Search results for "Volumetric flow rate"

showing 6 items of 116 documents

Simulating Copolymeric Nanoparticle Assembly in the Co-solvent Method: How Mixing Rates Control Final Particle Sizes and Morphologies

2018

Abstract The self-assembly of copolymeric vesicles and micelles in micromixers is studied by External Potential Dynamics (EPD) simulations – a dynamic density functional approach that explicitly accounts for the polymer architecture both at the level of thermodynamics and dynamics. Specifically, we focus on the co-solvent method, where nanoparticle precipitation is triggered by mixing a poor co-solvent into a homogeneous copolymer solution in a micromixer. Experimentally, it has been reported that the flow rate in the micromixers influences the size of the resulting particles as well as their morphology: At small flow rates, vesicles dominate; with increasing flow rate, more and more micell…

chemistry.chemical_classificationMaterials sciencePolymers and PlasticsSpinodal decompositionOrganic ChemistryMicromixerNanoparticleFOS: Physical sciencesPolymer architectureNanotechnology02 engineering and technologyPolymerCondensed Matter - Soft Condensed Matter010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesVolumetric flow ratechemistryChemical physicsMaterials ChemistryParticleSoft Condensed Matter (cond-mat.soft)0210 nano-technologyMixing (physics)
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Removal of TEX vapours from air in a peat biofilter: influence of inlet concentration and inlet load

2006

This paper presents the results of the study of the removal of toluene, ethylbenzene, and o-xylene (TEX) by biofiltration using a commercial peat as filter-bed material. Runs with a single organic compound in air, and with the mixture of TEX in air, were carried out for at least 55 days in laboratory-scale reactors inoculated with a conditioned culture. The influence of organic compound inlet load and of gas flow rate on the biofilter's performance was studied, including relatively high values of pollutant inlet concentration (up to 4.3 gC m−3 for ethylbenzene, 3.2 gC m−3 for toluene, and 2.7 gC m−3 for o-xylene). Results obtained show maximum elimination capacities of 65 gC m−3 h−1 for o-x…

chemistry.chemical_classificationPollutantRenewable Energy Sustainability and the EnvironmentGeneral Chemical EngineeringOrganic Chemistrymedicine.diseasePollutionOrganic compoundTolueneEthylbenzeneVolumetric flow rateInorganic Chemistrychemistry.chemical_compoundFuel TechnologychemistryEnvironmental chemistryBiofiltermedicineVolatile organic compoundWaste Management and DisposalVapoursBiotechnologyJournal of Chemical Technology & Biotechnology
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Analysis of gate freeze-off time in injection molding

2004

Gate solidification time is an important topic in injection molding technology, as it determines cycle time, which itself is an important issue in the economics of the production process. In this work, a study of the effect of both gate and cavity geometries on gate solidification time was conducted, using a commercial polymer, injection molded with constant holding pressure into a rectangular cavity. Three cavity lengths were used, and for each, two cavity thicknesses were adopted. Spe- cial dies containing different gates were assembled in the mold. Gate thickness was found to be the most important factor determining gate sealing time. However, the cavity geometry is also quite important.…

chemistry.chemical_classificationWork (thermodynamics)Materials sciencePolymers and PlasticsTime evolutionMechanical engineeringGeneral ChemistryPolymerMolding (process)Mechanicsmedicine.disease_causeVolumetric flow ratechemistryMoldMaterials ChemistrymedicineInjection Molding ModelingOff timeHeat flow
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Ozone absorption in aqueous phenol solutions

1977

Abstract The rate of ozone absorption in aqueous solutions of phenol was measured in a wetted-wall laboratory absorber. The liquid and gas flow rates were fixed as well as the pH and temperature. The phenol concentration was varied in the range 2–300 ppm and the ozone partial pressure over an eight fold range. The gas phase resistance to mass transfer was determined by absorbing SO2 from an SO2N2 mixture in KOH aqueous solutions. The results have been interpreted by means of a simple kinetic assumption.

chemistry.chemical_compoundOzoneAqueous solutionchemistryMass transferInorganic chemistryGeneral EngineeringPhenolPartial pressureKinetic energyGas phaseVolumetric flow rateThe Chemical Engineering Journal
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Pressure-Induced Deformation of Pillar-Type Profiled Membranes and Its Effects on Flow and Mass Transfer

2019

In electro-membrane processes, a pressure difference may arise between solutions flowing in alternate channels. This transmembrane pressure (TMP) causes a deformation of the membranes and of the fluid compartments. This, in turn, affects pressure losses and mass transfer rates with respect to undeformed conditions and may result in uneven flow rate and mass flux distributions. These phenomena were analyzed here for round pillar-type profiled membranes by integrated mechanical and fluid dynamics simulations. The analysis involved three steps: (1) A conservatively large value of TMP was imposed, and mechanical simulations were performed to identify the geometry with the minimum pillar density…

ion exchange membraneMass fluxSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciMaterials scienceGeneral Computer Sciencereverse electrodialysisFlow (psychology)fluid-structure interaction02 engineering and technologyDeformation (meteorology)Computational fluid dynamicsElectrodialysilcsh:QA75.5-76.95Theoretical Computer Sciencestructural mechanics020401 chemical engineeringMass transferReverse electrodialysimass transferFluid dynamicselectrodialysis0204 chemical engineeringSettore ING-IND/19 - Impianti Nuclearipressure dropprofiled membranebusiness.industryApplied MathematicsMechanics021001 nanoscience & nanotechnologyVolumetric flow rateMembraneModeling and Simulationlcsh:Electronic computers. Computer scienceSettore ICAR/08 - Scienza Delle CostruzioniCFD0210 nano-technologybusinessComputation
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Numerical investigation on water exchange of shale samples

2020

Interest in the hydraulic and mechanical characterization of shales has grown in recent years, because of their application in the context of energy geotechnics. In the frame of nuclear waste disposal shales are considered as host formations for the placements of nuclear waste at high depths. In the frame of hydrocarbon production they are considered as unconventional reservoirs, from which extracting natural gas. Understanding how fluids flow through shales is then a key aspect for both fields of application. This paper focuses on the analysis of the transport of water vapour through laboratory samples. After reviewing the balance and flow laws that govern the transport of fluid in unsatur…

lcsh:GE1-350Petroleum engineeringbehaviorbusiness.industry0211 other engineering and technologiesRadioactive waste020101 civil engineeringContext (language use)02 engineering and technologyopalinus clay0201 civil engineeringVolumetric flow rateGeotechnicsNatural gasPorous mediumbusinessWater contentOil shalelcsh:Environmental sciencesGeology021101 geological & geomatics engineeringE3S Web of Conferences
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