32 research outputs found
Evaluation of Second鈥怗eneration Multistage Wastewater Treatment System for the Removal of Malodors from Liquid Swine Waste
No full textPartial nitritation of swine wastewater in view of its coupling with the anammox process
No full textPartial nitritation (PN) of swine wastewater was investigated in a sequencing batch reactor (SBR) using a high performance nitrifying sludge (HPNS). Characteristics of the wastewater used were low content of biodegradable organic carbon and high alkalinity-to-ammonium ratio. Process temperature was 32掳C. Target oxidation of ammonium nitrogen (NH4-N) to nitrite nitrogen
(NO2-N) was 57% (1.32 g NO2-N g-1 NH4-N), which corresponds with the stoichiometry of the anammox reaction. This target was successfullly achieved just by controlling the inflow rate and corresponding N loading rate (NLR). An average NLR of 1.47 g NH4-N L-1 d- 1 was applied to the PN-SBR during a period of 70 days. The NO2-N production rate obtained was 0.91 g L- 1 d-1. No nitrate was produced. The PN effluent contained 1.38 g NO2-N g-1 NH4-N, which was within 5% of the target ratio. Under steady state conditions, the pH was shown as a good indicator of the PN process performance. Furthermore, in a second SBR the anammox process was effectively applied to the PN effluent attaining an N conversion rate of 0.36 g N L- 1 h-1 (14.3 mg N g-1 VSS h-1).Postprint (published version
Anammox treatment of swine wastewater using immobilized technology
No full textppropriate land application of manure nitrogen at agronomic rates must be assured in order to preserve environmental quality of agricultural ecosystems, atmosphere, and water resources. When land is limiting, the
combined bioprocess of nitrification-denitrification (NDN) has often been considered for the removal of nitrogen,
implying the conversion of ammoniumPostprint (published version
Water Quality Improvements of Wastewater from Confined Animal Feeding Operations after Advanced Treatment
No full textControl de pat贸genos en los purines de cerdo mediante el tratamiento del nitr贸geno y del f贸sforo
No full text脷ltimamente ha aumentado mucho la preocupaci贸n por la posible contaminaci贸n de las aguas, los alimentos y el aire debido a los pat贸genos existentes en el esti茅rcol, los subproductos del esti茅rcol y los bioaerosoles. Hemos valorado la reducci贸n de los pat贸genos en un sistema de tratamiento de purines de varias fases, la primera de las cuales consiste en separar los s贸lidos y los l铆quidos mediante el uso de pol铆mero, seguida de una fase de eliminaci贸n biol贸gica del nitr贸geno (N) por medio de la nitrificaci贸n y la denitrificaci贸n, para a continuaci贸n en una 煤ltima fase extraer el f贸sforo (P) mediante una precipitaci贸n en medio alcalino. Cada fase del sistema de tratamiento ha sido evaluada en relaci贸n con su efectividad en la eliminaci贸n de pat贸genos e indicadores de pat贸genos, realiz谩ndolo mediante el recuento de coliformes totales y fecales, enterococos y salmonellas utilizando medios nutritivos selectivos y diferenciales. Nuestros resultados indican que el tratamiento de nitrificaci贸n/denitrificaci贸n es sumamente eficiente para reducir los pat贸genos en los purines de cerdo y que la fase de eliminaci贸n del f贸sforo por medio de la precipitaci贸n alcalina con calcio produce un efluente higienizado que puede resultar importante por razones de bioseguridad
Partial nitritation of swine wastewater in view of its coupling with the anammox process
No full textPartial nitritation (PN) of swine wastewater was investigated in a sequencing batch reactor (SBR) using a high performance nitrifying sludge (HPNS). Characteristics of the wastewater used were low content of biodegradable organic carbon and high alkalinity-to-ammonium ratio. Process temperature was 32掳C. Target oxidation of ammonium nitrogen (NH4-N) to nitrite nitrogen
(NO2-N) was 57% (1.32 g NO2-N g-1 NH4-N), which corresponds with the stoichiometry of the anammox reaction. This target was successfullly achieved just by controlling the inflow rate and corresponding N loading rate (NLR). An average NLR of 1.47 g NH4-N L-1 d- 1 was applied to the PN-SBR during a period of 70 days. The NO2-N production rate obtained was 0.91 g L- 1 d-1. No nitrate was produced. The PN effluent contained 1.38 g NO2-N g-1 NH4-N, which was within 5% of the target ratio. Under steady state conditions, the pH was shown as a good indicator of the PN process performance. Furthermore, in a second SBR the anammox process was effectively applied to the PN effluent attaining an N conversion rate of 0.36 g N L- 1 h-1 (14.3 mg N g-1 VSS h-1)
Control de pat贸genos en los purines de cerdo mediante el tratamiento del nitr贸geno y del f贸sforo
No full text脷ltimamente ha aumentado mucho la preocupaci贸n por la posible contaminaci贸n de las aguas, los alimentos y el aire debido a los pat贸genos existentes en el esti茅rcol, los subproductos del esti茅rcol y los bioaerosoles. Hemos valorado la reducci贸n de los pat贸genos en un sistema de tratamiento de purines de varias fases, la primera de las cuales consiste en separar los s贸lidos y los l铆quidos mediante el uso de pol铆mero, seguida de una fase de eliminaci贸n biol贸gica del nitr贸geno (N) por medio de la nitrificaci贸n y la denitrificaci贸n, para a continuaci贸n en una 煤ltima fase extraer el f贸sforo (P) mediante una precipitaci贸n en medio alcalino. Cada fase del sistema de tratamiento ha sido evaluada en relaci贸n con su efectividad en la eliminaci贸n de pat贸genos e indicadores de pat贸genos, realiz谩ndolo mediante el recuento de coliformes totales y fecales, enterococos y salmonellas utilizando medios nutritivos selectivos y diferenciales. Nuestros resultados indican que el tratamiento de nitrificaci贸n/denitrificaci贸n es sumamente eficiente para reducir los pat贸genos en los purines de cerdo y que la fase de eliminaci贸n del f贸sforo por medio de la precipitaci贸n alcalina con calcio produce un efluente higienizado que puede resultar importante por razones de bioseguridad
