Search results for "Ammonium removal"

showing 4 items of 4 documents

Monitoring pH and ORP in a SHARON reactor

2011

This paper analyses the valuable information provided by the on-line measurements of pH and oxidation reduction potential (ORP) in a continuous single high ammonia removal over nitrite (SHARON) reactor. A laboratory-scale SHARON reactor equipped with pH, ORP, electric conductivity and dissolved oxygen (DO) probes has been operated for more than one year. Nitrogen removal over nitrite has been achieved by adding methanol at the beginning of anoxic stages. Time evolution of pH and ORP along each cycle allows identifying the decrease in nitritation rate when ammonia is consumed during the aerobic phase and the end of the denitrification process during the anoxic phase. Therefore, monitoring pH…

INGENIERIA HIDRAULICADenitrificationPHLaboratory methodOxidation reduction potentialNitriteOxic conditionsWaste Disposal Fluidchemistry.chemical_compoundDissolved oxygenElectric conductivityBioreactorsElectrical conductivityAnaerobiosisNitriteControl systemWater Science and TechnologyTime evolutionsChemistryPH effectsHydrogen-Ion ConcentrationProbeAnoxic watersNitrificationAerobiosisPartial nitrificationReal timeNitritationEnvironmental chemistryPollutant removalDenitrificationSingle reactor system for high activity ammonium removal over nitrite reactorRedox potentialOxidation-ReductionEnvironmental MonitoringORPOptimizationDetection methodEnvironmental EngineeringOnline monitoringMonitoringAmmonia removalArticleSHARON reactorAnoxic sedimentsAmmoniaReduction potentialAmmoniaOxidationBioreactorAerobic phaseOn-line measurementNitritesTECNOLOGIA DEL MEDIO AMBIENTESHARONMethanolDenitrification processReactorNitrogen removalReal time controlLaboratory scaleMonitoring systemNitrificationProbesMethanolOxidation reduction reactionAnoxic conditions
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Modeling light and temperature influence on ammonium removal by Scenedesmus sp. under outdoor conditions.

2016

[EN] The ammonium removal rate of the microalga Scenedesmus sp. was studied under outdoor conditions. Microalgae were grown in a 500 L flat-plate photobioreactor and fed with the effluent of a submerged anaerobic membrane bioreactor. Temperature ranged between 9.5 WC and 32.5 WC and maximum light intensity was 1,860 μmol·m2·s1. A maximum specific ammonium removal rate of 3.71 mg NH4 þ-N·g TSS1·h1 was measured (at 22.6 WC and with a light intensity of 1,734 μmol·m2·s1). A mathematical model considering the influence of ammonium concentration, light and temperature was validated. The model successfully reproduced the observed values of ammonium removal rate obtained and it is thus p…

Environmental EngineeringLight020209 energyPhotobioreactorAnaerobic membrane bioreactor02 engineering and technology010501 environmental sciencesWastewaterAmmonium removal01 natural sciencesWaste Disposal Fluidchemistry.chemical_compoundPhotobioreactorsAmmonium Compounds0202 electrical engineering electronic engineering information engineeringMicroalgaeAmmoniumEffluentScenedesmusTECNOLOGIA DEL MEDIO AMBIENTE0105 earth and related environmental sciencesWater Science and TechnologyChromatographybiologyChemistryModelingTemperatureModels Theoreticalbiology.organism_classificationLight intensityWastewaterScenedesmusWater science and technology : a journal of the International Association on Water Pollution Research
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Mixed microalgae culture for ammonium removal in the absence of phosphorus: Effect of phosphorus supplementation and process modeling

2014

Microalgal growth and ammonium removal in a P-free medium have been studied in two batch photobioreactors seeded with a mixed microalgal culture and operated for 46 days. A significant amount of ammonium (106 mg NH4-Nl(-1)) was removed in a P-free medium, showing that microalgal growth and phosphorus uptake are independent processes. The ammonium removal rate decreased during the experiment, partly due to a decrease in the cellular phosphorus content. After a single phosphate addition in the medium of one of the reactors, intracellular phosphorus content of the corresponding microalgal culture rapidly increased, and so did the ammonium removal rate. These results show how the amount of phos…

ChemistryPolyphosphatePhosphorusInorganic chemistryPhotobioreactorchemistry.chemical_elementBioengineeringPhosphateWastewaterPhosphateAmmonium removalApplied Microbiology and BiotechnologyBiochemistrychemistry.chemical_compoundEnhanced biological phosphorus removalWastewaterEnvironmental chemistryMicroalgaeAmmoniumMicroalgae growthMathematical modelingTECNOLOGIA DEL MEDIO AMBIENTE
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Recovering ammonium by treated and untreated zeolitic mixtures: A comprehensive experimental and modelling study

2023

The recovery of ammonium (NH4+) from aqueous solutions by zeolite is attractive. In this study, the physicalchemistry of NH4+ adsorption process from aqueous solution by two zeolitic mixtures, either treated or not treated with NaCl, was assessed. Results suggested that the zeolitic mixture richer in mordenite and with high specific surface area adsorbed more NH4+ than the one richer in clinoptilolite and heulandite showing a lower specific surface area. NaCl treatment increased the amount of NH4+ adsorbed by the zeolitic mixtures. The higher amount of NH4+ adsorbed by the zeolitic mixtures treated with NaCl was explained by the low/high density water model accounting for cation exchange am…

NaCl treatmentSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleMechanics of MaterialsSettore AGR/13 - Chimica AgrariaGeneral Materials ScienceGeneral ChemistryZeolites mineralogyIsotherm modelsCondensed Matter PhysicsAmmonium removalKinetics model
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