A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The Occurrence of Cyanide Formation in Six Full‐Scale Publicly Owned Treatment Works
This paper presents results from an intensive monitoring program implemented at six full‐scale publicly owned treatment works (POTWs) to investigate the fate and formation of cyanide in wastewater treatment processes, with a focus on chlorination and dechlorination processes. A review of historical monitoring data for cyanide species in these POTWs was also conducted. This POTW monitoring program provided a database for the investigation of cyanide formation in wastewater secondary treatment. Data from participating POTWs showed evidence of cyanide formation in this 1‐year monitoring effort, although the cyanide formation pattern varied significantly from one plant to another and among seasons. Generally, the chlorination of thiocyanate (SCN) seems to be the most important mechanism for the formation of cyanide in wastewater treatment processes, especially in chlorination and dechlorination. This hypothesis is supported by the findings of a related laboratory study of mechanisms of cyanide formation in POTWs. It is recommended that POTWs monitor SCN− in influent and secondary effluent to identify its presence and adjust chlorine dose appropriately.
The Occurrence of Cyanide Formation in Six Full‐Scale Publicly Owned Treatment Works
This paper presents results from an intensive monitoring program implemented at six full‐scale publicly owned treatment works (POTWs) to investigate the fate and formation of cyanide in wastewater treatment processes, with a focus on chlorination and dechlorination processes. A review of historical monitoring data for cyanide species in these POTWs was also conducted. This POTW monitoring program provided a database for the investigation of cyanide formation in wastewater secondary treatment. Data from participating POTWs showed evidence of cyanide formation in this 1‐year monitoring effort, although the cyanide formation pattern varied significantly from one plant to another and among seasons. Generally, the chlorination of thiocyanate (SCN) seems to be the most important mechanism for the formation of cyanide in wastewater treatment processes, especially in chlorination and dechlorination. This hypothesis is supported by the findings of a related laboratory study of mechanisms of cyanide formation in POTWs. It is recommended that POTWs monitor SCN− in influent and secondary effluent to identify its presence and adjust chlorine dose appropriately.
The Occurrence of Cyanide Formation in Six Full‐Scale Publicly Owned Treatment Works
Zheng, Anping (author) / Dzombak, David A. (author) / Luthy, Richard G. (author) / Kavanaugh, Michael C. (author) / Deeb, Rula A. (author)
Water Environment Research ; 76 ; 101-112
2004-03-01
12 pages
Article (Journal)
Electronic Resource
English
Volatile Organic Compound Emission Factors for Publicly Owned Treatment Works
| British Library Conference Proceedings | 1994
Volatile Organic Compound Emission Factors for Publicly Owned Treatment Works
| British Library Conference Proceedings | 1994