Search results for "Brine"

showing 10 items of 92 documents

The REAPower Project: Power Production From Saline Waters and Concentrated Brines

2019

Aim of this chapter is that of describing in detail the REAPower project from the very beginning up to the testing of the pilot plant built at the end of the project.

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciReverse electrodialysipower densitySettore ING-IND/19 - Impianti Nuclearibrine
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REAPOWER – USE OF DESALINATION BRINE FOR POWER PRODUCTION THROUGH REVERSE ELECTRODIALYSIS

2015

Salinity gradient power (SGP) represents a viable renewable energy source associated with the mixing of two solutions of different salinities. Reverse electrodialysis (SGP-RE or RED) is a promising technology to exploit this energy source and directly generate electricity. However, although the principle of this technology is well known since several years, further R&D efforts are still necessary in order to explore the real potential of the SGP-RE process. With this regard, the aim of the REAPower project ( [GRAPHICS] ) is the development of an innovative system for power production by SGP-RE process, using sea (or brackish) water as a diluted solution and brine as a concentrate. The use o…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/25 - Impianti ChimiciOcean Engineering02 engineering and technology7. Clean energyDesalinationSalinity Gradient Power Reverse Electrodialysimodelling020401 chemical engineeringReversed electrodialysision-exchange membraneOsmotic power0204 chemical engineeringWater Science and TechnologyseawaterBrackish waterbusiness.industryChemistryEnvironmental engineeringSalinity Gradient Power Reverse Electrodialysis; RED; ion-exchange membrane; modelling; seawater; brine.021001 nanoscience & nanotechnologyREDPollutionbrine.6. Clean waterRenewable energybrineBrineElectricity0210 nano-technologybusinessEnergy source
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Reverse Electrodialysis Process: Analysis of Optimal Conditions for Process Scale-up

2014

Reverse Electrodialysis (SGP-RE or RED) process has been widely accepted as a viable and promising technology to produce electric energy from salinity difference (i.e salinity gradient power - e.g. using river water/seawater, or seawater and concentrated brines). Recent R&D efforts demonstrated how an appropriate design of the SGP-RE unit and a suitable selection of process conditions may crucially enhance the process performance. With this regard, a process simulator was developed and validated with experimental data collected on a lab-scale unit, providing a new modelling tool for process optimisation. In this work, performed within the REAPower project (www.reapower.eu), the process simu…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/25 - Impianti Chimicisea waterprocess simulatorSalinity Gradient Power; RED; sea water; brine; process simulator; model.REDmodel.Salinity Gradient Powerbrine
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Techno-economic analysis of a novel hybrid system for the valorisation of SWRO brines in a minor Sicilian island

2021

In small remote islands, freshwater scarcity is an issue to which several viable solutions have already been found employing constantly evolving desalination technologies. The several RO plants in the Canary and minor Sicilian Islands are just an example . However, the beneficial application of seawater desalination is accompanied by a problematic matter: the production of high salinity brines. Not only do they compromise the aquatic ecosystem but their treatment in order to respect environmental regulations is costly too. Worth noting how these so-called “wastewater streams” present a high concentration of valuable raw materials, such as magnesium and calcium or sodium chloride, that are e…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciValorisation brine circular economy magnesium brine water
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Development of a pilot plant for the recovery of magnesium hydroxide from waste brines

Waste brines from various industrial processes, mainly from saltworks, are an important source of minerals, such as magnesium, table salt and potable water.

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciWaste brine magnesium hydroxide pilot plant magnesium recovery salt water saltworks
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Diffusion dialysis for the treatment of H2SO4-CuSO4 solutions from electroplating plants: Ions membrane transport characterization and modelling

2021

Diffusion dialysis (DD) is proposed to separate and recover mineral acids and transition metals from electroplating industry process waters promoting a circular approach of resources recovery. In this work, a DD module with two anionic membranes (Fumasep FAD and Neosepta AFN) are used for the separation of H2SO4 from Cu2+ containing solutions. The membrane performances with sole H2SO4 solutions (0.2–2 M) and sole CuSO4 solutions (0.8–1.1 M Cu2+) and with mixtures of H2SO4 (0.6 M) and CuSO4 (0.2–1.1 M Cu2+) as feed are studied. H2SO4 recovery efficiency decreases as the concentration of acid increases. For H2SO4 solutions, the water drag flux from the retentate to the diffusate prevails agai…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciWork (thermodynamics)Brine valorizationCircular economyEconomia circularDiffusionAigües residuals -- DepuracióAnalytical chemistryCopper electroplatingSulphuric acid recoveryFiltration and Separation02 engineering and technologyGalvanoplàstiaCopper electroplating Sulphuric acid recovery Brine valorization Circular economy Industrial wastewater treatment Diffusion dialysisAnalytical ChemistryIndustrial wastewater treatment:Enginyeria química [Àrees temàtiques de la UPC]020401 chemical engineering0204 chemical engineeringElectroplatingChemistryIndustrial wastewater treatmentMembrane transport021001 nanoscience & nanotechnologyElectroplatingMembraneSewage -- PurificationDiffusion dialysis0210 nano-technologyDialysis (biochemistry)Flux (metabolism)
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A Novel Ionic Exchange Membrane Crystallizer to Recover Magnesium Hydroxide from Seawater and Industrial Brines

2020

A novel technology, the ion exchange membrane crystallizer (CrIEM), that combines reactive and membrane crystallization, was investigated in order to recover high purity magnesium hydroxide from multi-component artificial and natural solutions. In particular, in a CrIEM reactor, the presence of an anion exchange membrane (AEM), which separates two-compartment containing a saline solution and an alkaline solution, allows the passage of hydroxyl ions from the alkaline to the saline solution compartment, where crystallization of magnesium hydroxide occurs, yet avoiding a direct mixing between the solutions feeding the reactor. This enables the use of low-cost reactants (e.g., Ca(OH)2) without …

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicibrine valorisationInorganic chemistryIonic bondingchemistry.chemical_elementFiltration and Separation02 engineering and technologylcsh:Chemical technologyArticlelaw.inventionmembrane crystallizer020401 chemical engineeringlawChemical Engineering (miscellaneous)lcsh:TP1-1185critical raw materiallcsh:Chemical engineering0204 chemical engineeringCrystallizationwastewaterIon exchangeChemistryMagnesiumProcess Chemistry and Technologylcsh:TP155-156bitternContamination021001 nanoscience & nanotechnology6. Clean waterMembraneBrineSeawater0210 nano-technologyMembranes
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Reactive crystallisation process for magnesium recovery from concentrated brines

2014

Seawater brines, generated either by natural or anthropic processes, often cause significant environmental issues related to their disposal. A clear example is the case of brines from desalination plants, which can have severe environmental impacts on the receiving water body. On the other side, brines can represent a rich and appealing source of raw materials, especially when they are very concentrated, as it happens with bitterns (i.e. exhausted brines) produced in saltworks. In particular, magnesium concentration can reach values up to 30-40 kg/m3 of brine, which is 20-30 times that of typical seawater. An experimental campaign has been carried out in the present work for assessing the p…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicireactive crystallisationMagnesiumSettore ING-IND/25 - Impianti ChimiciEnvironmental engineeringchemistry.chemical_elementMineralogyOcean EngineeringsaltworkRaw materialBrine disposalBrine disposal; Magnesium; minerals recovery; saltworks; reactive crystallisationPollutionDesalinationminerals recoveryBrinechemistryScientific methodEnvironmental scienceWater treatmentSeawaterMagnesiumPrecipitationWater Science and Technology
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Electrodialysis Applications in Wastewater Treatment for Environmental Protection and Resources Recovery: A Systematic Review on Progress and Perspec…

2020

This paper presents a comprehensive review of studies on electrodialysis (ED) applications in wastewater treatment, outlining the current status and the future prospect. ED is a membrane process of separation under the action of an electric field, where ions are selectively transported across ion-exchange membranes. ED of both conventional or unconventional fashion has been tested to treat several waste or spent aqueous solutions, including effluents from various industrial processes, municipal wastewater or salt water treatment plants, and animal farms. Properties such as selectivity, high separation efficiency, and chemical-free treatment make ED methods adequate for desalination and othe…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicireverse electrodialysisbrine valorisationBipolar membrane electrodialysis Brine valorisation Electro-membrane process Electrodeionisation Electrodialysis metathesis Electrodialysis reversal Monovalent selective membranes Reverse electrodialysis Selectrodialysis Water reuseFiltration and Separation02 engineering and technologyReview010501 environmental scienceswater reuselcsh:Chemical technologyelectrodialysis metathesis01 natural sciences7. Clean energyDesalination12. Responsible consumptionselectrodialysiselectrodeionisationReversed electrodialysiselectrodialysis reversalChemical Engineering (miscellaneous)lcsh:TP1-1185lcsh:Chemical engineeringEffluentelectro-membrane process0105 earth and related environmental sciencesbipolar membrane electrodialysisElectrodialysis reversalWaste managementProcess Chemistry and Technologymonovalent selective membraneslcsh:TP155-156Electrodialysis021001 nanoscience & nanotechnology6. Clean waterWastewater13. Climate actionEnvironmental scienceSewage treatmentValorisation0210 nano-technologyMembranes
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Energetic Valorisation of Saltworks Bitterns via Reverse Electrodialysis: A Laboratory Experimental Campaign

2023

Concentrated bitterns discharged from saltworks have extremely high salinity, often up to 300 g/L, thus their direct disposal not only has a harmful effect on the environment, but also generates a depletion of a potential resource of renewable energy. Here, reverse electrodialysis (RED), an emerging electrochemical membrane process, is proposed to capture and convert the salinity gradient power (SGP) intrinsically conveyed by these bitterns also aiming at the reduction of concentrated salty water disposal. A laboratory-scale RED unit has been adopted to study the SGP potential of such brines, testing ion exchange membranes from different suppliers and under different operating conditions. M…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicisalty waterProcess Chemistry and TechnologyChemical Engineering (miscellaneous)Filtration and Separationbrine RED salinity gradient power salty waterREDsalinity gradient powerbrine
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