Rehabilitation and upgrading wastewater treatment plant for safe irrigation reuse in remote area

This study presents an extensive evaluation of a full-scale sewage treatment system in a remote area with a population of 9,000 equivalents in Egypt. The present achievement can be implemented in several arid and semi-arid areas. Previously, this treatment system was heavily destroyed during the tur...

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Bibliographic Details
Published in:Water practice and technology 2020-12, Vol.15 (4), p.1213-1227
Main Authors: Abdel-Shafy, Hussein I., Mansour, Mona S. M.
Format: Article
Language:English
Subjects:
Agriculture
Ammonia
Arid regions
Biochemical oxygen demand
Chemical coagulation
Chemical oxygen demand
Coagulation
Coliforms
E coli
Effluent treatment
Effluents
Eggs
Gravel
Gravel beds
Grease
Hydroponics
Irrigation
Maturation
Nitrogen
Nutrient removal
Nutrients
Organic nitrogen
Pathogens
Pollutants
Pollution
Ponds
Population growth
Public health
Raw wastewater
Rehabilitation
Removal
Sedimentation
Semi arid areas
Sewage
Sewage disposal
Sewage treatment
Sewage treatment plants
Solid suspensions
Suspended particulate matter
Total oxygen demand
Total suspended solids
Turbidity
Wastewater treatment
Wastewater treatment plants
Water reuse
Water treatment
Wetlands
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Summary:This study presents an extensive evaluation of a full-scale sewage treatment system in a remote area with a population of 9,000 equivalents in Egypt. The present achievement can be implemented in several arid and semi-arid areas. Previously, this treatment system was heavily destroyed during the turmoil and became completely out of operation. Presently, the capacity of the treatment system increased from 345.5 to 648 m3/d. The present rehabilitation, upgrading, and optimizing consisted of rebuilding the main construction system, addition of chemical coagulation/sedimentation, Gravel Bed Hydroponic Wetland (GBHW) followed by waste maturation pond at a surface area of 784 m2. Results indicated that the overall removal of the pollution parameters namely: turbidity, total suspended solids (TSS), chemical oxygen demand (COD), Biological oxygen demand (BOD5), and oil and grease were excellent (ranged between 96.9 to 99%). Further improvement was achieved by employing the maturation pond. In addition, successful removal of the nutrients elements in the final treated effluent reached 83.4% for total kjeldahl nitrogen (TKN), 99.3% for ammonia-nitrogen, 63.4% for organic nitrogen, and 59.8% for total phosphorous (TP). The pathogen removal was excellent, namely: faecal coliform and E.coli, where the overall removal reached 100% each (more than ten and six orders of magnitude). Meanwhile, the number of cells or eggs of Nimatoda (count/L) in the raw wastewater was also 100% removed in the final treated effluent.
ISSN:1751-231X
1751-231X
DOI:10.2166/wpt.2020.092