Biological treatment for removal of organic material and ammonium from leachate at low temperatures
The biological anaerobic-aerobic treatment of medium-strength municipal landfill leachate (COD (chemical oxygen demand) 1500 to 3200 mg l super(-1); BOD sub(7) (biological oxygen demand) 1200 to 1900 mg l super(-1); NH sub(4)-N 80 to 270 mg l super(-1)) was studied by using a pilot-scale Upflow Anae...
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| Published in | Waste management & research Vol. 17; no. 6; pp. 487 - 492 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.12.1999
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The biological anaerobic-aerobic treatment of medium-strength municipal landfill leachate (COD (chemical oxygen demand) 1500 to 3200 mg l super(-1); BOD sub(7) (biological oxygen demand) 1200 to 1900 mg l super(-1); NH sub(4)-N 80 to 270 mg l super(-1)) was studied by using a pilot-scale Upflow Anaerobic Sludge Blanket (UASB) reactor (13 to 28 degree C) and laboratory-scale activated sludge reactors (5 to 11 degree C). In the sequential process, 80 to 90% COD removal was achieved with an effluent COD of 250 to 350 mg l super(-1) and a BOD sub(7) of <10 mg l super(-1). Most of the organic material was removed during anaerobic pretreatment, and more than 50% COD removal was obtained at 13 degree C. The aerobic stage served as an ammonium removal and a polishing step. More than 90% of ammonium was efficiently removed by nitrification even at 5 degree C. The anaerobic-aerobic treatment produced effluent fulfilling the official requirements. Furthermore, the sequential process seems sustainable and cost effective for leachate treatment at low temperatures. Based on a preliminary design, leachate treatment costs were estimated at 3.1 to 3.3 EUR m super(-3) in the sequential process. This compares with the option of discharging leachates into a sewer system. Both the discharge fee and the construction and operational costs of a transfer sewer are considered. |
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| AbstractList | The biological anaerobic-aerobic treatment of medium-strength municipal landfill leachate (COD (chemical oxygen demand) 1500 to 3200 mg l super(-1); BOD sub(7) (biological oxygen demand) 1200 to 1900 mg l super(-1); NH sub(4)-N 80 to 270 mg l super(-1)) was studied by using a pilot-scale Upflow Anaerobic Sludge Blanket (UASB) reactor (13 to 28 degree C) and laboratory-scale activated sludge reactors (5 to 11 degree C). In the sequential process, 80 to 90% COD removal was achieved with an effluent COD of 250 to 350 mg l super(-1) and a BOD sub(7) of <10 mg l super(-1). Most of the organic material was removed during anaerobic pretreatment, and more than 50% COD removal was obtained at 13 degree C. The aerobic stage served as an ammonium removal and a polishing step. More than 90% of ammonium was efficiently removed by nitrification even at 5 degree C. The anaerobic-aerobic treatment produced effluent fulfilling the official requirements. Furthermore, the sequential process seems sustainable and cost effective for leachate treatment at low temperatures. Based on a preliminary design, leachate treatment costs were estimated at 3.1 to 3.3 EUR m super(-3) in the sequential process. This compares with the option of discharging leachates into a sewer system. Both the discharge fee and the construction and operational costs of a transfer sewer are considered. Tests were enacted to evaluate the performance of a pilot-scale Upflow Anaerobic Sludge Blanket (UASB) reactor and laboratory-scale activated sludge reactors as tools for the biological anaerobic-aerobic treatment of medium-strength landfill leachates. The characteristics of the leachate samples evaluated in the project are highlighted. For the sequential process, researchers found that 80-90% COD removal could be achieved for an influent COD of 250-350 mg/l and a BOD sub(7) of greater than 10 mg/l. The majority of the organic material was removed during the anaerobic pretreatment phase. The aerobic phase of the treatment process was intended to promote ammonium removal and provide a polishing stage. The treatment method proved capable of achieving compliance with applicable standards. |
| Author | Kettunen, Riitta H Keskitalo, Pertti Rintala, Jukka A Hoilijoki, Taina H |
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| Snippet | Tests were enacted to evaluate the performance of a pilot-scale Upflow Anaerobic Sludge Blanket (UASB) reactor and laboratory-scale activated sludge reactors... The biological anaerobic-aerobic treatment of medium-strength municipal landfill leachate (COD (chemical oxygen demand) 1500 to 3200 mg l super(-1); BOD sub(7)... |
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| SubjectTerms | Activated sludge process Ammonium compounds Anaerobic digestion Biochemical oxygen demand Biological sewage treatment Bioreactors Chemical oxygen demand Cost effectiveness Nitrification |
| Title | Biological treatment for removal of organic material and ammonium from leachate at low temperatures |
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