Search results for "Disposal"

showing 10 items of 1300 documents

Considering syntrophic acetate oxidation and ionic strength improves the performance of models for food waste anaerobic digestion.

2021

Current mechanistic anaerobic digestion (AD) models cannot accurately represent the underlying processes occurring during food waste (FW) AD. This work presents an update of the Anaerobic Digestion Model no. 1 (ADM1) to provide accurate estimations of free ammonia concentrations and related inhibition thresholds, and model syntrophic acetate oxidation as acetate-consuming pathway. A modified Davies equation predicted NH3 concentrations and pH more accurately, and better estimated associated inhibitory limits. Sensitivity analysis results showed the importance of accurate disintegration kinetics and volumetric mass transfer coefficients, as well as volatile fatty acids (VFAs) and hydrogen up…

ADM1Environmental EngineeringHydrogenchemistry.chemical_elementBioengineeringAcetatesModellingAmmoniachemistry.chemical_compoundBioreactorsMass transferAnaerobic digestionAnaerobiosisWaste Management and DisposalDavies equationchemistry.chemical_classificationAmmonia inhibitionRenewable Energy Sustainability and the EnvironmentOsmolar ConcentrationSyntrophic acetate oxidationGeneral MedicineRefuse DisposalAnaerobic digestionFood wastechemistryIonic strengthFoodEnvironmental chemistryPropionateMethaneBioresource technology
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Combined metabolic activity within an atrazine-mineralizing community enriched from agrochemical factory soil

2007

Abstract The main objective of this work was to characterize an atrazine-mineralizing community originating from agrochemical factory soil, especially to elucidate the catabolic pathway and individual metabolic and genetic potentials of culturable members. A stable four-member bacterial community, characterized by colony morphology and 16S rDNA sequencing, was rapidly able to mineralize atrazine to CO 2 and NH 3 . Two primary organisms were identified as Arthrobacter species (ATZ1 and ATZ2) and two secondary organisms (CA1 and CA2) belonged to the genera Ochrobactrum and Pseudomonas, respectively. PCR assessment of atrazine-degrading genetic potential of the community, revealed the presence…

ATRAZINE[SDV]Life Sciences [q-bio]BIODEGRADATION010501 environmental sciences01 natural sciencesMicrobiologyMicrobiologyARTHROBACTERBiomaterials03 medical and health scienceschemistry.chemical_compoundOchrobactrumTRZAtrazineWaste Management and DisposalGene0105 earth and related environmental sciencesOCHROBACTRUM2. Zero hunger0303 health sciencesbiology030306 microbiologyMICROBIAL COMMUNITYPseudomonasMineralization (soil science)Biodegradation16S ribosomal RNAbiology.organism_classificationatrazine; biodegradation; atz; trz; microbial communityMicrobial population biologychemistry[SDE]Environmental SciencesATZ
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Spectrophotometric determination of ethiofencarb in waters by reaction with p-aminophenol

1993

An automatized procedure has been developed for the spectrophotometric determination of ethiofencarb in water by reaction with p-aminophenol after alkaline hydrolysis to obtain the corresponding phenol sulphone. The hydrolyzed samples are continuously introduced into different manifolds at the same time as 300 mg/l p-aminophenol, 0.004 mol/l KIO4 and 0.04 mol/l NaOH solutions. The absorbance is measured at 638 nm after a reaction time of 6 min in stop flow. This absorbance band corresponds to the indo dye obtained from the reaction between the phenol sulphone of ethiofencarb and the quinoneimine form of the p-aminophenol and it permits a matrix-free spectrophotometric determination of ethio…

AbsorbanceDetection limitHydrolysischemistry.chemical_compoundChemistryP-AminophenolEthiofencarbAnalytical chemistryPhenolAlkaline hydrolysis (body disposal)BiochemistryChemical reactionNuclear chemistryFresenius' Journal of Analytical Chemistry
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Analysis of the U L3-edge X-ray absorption spectra in UO2 using molecular dynamics simulations

2017

This work was supported by a grant from the Swiss National Supercomputing Centre (CSCS) under the project ID s444. The resource allocation within the PSI share at CSCS and on the PSI compute cluster Merlin4 is also acknowledged. D. B. is grateful for a fellowship within the Sciex-NMS programme. A. K. was supported by Latvian Science Council Grant no. 187/2012.

Absorption spectroscopyUranium dioxideAb initioEnergy Engineering and Power Technologychemistry.chemical_elementNanotechnology02 engineering and technologyMolecular dynamics01 natural sciencesMolecular physicschemistry.chemical_compoundUranium dioxide0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Safety Risk Reliability and QualitySpectroscopyAbsorption (electromagnetic radiation)Waste Management and Disposal010302 applied physicsPhysicsX-ray absorption spectroscopyExtended X-ray absorption fine structureX-ray absorption spectroscopyUranium021001 nanoscience & nanotechnologyEXAFSNuclear Energy and Engineeringchemistry0210 nano-technologyCP2K
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Metabolic shift of polyphosphate-accumulating organisms with different levels of polyphosphate storage

2012

Previous studies have shown that polyphosphate-accumulating organisms (PAOs) are able to behave as glycogen-accumulating organisms (GAOs) under different conditions. In this study we investigated the behavior of a culture enriched with Accumulibacter at different levels of polyphosphate (poly-P) storage. The results of stoichiometric ratios Gly degraded/HAc uptake, PHB synthesized/HAc uptake, PHV synthesized/HAc uptake and P release/HAc uptake confirmed a metabolic shift from PAO metabolism to GAO metabolism: PAOs with high poly-P content used the poly-P to obtain adenosine tri-phosphate (ATP), and glycogen (Gly) to obtain nicotinamide adenine dinucleotide (NADH) and some ATP. In a test whe…

Accumulibacter Type IIWaste component removalUnclassified drugPhysiologyChemical compositionMicrobial metabolismStorageWastewaterNicotinamide adenine dinucleotidePolyhydroxyalkanoic acidchemistry.chemical_compoundBacteriumBioreactorsPolyphosphatesGlycolysisAnaerobiosisBiomassPolyphosphate-accumulating organismsWaste Management and DisposalAccumulibacter Type IGlycogen accumulating organismPriority journalWater Science and TechnologyFluorescence microscopyPolyhydroxyvalerateSewageGlycogenHydrolysisFluorescence in situ hybridizationEcological ModelingPhosphorusHydrogen-Ion ConcentrationBioaccumulationPollutionStoichiometryWaste treatmentPolyphosphate-accumulating organismsBiodegradation EnvironmentalEnhanced biological phosphorus removalBiochemistryGlycogen-accumulating metabolism (GAM)Nicotinamide adenine dinucleotideAccumulibacter type 1Accumulibacter type 2GlycolysisGlycogenMetabolic Networks and PathwaysAccumulibacterAdenosine triphosphateEnvironmental EngineeringBiologyAcetic acidArticleAssociative storagePolyphosphate-accumulating metabolism (PAM)PolyphosphateGlycogen-accumulating organismsGlycogen-accumulating metabolismsTECNOLOGIA DEL MEDIO AMBIENTEPolyphosphate accumulating organismCivil and Structural EngineeringPolyphosphate-accumulating organisms (PAO)BacteriaPolyphosphateMetabolismIn situ measurementGlycogen-accumulating organisms (GAO)Polyphosphate-accumulating metabolismsNonhumanAmidesCarbonMetabolismchemistryPolyphosphate (poly-P)Bacterial metabolismCell cultureVolatilizationWater Research
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Modeling the anaerobic treatment of sulfate rich urban wastewater. Application to AnMBR technology

2020

[EN] Although anaerobic membrane bioreactors (AnMBR) are a core technology in the transition of urban wastewater (UWW) treatment towards a circular economy, the transition is being held back by a number of bottlenecks. The dissolved methane released from the effluent, the need to remove nutrients (ideally by recovery), or the energy lost by the competition between methanogenic and sulfate-reducing bacteria (SRB) for the biodegradable COD have been identified as the main issues to be addressed before AnMBR becomes widespread. Mathematical modeling of this technology can be used to obtain further insights into these bottlenecks plus other valuable information for design, simulation and contro…

AcidogenesisAnaerobic membrane bioreactorEnvironmental EngineeringMethanogenesis0208 environmental biotechnology02 engineering and technology010501 environmental sciencesWastewater01 natural sciencesWaste Disposal FluidBioreactorsBNRM2BioreactorAnaerobiosisWaste Management and DisposalEffluentTECNOLOGIA DEL MEDIO AMBIENTE0105 earth and related environmental sciencesWater Science and TechnologyCivil and Structural EngineeringSulfate-rich urban wastewaterSulfatesEcological ModelingModelingPulp and paper industryPollution020801 environmental engineeringAnaerobic digestionPilot plantWastewaterAcetogenesisEnvironmental scienceMethane
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Application of the General Model "Biological Nutrient Removal Model No.1" to upgrade two full-scale WWTPs

2012

In this paper, two practical case studies for upgrading two wastewater treatment plants (WWTPs) using the general model BNRM1 (Biological Nutrient Removal Model No. 1) are presented. In the first case study, the Tarragona WWTP was upgraded by reducing the phosphorus load to the anaerobic digester in order to minimize the precipitation problems. Phosphorus load reduction was accomplished by mixing the primary sludge and the secondary sludge and by elutriating the mixed sludge. In the second case study, the Alcantarilla WWTP, the nutrient removal was enhanced by maintaining a relatively low dissolved oxygen concentration in Stage A to maintain the acidogenic bacteria activity. The VFA produce…

AcidogenesisBiological nutrient removalWATER TREATMENT PLANTSAerobic bacteriachemistry.chemical_elementActivated sludge modelPhosphatesWater PurificationWASTE-WATERBNRM1Environmental ChemistryAnaerobiosisOrganic ChemicalsWaste Management and DisposalTECNOLOGIA DEL MEDIO AMBIENTEWater Science and TechnologyCALIBRATIONSewagePhosphorusEnvironmental engineeringGeneral MedicineModels TheoreticalASM2DAerobiosisACTIVATED-SLUDGE MODELActivated sludge modelsEnhanced biological phosphorus removalWastewaterchemistrySIMULATIONPlant-wide mathematical modellingEnvironmental scienceSewage treatmentWater treatmentSanitary EngineeringWWTP upgrading
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Modeling solid waste decomposition.

2004

The hydrolysis rate coefficients of sorted municipal waste were evaluated from the biochemical methane potential tests using non-linear regression. A distributed mathematical model of anaerobic digestion of rich (food) and lean (non-food) solid wastes with greatly different rates of polymer hydrolysis/acidogenesis was developed to describe the balance between the rates of hydrolysis/acidogenesis and methanogenesis. The model was calibrated using previously published experimental data [Biores. Technol. 52 (1995) 245] obtained upon various initial food waste loadings. Simulations of one- and two-stage digestion systems were carried out. The results showed that initial spatial separation of fo…

AcidogenesisEnvironmental EngineeringMunicipal solid wasteTime FactorsWaste managementRenewable Energy Sustainability and the EnvironmentMethanogenesisChemistryHydrolysisBioengineeringGeneral MedicineBiodegradationModels TheoreticalDecompositionMethaneRefuse DisposalFood wasteAnaerobic digestionchemistry.chemical_compoundBacteria AnaerobicRegression AnalysisComputer SimulationWaste Management and DisposalAcidsMethaneBioresource technology
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Ein neuer weg zur herstellung von oligomeren aus acryl- und vinylverbindungen; modell einer matrizenreaktion

1966

In einer Reihe vorangehender Untersuchungen wurde die Herstellung molekulareinheitlicher, phenolischer Mehrkernverbindungen beschrieben. Sie besitzen je Phenolbaustein eine phenolische Hydroxylgruppe, wie systematisch untersuchte Acylierungen sowie Methylierung und Arylierung dieser Mehrkernverbindungen zeigen. In der vorliegenden Mitteilung wurde bei einer Zwei- und Dreikernverbindung an den phenolischen Hydroxylgruppen mit Acrylsaurechlorid umgesetzt, so das die entstandenen Verbindungen so viele polymerisationsfahige Reste wie phenolische Bausteine besasen. Die Polymerisation der Acrylsaurederivate in sehr groser Verdunnung gab oligomere Leiterverbindungen, die durch alkalische Hydrolyse…

Acylationchemistry.chemical_compoundHydrolysischemistryReaction sequencePolymer chemistryLiving cellAlkaline hydrolysis (body disposal)OligomerAcrylic acidDie Makromolekulare Chemie
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Mechanical–biological waste treatment and the associated occupational hygiene in Finland

2004

A special feature of waste management in Finland has been the emphasis on the source separation of kitchen biowaste (catering waste); more than two-thirds of the Finnish population participates in this separation. Source-separated biowaste is usually treated by composting. The biowaste of about 5% of the population is handled by mechanical-biological treatment. A waste treatment plant at Mustasaari is the only plant in Finland using digestion for kitchen biowaste. For the protection of their employees, the plant owners commissioned a study on environmental factors and occupational hygiene in the plant area. During 1998-2000 the concentrations of dust, microbes and endotoxins and noise level…

AdultEngineeringbusiness.product_categoryThreshold limit valuePopulationAir MicrobiologyAir Pollutants OccupationalOccupational safety and healthWaste ManagementOccupational hygieneOccupational ExposureBiological wasteHumansRespiratoreducationWaste Management and DisposalFinlandOccupational Healtheducation.field_of_studyWaste managementbusiness.industryDry coughTemperatureDustHumidityEndotoxinsWaste treatmentNoise OccupationalbusinessWaste Management
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