The Reclamation of Potable Water from Wastewater

The Republic of South Africa is not richly endowed with large rivers and, consequently, is examining the prospect of wastewater reuse. A biological-chemical pilot plant was initiated at Windhoek, S.W.A., for a future 1-mgd (3,785-cm m/day) reclamation plant to help solve the water shortage problem....

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Veröffentlicht in:	Journal - Water Pollution Control Federation 1969-03, Vol.41 (3), p.355-367
Hauptverfasser:	Stander, G. J., Van Vuuren, L. R. J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Ammonia Chlorination Drinking water Humus Nitrogen Sewage effluent Wastewater Wastewater treatment Water reclamation Water tanks
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container_title	Journal - Water Pollution Control Federation
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creator	Stander, G. J. Van Vuuren, L. R. J.
description	The Republic of South Africa is not richly endowed with large rivers and, consequently, is examining the prospect of wastewater reuse. A biological-chemical pilot plant was initiated at Windhoek, S.W.A., for a future 1-mgd (3,785-cm m/day) reclamation plant to help solve the water shortage problem. The processes incorporated include flotation, ammonia stripping, recarbonization-stabilization, sand filtration, foam fractionation, chlorination, and activated carbon filtration. Costs of each process are included. Studies indicate that this system can produce potable water for $0.215 and $0.27/1,000 gal (3,785 1) for the final settling tank and primary clarified wastewater, respectively.
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source	Jstor Complete Legacy
subjects	Ammonia Chlorination Drinking water Humus Nitrogen Sewage effluent Wastewater Wastewater treatment Water reclamation Water tanks
title	The Reclamation of Potable Water from Wastewater
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