Introduction to Membrane Technologies
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Membrane Technologies sentence examples within Emerging Membrane Technologies
Forward osmosis (FO) and membrane distillation as two emerging membrane technologies are promising for produced water treatment.
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As emerging membrane technologies, forward osmosis (FO) and membrane distillation (MD), which work with novel driving forces, show great potential for liquid food concentration, owing to their low fouling propensity and great driving force.
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Membrane Technologies sentence examples within Driven Membrane Technologies
This study comprehensively reviews US applications in pressure-, thermally- and osmotic-driven membrane technologies and their impact on process performance.
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This paper attempts to comprehensively review the principle behind the different pressure-driven membrane technologies and their use in the removal of heavy metals from wastewater.
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Membrane Technologies sentence examples within Innovative Membrane Technologies
Proper implementation of innovative membrane technologies in wastewater treatment is considered a solution towards tackling water insecurity and sustainability.
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Overall, it was possible to integrate two innovative membrane technologies for the valorisation and concentration of nutrients from ammonia wastewater streams.
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Membrane Technologies sentence examples within Advanced Membrane Technologies
With the advent of new and improved instrument design, detector methodology, source characteristics and data analysis protocols, these neutron scattering techniques are emerging as a primary tool for research to design, evaluate and implement advanced membrane technologies for fuel cell and separation devices.
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The tunable antifouling propensity along with enhanced thermal stability and electrical conductivity suggest the promising potential of the developed PES-ATO nanocomposite membrane to be employed in advanced membrane technologies using external stimuli such as electric field, or thermal gradient for the purification of industrial produced water.
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Membrane Technologies sentence examples within Conventional Membrane Technologies
Membrane Technologies sentence examples within New Membrane Technologies
Our simulations focus on complex flows that might be of interest given the current trends in developing new membrane technologies.
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Promotion of renewable energies to substitute carbon-based energy has boosted the development of new membrane technologies based on Salinity Gradient Power (SGP) by Reverse Electrodialysis (RED).
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Membrane Technologies sentence examples within Sustain Membrane Technologies
Membrane Technologies sentence examples within Common Membrane Technologies
Significant research has been focused on the development of such membranes to improve the performance and some critical properties of the most common membrane technologies implemented in water treatment plants, especially to improve both the yield and the life span of the prepared membranes.
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Here we investigated the suitability of ceramic hollow-fiber membranes for the concentration of spent sulfite liquor as an alternative to common membrane technologies.
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Membrane Technologies sentence examples within membrane technologies offer
Membrane technologies offer efficient and reliable solutions to separate components from aqueous media.
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Membrane technologies offer advantages like high selectivity, low energy consumption, moderate cost-to-performance ratio, and compact and modular design to have highest quality water.
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A comparative study of the application of membrane, electromembrane and electrobaromembrane technologies for various industries in the field of wastewater treatment and technological solutions is presented.
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The best and safest barrier against the ingress of cyanotoxins into drinking water can be membrane technologies that allow ultrafiltration of bacterial cells without mechanical damage and nanofiltration of cyanotoxins dissolved in water.
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Characteristic features of safe methods for diazomethane generation are considered, including the use of membrane technologies and continuous-flow and in situ preparation methods, which have prospects for industrial application.
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Several emerging technologies, such as membrane technologies, biofermentation, oxidation processes, among others, are currently attracting interest in different areas of biotechnological and chemical engineering [.
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Key findings are: (i) concentration of regulated DBPs surpassed the permissible limit in most of the regions, (ii) high chlorine dose, high NOM, more reaction time (up to 3 h) and high temperature (up to 30 °C) enhance the formation of THMs and HAAs, (iii) high pH favors the formation of THMs while low pH is suitable of the formation of HAAs, (iv) high NOM, low temperature, low chlorine dose and moderate pH favors the formation of unstable DBPs (N-DBPs, HKs and HAs), (v) DBPs are toxic not only for humans but for aquatic fauna as well, (vi) membrane technologies, enhanced coagulation and AOPs remove NOM, (vii) adsorption, air stripping and other physical and chemical methods are post-formation approaches (viii) step-wise chlorination is assumed to be an efficient method to reduce DBPs formation without any treatment.
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Economic membrane technologies are a perennial hot topic in the field of natural gas purification and O2 enrichment.
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Conversely, photocatalysis and membrane technologies face some degree of setbacks, which limit their worldwide application in wastewater settings for the treatment of emerging contaminants.
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Membrane technologies are more advantageous than conventional technologies such as efficiency, space requirements, energy, quality of permeate, and technical skills requirements.
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Effective removal of these species can be challenging for conventional membrane technologies, necessitating chemical dosing of the feedwater to adjust pH.
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The main disadvantage of membrane technologies is membrane fouling, which decreases the membrane permeate flux and separation efficiency.
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This review provides a comprehensive view of the treatment of textile wastewater and its reuse after proper treatment by membrane technologies at both pilot- and full-scale applications.
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Electrified membranes (EMs) have the potential to address inherent limitations of conventional membrane technologies.
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The study further describes the preparation methods, mechanisms, commercial applications, and economical feasibility of metal oxide- and carbon nanomaterial-based membrane technologies.
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In recent decades, membrane technologies have attracted a lot of interest in operations for highly selective separations.
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Variant procedures have been suggested, such as membrane technologies, biological separations, electrochemical techniques, chemical sedimentation, and adsorption for elimination of heavy metal ions.
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In the dairy industry, in recent years, baromembrane technologies (microfiltration, ultrafiltration, nanofiltration, reverse osmosis) have become increasingly widespread, which make it possible to obtain milk raw materials that are safe from a microbiological point of view and to standardize the protein mass fraction, concentration and fractionation of milk constituents.
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In membrane technologies, permselectivity is defined as the preferential transport of specific ionic species through membranes that bear fixed charges in the polymer matrix based on Donnan effect and Donnan exclusion.
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Since the advances in membrane technologies to separate N,N-dimethylformamide solutions have been rarely reviewed before, hence this review mainly discusses the research progress about various membranes in separating N,N-dimethylformamide aqueous solutions.
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One of the main limiting factors in the development of electromembrane technologies is a low rate of mass transfer.
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The detrimental effects caused by MPs and NPs are discussed critically along with the efficient and cost-effective treatment processes including membrane technologies in order to remove plastics particles from various sources to mitigate their environmental pollution and risk assessment.
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These two areas are essentially focused on membrane technologies, which play a crucial role in solving key tasks for these areas.
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Adsorption and membrane technologies are widely used to separate CO2 from other light gases due to their multiple technological benefits, including but not limited to factors such as energy efficiency and low environmental footprint.
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This study comprehensively reviews US applications in pressure-, thermally- and osmotic-driven membrane technologies and their impact on process performance.
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The objective of this review is to provide a dedicated outlook on the most recent advances in RO and NF membrane technologies for PFASs removal.
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These issues can be optimally addressed by Membrane technologies.
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The tests were conducted for adsorbents and membranes in a high-pressure rig incorporating both pressure swing adsorption (PSA) and membrane technologies.
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This approach can be adapted into the design and zoptimization for the concentration process of other herbal extracts by membrane technologies, allowing comprehensive understanding into the energy analysis in future study.
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Recent progress has shown significant advantages of membrane technologies.
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Membrane technologies and physicochemical treatments coupling with biological oxidation have also been described.
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Membrane technologies make it possible to create closed technological cycles with the reuse of recovered components in production, which allows solving many environmental problems.
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This paper attempts to comprehensively review the principle behind the different pressure-driven membrane technologies and their use in the removal of heavy metals from wastewater.
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These four separation methods are centrifugation, coagulation/flocculation, flotation and membrane technologies.
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Polymeric membrane technologies demand the synthesis of new polymers to enhance their equilibrium, thermal, and transport properties.
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Among various hydrogen purification methods, adsorption in porous materials and membrane technologies are seen as two of the most promising candidates for the current industrial hydrogen purification methods, with metal organic frameworks (MOF) being particularly popular in research over the last decade.
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Donnan membrane processes (DMPs) are driven by a potential gradient across an ion exchange membrane and have an advantage over fouling in conventional pressure driven membrane technologies, which are gaining attention.
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Both extracts were obtained from olive oil wastes and by-products using a sustainable process based on membrane technologies.
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The characteristics of different types of membrane technologies in rainwater treatment were summarized, the water quality after treatment and the feasibility in practical applications was analyzed.
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Membrane technologies and electrochemical processes constitute the main elements of many advanced hybrid systems for the treatment of oily wastewater, especially in the oil and gas industry.
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Cellulose also offers key functionalities that can be valued in filtration applications using approaches such as nanofiltration, membrane technologies, and composite structures, either through the use of nanocellulose or the design of functional composite filters.
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Membrane technologies are widely demanded in a number of modern industries.
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Although membrane technologies have a high potential for MPs removal, the interaction of MPs with membranes and their fouling effects have not been critically reviewed.
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With the advent of new and improved instrument design, detector methodology, source characteristics and data analysis protocols, these neutron scattering techniques are emerging as a primary tool for research to design, evaluate and implement advanced membrane technologies for fuel cell and separation devices.
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To reduce the risk of exposure of human life to PFASs and their dispersion in the environment, various techniques, primarily based on membrane technologies, have been rapidly developed.
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Electro-membrane technologies are versatile processes that could contribute towards more sustainable seawater reverse osmosis (SWRO) desalination in both freshwater production and brine management, facilitating the recovery of materials and energy and driving the introduction of the circular economy paradigm in the desalination industry.
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Nowadays, membrane technologies are being selected as the first alternative for the treatment and valorisation of such acidic waste streams.
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There are many new technologies available for reducing salinity such as desalination, membrane technologies, reverse osmosis, etc.
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Forward osmosis (FO) and membrane distillation as two emerging membrane technologies are promising for produced water treatment.
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This review describes advances in membrane technologies that may facilitate versatile and effective isolation of bioactive compounds.
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The ability of bottlebrush block copolymers (BBCPs) to self-assemble into ordered large periodic structures could greatly expand the scope of photonic and membrane technologies.
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This quantitative approach has applicability to a range of polymeric materials such as fiber, film, and membrane technologies.
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Given that the adsorption process offers several benefits in comparison to membrane technologies including low capital and operating costs, ease of operation in addition to the potential application of a wide range of solid media for the removal of hazardous substances, the adsorption process is the feasible option.
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Thereby we have focused on one of the most interesting and efficient methods: membrane technologies.
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The increase in production of milk whey and the large-scale introduction of membrane technologies for fractionation of its various components has led to a significant interest in the use of whey proteins.
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