Obtaining high crystalline ball milled H-Y zeolite particles with carbon nanostructures as a damping material

Zhuman, Botagoz; Saepurahman,; Anis, Shaheen Fatima; Hashaikeh, Raed

doi:10.1016/j.micromeso.2018.06.041

Cited by 27 publications

(14 citation statements)

References 18 publications

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“…As highlighted in Figure 5, the interdisciplinary nature of MF technology makes it worth considering the progress made in other fields for such catalytic materials when being considered for MF. Such aspects include using nanoscale particles [75], agglomeration problems [76][77][78][79], leaching issues [80] and fabrication of hybrid materials for dual functionalities [81][82][83][84]. In near future, it will be interesting to see how the progress in membrane development may evolve considering these aspects of membrane fabrication.…”

Section: Potential Research Areasmentioning

confidence: 99%

Microfiltration membrane processes: A review of research trends over the past decade

Anis

Hashaikeh

Hilal

2019

Journal of Water Process Engineering

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149

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Since its inception in the 19 th century, microfiltration (MF) has evolved as a membrane-based separation technology for treating various effluents and wastewaters. This review aims to familiarize its readers with general and specific research trends on various topics in MF. The level of research interest has been measured by the number of publications in that area for each year. An increasing research trend was observed from the number of publications since 2009 to 2018 with MF as the major topic. During the past decade, MF articles have spanned in about 150 different journals, with The Journal of Membrane Science, Desalination and Separation and Purification Technology being the major ones. Major topics of interest include membrane fabrication and modification, waste water treatment and fouling studies, while a significant research increase was seen in various fabrication methods and MF application in the food sector. MF modeling still remains a topic which needs further research output, and has experienced a decline over the past years. Several potential research areas are also identified in this review which will help future researchers to materialize their efforts into the right direction.

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Section: Potential Research Areasmentioning

confidence: 99%

Microfiltration membrane processes: A review of research trends over the past decade

Anis

Hashaikeh

Hilal

2019

Journal of Water Process Engineering

Self Cite

149

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“…The FO-UF energy consumption requirements are also expected to be similar to FO-RO hybrid and RO stand-alone processes [241]. Nevertheless, a further research is necessitated in this direction by inquiring potential hydrophilic nanoparticles such as aluminosilicates [242,243], silica [244], carbon-based [245], and various metallic nanoparticles [246,247]. 6 Hybrid desalination technologies: a solution for improved energy efficacy?…”

Section: Forward Osmosis (Fo)mentioning

confidence: 99%

Energy for desalination: A state-of-the-art review

et al. 2020

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The utilization of seawater for drinking purposes is limited by the high specific energy consumption (SEC) (kW-h/m 3 ) of present desalination technologies; both thermal and membranebased. This is in turn exasperated by high water production costs, adding up to the water scarcity around the globe. Most technologies are already working near their thermodynamic limit, whilst posing challenges in further SEC reductions. Understanding the current energy status and energy breakdowns of leading desalination technologies will further help in realizing limitations and boundaries imposed while working for improved system performances. This paper comprehensively reviews the energy requirements and potential research areas for reduced SEC of various thermal, membrane-based and emerging desalination technologies. For thermal desalination processes, which consume a large chunk of energy for heating, renewable energy sources can be a viable option for bringing down the energy requirements. Hence, this review also focuses on the potential of desalination-renewable energy integrations. The review extends beyond conventional energy reduction possibilities to utilizing novel, advanced membranes and innovative techniques for energy offsets. The future of desalination for optimized energy requirements is projected to include ultra-high permeability membranes, fouling resistant membranes, hybrid systems, and renewable-energy driven desalination.

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“…These acted as binding sites for the silica nanoparticles. Positively charged ligands, terminated with amine functional groups, were then used to tailor the surface of the nanoparticles rendering a highly hydrophilic PDVF membrane (Reproduced with permission from Liang et al [150] [255], for zeolites which are not possible to be produced directly for specific zeolite types and SiO2/Al2O3 ratios. Hence, highly crystalline nano-zeolites produced through ball milling can now be explored and studied in conjunction with wellestablished polymeric materials for UF, MF and NF membranes.…”

Section: Ceramic Membranesmentioning

confidence: 99%

Reverse osmosis pretreatment technologies and future trends: A comprehensive review

2019

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Recent progress in reverse osmosis (RO) technology is not limited to RO membrane materials, module designs and RO process optimization. It involves prior feed treatment which directly impacts RO system performance. The ongoing challenges of membrane fouling in RO membranes can be addressed by increasing the operational efficiency through the use of correct pretreatment options which can mitigate organic and inorganic fouling by selectively rejecting contaminants prior to reaching the RO unit. Highly polluted water resources have put critical stress on the existing conventional pretreatment techniques, whereby membrane pretreatment has emerged as a promising alternative. This paper provides an overview of the development and current trends in conventional and nonconventional RO pretreatment techniques whereby the techniques are critically reviewed to 2 inform readers of potential improvements in such areas. This paper addresses the major drawbacks of conventional pretreatment methods which have necessitated the use of membrane pretreatment techniques. Special attention is given to microfiltration, ultrafiltration and nanofiltration methods and their development in terms of advanced membrane materials based on ceramics and self-cleaning membranes. Studies from laboratory scale standalone systems, pilot scale and large scale integrated systems for performance, cost and ecological analysis have been reviewed to familiarize readers with the many factors which need to be analyzed for selection of the appropriate pretreatment method(s). The critical review in this paper will help researchers focus more on the areas which have room for further development for cost-effective and advanced RO pretreatment techniques.

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Obtaining high crystalline ball milled H-Y zeolite particles with carbon nanostructures as a damping material

Cited by 27 publications

References 18 publications

Microfiltration membrane processes: A review of research trends over the past decade

Microfiltration membrane processes: A review of research trends over the past decade

Energy for desalination: A state-of-the-art review

Reverse osmosis pretreatment technologies and future trends: A comprehensive review

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