic:
Chemical Engineering
Degree:
Master
University:
University of Baghdad - College Of Engineering - Department Of Chemical Engineering
Language:
English
University location:
Baghdad
First pages:
38T286 - p.pdf
Abstract:
في هذه الدراسة, تم بحث مدى ملائمة عمليات التنافذ (الامامي - العكسي) لمعالجة المياه الملوثة بالزيوت. حيث طبقت عملية التنافذ الامامي لاسترجاع الماء النقي من المياه الملوثة بالزيوت. تم استخدام زيت محرك الديزل والكازولين نوع (15W - 40) لتحضير محلول اللقيم, بي | In this study, the feasibility of Forward - Reverse membrane osmosis system was investigated for treating the oily wastewater. Forward osmosis (FO) process was applied to recover pure water from oily wastewater. Gasoline and diesel engine oil (15W - 40) was used to prepare the feed solution (FS). While sodium chloride (NaCl) and magnesium chloride (MgCl2) salts were used as draw solutions, and the membrane that was used in FO process was cellulose triacetate (CTA) membrane. While reverse osmosis process was used to recovery water from the diluted draw solution using polyamide (thin film composite (TFC)) membrane. In the first stage was applying the FO process for treating the oily wastewater with two parts. The first part included the FO process using the batch system whereas the second part included the FO process using the flowing system for different draw solutions. Theoperating parameters studied were : draw solution type, draw solution concentrations (0.25 - 0.75 M), oil concentration in FS (100 - 1000 ppm), the temperatures of FS and DS (30 - 45 °C), pH of FS (4 - 10) and for the forward osmosis flowing process the flow rate of both DS and FS (20 - 60 l/h), while the pressure was maintained at 0.5 bar. The run - time of the FO process was for five hours. It was found that water flux through membrane decreases with increasing time, while oil concentration in the FS increases with increasing time. Also, it was found that the water flux produced from the osmosis cell and oil concentration in FS increase by increasing the concentration of draw solutions, the flow rate of FS and the temperature for a limit (40oC), then, the water flux and oil concentration decrease with increasing the temperature because of happening the internal concentration polarization phenomenon. By increasing the oil concentration in FS and the flow rate of the DS, the water flux and oil concentration in FS were decreased. While it had a fluctuated behavior with increasing the pH of oily wastewater. It was found also that MgCl2 gives water flux higher than NaCl. It was observed that the best operating conditions in this study were : concentration of salt (0.75 M) for MgCl2, oil concentration (100 ppm), pH of FS (7.3), temperature of feed and draw solution (40oC), flow rate of FS (60 l/h), and flow rate of DS (20 l/h). The values of resistance to solute diffusion within the membrane porous support layer were 55.93 h/m and 26.21 h/m for NaCl and MgCl2 respectively. The second stage was applied reverse osmosis process for separating the fresh water from a diluted (NaCl) solution using different parameters such as draw solution concentration (0.08 - 0.16 M), feed flow rate (20 - 40 l/h) within two hours of work of the reverse osmosis system.
