Stapf, M. , Miehe, U. , Wiedemann, B. , Jekel, M. (2014): Comparison between different filter systems as a post treatment after tertiary ozonation.

p 2 In: 5th International Slow Sand And Alternative Biological Filtration Conference. Nagoya, Japan. 19-21 June 2014

Abstract

To cope with occurring traces of organic contaminants in the effluent of waste water treatment plants, ozonation is a suitable technical treatment method. However, there is an ongoing discussion about the necessity of a posttreatment of ozonation effluents to remove possible toxic ozonation by-products. This study compares a dual media filter (DMF) and a biological activated carbon filter (BAC), which were used for ozonation post-treatment, and were also designed as coagulation filters for tertiary phosphor removal. The results of this study demonstrate that both rapid filters performed similarly in respect to DOC reduction and oxygen demand, and could also be used for tertiary phosphorus removal without any impairments. A comparison of a serial mode of the DMF and the BAC with a slow sand filter, which was used as a surrogate for an infiltration pond, showed that this two-stage process could increase the degradation of the DOC, but was not able to remove the entire biodegradable DOC.

Stapf, M. , Miehe, U. , Wiedemann, B. , Jekel, M. (2014): Comparison between different filter systems as a post treatment after tertiary ozonation.

p 6 In: The 5th International Slow Sand and Alternative Biological Filtration Conference. Nagoya, Japan. 19.-21.Juni 2014

Abstract

To cope with occurring traces of organic contaminants in the effluent of waste water treatment plants, ozonation is a suitable technical treatment method. However, there is an ongoing discussion about the necessity of a posttreatment of ozonation effluents to remove possible toxic ozonation by-products. This study compares a dual media filter (DMF) and a biological activated carbon filter (BAC), which were used for ozonation post-treatment, and were also designed as coagulation filters for tertiary phosphor removal. The results of this study demonstrate that both rapid filters performed similarly in respect to DOC reduction and oxygen demand, and could also be used for tertiary phosphorus removal without any impairments. A comparison of a serial mode of the DMF and the BAC with a slow sand filter, which was used as a surrogate for an infiltration pond, showed that this two-stage process could increase the degradation of the DOC, but was not able to remove the entire biodegradable DOC.

Stapf, M. , Miehe, U. , Wiedemann, B. , Jekel, M. (2013): Comparison between two different filter systems as a post treatment of an ozonation to remove micropollutants.

p 4 In: 6th Late Summer Workshop “Micropollutants in the water cycle”. Schloss Maurach, Lake Constance, Germany. 29 September - 2 October 2013

Abstract

To cope with occurring traces of organic contaminants in the effluent of waste water treatment plants, ozonation is a suitable technical treatment method. However, there is an ongoing discussion about the necessity of a posttreatment of ozonation effluents to remove possible toxic ozonation by-products. This study compares a dual media filter (DMF) and a biological activated carbon filter (BAC), which were used for ozonation post-treatment, and were also designed as coagulation filters for tertiary phosphor removal. The results of this study demonstrate that both rapid filters performed similarly in respect to DOC reduction and oxygen demand, and could also be used for tertiary phosphorus removal without any impairments. A comparison of a serial mode of the DMF and the BAC with a slow sand filter, which was used as a surrogate for an infiltration pond, showed that this two-stage process could increase the degradation of the DOC, but was not able to remove the entire biodegradable DOC.

Stapf, M. , Miehe, U. , Lesjean, B. , Wiedemann, B. , Jekel, M. (2013): Vergleichende Untersuchungen von Steuerungskonzepten für nachgeschaltete Ozonanlagen.

p 21 In: DWA–Tagung: Mess- und Regelungstechnik in abwassertechnischen Anlagen. Fulda, Germany. 15-16 October 2013

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