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Nassef, R., Rizk, N., Mousa, I. (2019). Recycle and treatment of wastewater produced from pharmaceutical plant. Research Journal of Applied Biotechnology, 5(1), 33-41. doi: 10.21608/rjab.2019.76802
Reda A.M. Nassef; Nashwa M.H. Rizk; Ibrahim E. Mousa. "Recycle and treatment of wastewater produced from pharmaceutical plant". Research Journal of Applied Biotechnology, 5, 1, 2019, 33-41. doi: 10.21608/rjab.2019.76802
Nassef, R., Rizk, N., Mousa, I. (2019). 'Recycle and treatment of wastewater produced from pharmaceutical plant', Research Journal of Applied Biotechnology, 5(1), pp. 33-41. doi: 10.21608/rjab.2019.76802
Nassef, R., Rizk, N., Mousa, I. Recycle and treatment of wastewater produced from pharmaceutical plant. Research Journal of Applied Biotechnology, 2019; 5(1): 33-41. doi: 10.21608/rjab.2019.76802

Recycle and treatment of wastewater produced from pharmaceutical plant

Article 4, Volume 5, Issue 1, June 2019, Page 33-41  XML PDF (1.31 MB)
Document Type: Original Article
DOI: 10.21608/rjab.2019.76802
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Authors
Reda A.M. Nassef; Nashwa M.H. Rizk; Ibrahim E. Mousa email
Department of Environmental Biotechnology, Genetic Engineering and Biotechnology Research Institute, University of Sadat City, Menofiya, 22857 Egypt
Abstract
Direct discharge of treated effluent containing pharmaceuticals compounds (PCs) to natural water bodies raised concern regarding the effect of these persistent (escaped) compounds on the aquatic ecosystem. The presence of these PCs in the receiving environment causes disturbance of aquatic flora and fauna and risk to human health. Our study was concerned about removal efficiency of the removal comparing to Egyptian guidelines. Conventionally treated methods as physical, chemical, biological and reverse osmosis technologies were tested. The effectiveness of this system was verified by observing the effluent content such as microbial load during an operation period and total element content by ICP-MS. A result of adjusting pH and start mixing with sewage waste water showed the values for different item were decreased by 81%, 89 %, 63%, 52%, 44%, 95%, and 44 % for BOD, COD, TSS, oil and grease, TP, TPH and H2S, respectively. The results showed the optimum removing for contamination between (16 hours to 36 hour) from start treatment, and the optimum pH ranged from 7 to 8 in case for biological treatment of pharmaceutical waste water and TDS decreased by 69 % by RO system.
Keywords
pharmaceuticals compounds; physical; chemical; biological treatment; RO system
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