1. BIOLOGICAL AEROBIC TREATMENT OF PIG SLURRY IN FRANCE: NUTRIENTS REMOVAL EFFICIENCY AND SEPARATION PERFORMANCES
- Author
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Fabrice Guiziou, Fabrice Béline, Marie L. Daumer, Gestion environnementale et traitement biologique des déchets (UR GERE), Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF), and Irstea Publications, Migration
- Subjects
[SDE] Environmental Sciences ,2. Zero hunger ,Waste management ,Sedimentation (water treatment) ,Phosphorus ,FRANCE ,chemistry.chemical_element ,04 agricultural and veterinary sciences ,Zinc ,010501 environmental sciences ,Pulp and paper industry ,01 natural sciences ,Agricultural and Biological Sciences (miscellaneous) ,Nitrogen ,6. Clean water ,Waste treatment ,chemistry ,[SDE]Environmental Sciences ,040103 agronomy & agriculture ,Slurry ,0401 agriculture, forestry, and fisheries ,Aeration ,Organic fertilizer ,0105 earth and related environmental sciences - Abstract
Four types of biological aerobic treatment units were identified in France: (1) intermittent aeration without any separation, (2) intermittent aeration followed by sedimentation of aerated slurry, (3) mechanical separation of raw slurry followed by intermittent aeration of the liquid fraction and sedimentation of aerated slurry, and (4) mechanical separation of raw slurry followed by intermittent aeration of the liquid fraction and mechanical separation of the aerated slurry. Among the 26 treatment units built in Brittany (June 1999), three were studied for 8 weeks. This monitoring period allowed us to establish nutrient distribution for nitrogen, phosphorus, copper, and zinc. Between 60% and 70% of the nitrogen was removed in gaseous form. Mechanical separation of the raw slurry (press auger) concentrated 25% to 30% of total phosphorus, 10% of total nitrogen, and 8% to 12% of heavy metals (copper and zinc) into a solid fraction representing 4% to 5% of the raw slurry on a weight basis. Separation of the treated slurry using sedimentation or mechanical separation concentrated phosphorus and heavy metals in the sludge (60% to 90%). This separation could lead to a high content of copper and zinc in the sludge, up to 160 and 340 g ton-1, respectively. Consequently, the use of this product on the farm as organic fertilizer could lead to an overload with regard to agronomic requirements and export is difficult due to the high copper and zinc contents. The clarified supernatant obtained by separation of the treated slurry could be irrigated with a reduced environmental risk. Concerning the biological reactor, the variation of the volumetric load owing to the variation of raw slurry characteristics was identified as the main parameter influencing the treatment efficiency.
- Published
- 2004