Search results for "reverse electrodialysi"

showing 10 items of 101 documents

Membrane Deformation and Its Effects on Flow and Mass Transfer in the Electromembrane Processes

2019

In the membrane processes, a trans-membrane pressure (TMP) may arise due to design features or operating conditions. In most applications, stacks for electrodialysis (ED) or reverse electrodialysis (RED) operate at low TMP (&lt

Work (thermodynamics)Chemical Phenomenareverse electrodialysis02 engineering and technologyCFD; electrodialysis; fluid-structure interaction; ion exchange membrane; mass transfer; pressure drop; profiled membrane; reverse electrodialysis; structural mechanics;Physical Phenomenalcsh:ChemistryFluid dynamicsBiology (General)lcsh:QH301-705.5SpectroscopyGeneral MedicineMechanicsElectrodialysis021001 nanoscience & nanotechnologyComputer Science ApplicationsChemistry0210 nano-technologyTransport phenomenaCFDreverse electrodialysiion exchange membraneSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciMaterials scienceQH301-705.5fluid-structure interactionComputational fluid dynamicsDeformation (meteorology)CatalysisArticleInorganic Chemistry020401 chemical engineeringstructural mechanicsReversed electrodialysisMass transfermass transferstructural mechanic0204 chemical engineeringPhysical and Theoretical ChemistryelectrodialysisMolecular BiologyQD1-999Settore ING-IND/19 - Impianti NucleariMechanical Phenomenapressure dropprofiled membranebusiness.industryOrganic ChemistryMembranes Artificiallcsh:Biology (General)lcsh:QD1-999electrodialysiHydrodynamicsbusinessSettore ICAR/08 - Scienza Delle Costruzioni
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Multi-physical modelling of reverse electrodialysis

2017

Abstract Reverse electrodialysis (RED) is an electrochemical membrane process that directly converts the energy associated with the concentration difference between two salt solutions into electrical energy by means of a selective controlled mixing. The physics of RED involves the interaction of several phenomena of different nature and space-time scales. Therefore, mathematical modelling and numerical simulation tools are crucial for performance prediction. In this work, a multi-physical modelling approach for the simulation of RED units was developed. A periodic portion of a single cell pair was simulated in two dimensions. Fluid dynamics was simulated by the Navier-Stokes and continuity …

Work (thermodynamics)EngineeringSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/25 - Impianti ChimiciGeneral Chemical EngineeringAnalytical chemistry02 engineering and technology020401 chemical engineeringStack (abstract data type)Reversed electrodialysisFluid dynamicsPerformance predictionGeneral Materials Science0204 chemical engineeringSettore ING-IND/19 - Impianti NucleariWater Science and TechnologyComputer simulationPlane (geometry)business.industryMechanical EngineeringGeneral ChemistryMechanics021001 nanoscience & nanotechnology6. Clean waterMembraneReverse electrodialysis multi-physical model finite element method power density profiled membranesSettore ING-IND/06 - Fluidodinamica0210 nano-technologybusiness
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Effect of different aqueous solutions of pure salts and salt mixtures in reverse electrodialysis systems for closed-loop applications

2018

Abstract Reverse Electrodialysis (RED) in a closed-loop arrangement is a viable way to convert low-grade heat into electric power. The present work experimentally investigates the use of pure salt- and equimolar two salts-water solutions as feeds in a lab-scale RED unit. RED performances were analysed in terms of Open Circuit Voltage (OCV), stack resistance and corrected power density. The pure salts and the mixtures employed were chosen via a computational analysis. Effect of feed solution velocity and concentration was investigated. Results concerning the pure salt-water experiments show that NH4Cl is the most performing salt in the concentration range probed, while higher power density v…

Work (thermodynamics)Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciMaterials scienceAnalytical chemistrySalt (chemistry)Filtration and Separation02 engineering and technology010402 general chemistry7. Clean energy01 natural sciencesBiochemistryStack (abstract data type)Electrical resistance and conductanceReversed electrodialysisGeneral Materials SciencePhysical and Theoretical ChemistryPower densitychemistry.chemical_classificationAqueous solutionOpen-circuit voltage021001 nanoscience & nanotechnology6. Clean water0104 chemical scienceschemistry0210 nano-technologyReverse Electrodialysis Heat Engine Closed loop RED Salt mixture Salinity Gradient PowerJournal of Membrane Science
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Neutralization of acid and base solutions by Reverse Electrodialysis with Bipolar Membranes: a sustainable way to recover energy

2020

The large amount of acidic wastewaters produced in various industrial processes can have a large economic and environmental impact. Companies producing waste acid solutions have to send them to specific sites for the neutralization with alkaline solutions. However, efforts have been devoted so far to promote the acid recovery or its reuse. In the perspective of a more circular manufacturing approach, the present work proposes for the first time the use of the novel Bipolar Membrane Reverse Electrodialysis technology as a viable on-site way to convert the chemical energy associated to the pH gradient of waste acid/base solutions into electrical energy. Bipolar Membrane Reverse Electrodialysi…

energy productionion exchange membraneSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/23 - Chimica Fisica Applicatabiplar membraneWastewater valorizationreverse electrodialysis.acid recovery
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Resource, environmental and economic considerations in the development of a Reverse Electrodialysis Heat Engine

The RED Heat Engine operates as a closed-loop RED system, where limited amounts of artificial saline solutions are used as working fluids. The solutions exiting from the RED unit are regenerated by means of a separation step, which uses low-temperature heat as its energy source. Essentially the system converts low-grade heat to electricity. There are two main alternative regeneration strategies: (i) extract solvent from the high salinity solution and move it to the low salinity solution or (ii) extract salt from the low salinity solution and move it to the high salinity solution. In this thesis are considered the Multi-effect distillation (MED) and the Membrane Distillation (MD) under the s…

heat resource availabilitywaste heat recoverylow-grade heat.Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicilife cycle assessmentregeneration unitReverse Electrodialysilevelized cost of electricity
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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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ABATEMENT OF ACID ORANGE 7 IN WATER BY DIFFERENT ELECTROCHEMICAL APPROACHES

2014

Very large amounts of synthetic dyes are discharged in the environment from industrial effluents [1]. Due to their large-scale production and extensive application, synthetic dyes can cause considerable nonaesthetic pollution and are serious health-risk factors [2]. Dyes are commonly classified from their chromophore group. The majority of these compounds consumed at industrial scale are azo (–N=N–) derivatives that represent more than 50% of the all dyes used in textile industries, although antraquinone, indigoide, triphenylmethyl, xanthene, sulphur and phtalocyanine derivatives are frequently utilized [3]. Since dyes usually present high stability under sunlight and resistance to microbia…

microfluidic reactors reverse electrodialysis cells microbial fuel cells
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Application of computational fluid dynamics technique in electrodialysis/reverse electrodialysis processes

2022

This Chapter treats the application of CFD technique in ED/RED processes. CFD simulations are able to predict flow and mass transfer in channels filled with spacers or membrane profiles, by providing dimensionless correlations useful for process models. At a larger scale, manifolds of the stack and inlet/ outlet zones of the channel can be simulated. Numerical models can include the computation of the electrical potential, thus characterizing the process performance. Direct numerical simulations can elucidate the complex phenomenology of overlimiting transport and of chaotic electrokinetic flows.

modellingSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciReverse electrodialysiselectroconvectionReverse electrodialysimass transportelectrokinetic instabilityElectrodialysisElectrodialysiCFDElectrodialysis; Reverse electrodialysis; CFD; modelling; mass transport; electroconvection; electrokinetic instabilitySettore ING-IND/19 - Impianti Nucleari
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ELECTROCHEMICAL TREATMENT OF WASTEWATERS DRIVEN BY REVERSE ELECTRODIALYSIS PROCESSES

2014

Wastewater treatment technology is undergoing a transformation due to more restrictive regulations governing the dischar ge and disposal of hazardous pollutants. Electrochemical based technologies are very promising methods for treating wastewaters containing organic and inorganic pollutants resistant to biological processes or toxic for microorganisms. These methods present numerous advantages including the utilisation of a green reagent such as the electron, very high removal of numerous recalcitrant pollutants, efficient disinfection, high flexibility and no necessity to transport or stock chemical oxidants or reducents. O n the other hand, a wide utilisation of such methods is likely to…

reverse electrodialysis AO7
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NH4HCO3–water solutions regeneration in RED closed loop applications

2017

Reverse Electrodialysis (RED) in closed loop arrangement (Reverse Electrodialysis Heat Engine - REDHE) is a promising technology to convert low-grade waste heat into electricity. RED is a membrane process exploiting the salinity gradient between a concentrated and a diluted solution to generate electrical current. Due to the transfer phenomena occurring in the RED unit, the two exiting solutions are partially mixed. Thermal regeneration processes can be used to restore the initial conditions of the two solutions, thus closing the loop. In this regard, ammonium hydrogen carbonate (NH4HCO3) salt solutions are suitable for such applications, being able to decompose at temperatures above 40-45 …

waste heatSalinity Gradient PowerAmmonium bicarbonate RED SGP.Keywords: Reverse Electrodialysis Heat Engine
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