Anaerobic treatment of liquid fraction of hen manure in UASB reactorsстатья
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Дата последнего поиска статьи во внешних источниках: 18 июля 2013 г.
Аннотация:The anaerobic treatment of liquid fraction of hen manure was studied in two parallel laboratory 2.61 UASB reactors at 35°C. The granular sludge from the laboratory UASB reactor treating synthetic wastewater was used as a seed sludge. The liquid fraction of hen manure was obtained directly from an industrial farm located in Moscow region after separation of diluted manure in situ into solid and liquid fractions. Before feeding, the waste water was preacidified under microaerobic conditions at laboratory ambient temperature (18-20°C) for 1-2 days. The influent COD was 10.5-20 g/l of which volatile fatty acids (VFA) were 3.9-6.7 g COD/l, pH was between 6.2-7.1. The initial organic loading rate (OLR) was 1 g COD/l day-1, then it was stepwise increased to the values of 11-12 g COD/l day-1. Under these OLR and hydraulic retention time of 1-2 days, both reactors demonstrated optimal stability with treatment efficiencies on total COD reduction of 70-75%. The biogas production rate at the OLR of 11-12 g COD/l day-1 was 3.5-3.6 l/l day-1 (methane content - 79-81%) and effluent pH of about 8. The anaerobic treatment of liquid fraction of hen manure was studied in two parallel laboratory 2.6 l UASB reactors at 35°C. The granular sludge from a laboratory UASB reactor treating synthetic wastewater was used as a seed sludge. The liquid fraction of hen manure was obtained directly from an industrial farm located in Moscow region after separation of diluted manure in situ into solid and liquid fractions. Before feeding, the waste water was preacidified under microaerobic conditions at laboratory ambient temperature (18-20°C) for 1-2 days. The influent COD was 10.5-20 g/l of which volatile fatty acids (VFA) were 3.9-6.7 g COD/l, pH was between 6.2-7.1. The initial organic loading rate (OLR) was 1 g COD/l day-1, then it was stepwise increased to the values of 11-12 g COD/l day-1. Under these OLR and hydraulic retention time of 1-2 days, both reactors demonstrated optimal stability with treatment efficiencies on total COD reduction of 70-75%. The biogas production rate at the OLR of 11-12 g COD/l day-1 was 3.5-3.6 l/l day-1 (methane content - 79-81%) and effluent pH of about 8.