A new treasure in industrial solid waste—coal fly ash for effective oil/water separation

[1]  Haojie Song,et al.  Enhancement of wastewater treatment by underwater superelastic fiber-penetrated lamellar monolith. , 2021, Journal of hazardous materials.

[2]  Junjie Yan,et al.  Process development of flue gas desulphurization wastewater treatment in coal-fired power plants towards zero liquid discharge: Energetic, economic and environmental analyses , 2020 .

[3]  Li He,et al.  Sustainability appraisal of desired contaminated groundwater remediation strategies: an information-entropy-based stochastic multi-criteria preference model , 2020, Environment, Development and Sustainability.

[4]  Shuyu Liu,et al.  Fabrication of water-repellent double-layered polydopamine/copper films on mesh with improved abrasion and corrosion resistance by solution-phase reduction for oily wastewater treatment , 2020 .

[5]  X. Shu,et al.  Effects of demineralization on the surface morphology, microcrystalline and thermal transformation characteristics of coal , 2020 .

[6]  Haojie Song,et al.  Fabrication of compressible and underwater superoleophobic carbon/g-C3N4 aerogel for wastewater purification , 2019, Materials Letters.

[7]  Yunfei Xia,et al.  Superhydrophobic and compressible carbon aerogels derived from platanus orientalis for oil absorption and emulsion separation , 2019, Journal of the Taiwan Institute of Chemical Engineers.

[8]  Cailong Zhou,et al.  A durable underwater superoleophobic and underoil superhydrophobic fabric for versatile oil/water separation , 2019, Chemical Engineering Journal.

[9]  Tao Zhang,et al.  Superwetting rape pollen layer for emulsion switchable separation with high flux , 2019, Chemical Engineering Science.

[10]  Jian Li,et al.  Waste cigarette filter as nanofibrous membranes for on-demand immiscible oil/water mixtures and emulsions separation. , 2019, Journal of colloid and interface science.

[11]  S. Nasir,et al.  Possible applications of coal fly ash in wastewater treatment. , 2019, Journal of environmental management.

[12]  Tao Zhang,et al.  Facile one-step fabrication of highly hydrophobic, renewable and mechanically flexible sponge with dynamic coating for efficient oil/water separation , 2019, Journal of the Taiwan Institute of Chemical Engineers.

[13]  S. Zubair,et al.  Facile fabrication of superhydrophobic, superoleophilic photocatalytic membrane for efficient oil-water separation and removal of hazardous organic pollutants , 2019, Journal of Cleaner Production.

[14]  Weilin Xu,et al.  Fabrication of durable antibacterial and superhydrophobic textiles via in situ synthesis of silver nanoparticle on tannic acid-coated viscose textiles , 2018, Cellulose.

[15]  Yongsheng Yan,et al.  Construction of caterpillar-like cobalt-nickel hydroxide/carbon cloth hierarchical architecture with reversible wettability towards on-demand oil-water separation , 2018, Applied Surface Science.

[16]  Zheng‐Hong Luo,et al.  Polymeric materials with switchable superwettability for controllable oil/water separation: A comprehensive review , 2018, Progress in Polymer Science.

[17]  Changyu Shen,et al.  Superhydrophobic/Superoleophilic Polycarbonate/Carbon Nanotubes Porous Monolith for Selective Oil Adsorption from Water , 2018, ACS Sustainable Chemistry & Engineering.

[18]  Shijie Yuan,et al.  Facile and sustainable shear mixing/carbonization approach for upcycling of carton into superhydrophobic coating for efficient oil-water separation , 2018, Journal of Cleaner Production.

[19]  A. Kapidžić,et al.  Efficient multistep arsenate removal onto magnetite modified fly ash. , 2018, Journal of environmental management.

[20]  Shutao Wang,et al.  Hydrophilic/Oleophilic Magnetic Janus Particles for the Rapid and Efficient Oil–Water Separation , 2018, Advanced Functional Materials.

[21]  W. Qi,et al.  Underwater superoleophobic/underoil superhydrophobic corn cob coated meshes for on-demand oil/water separation , 2018 .

[22]  Qiong Wang,et al.  Gravity-directed separation of both immiscible and emulsified oil/water mixtures utilizing coconut shell layer. , 2018, Journal of colloid and interface science.

[23]  Jian Li,et al.  Underoil superhydrophilic desert sand layer for efficient gravity-directed water-in-oil emulsions separation with high flux , 2018 .

[24]  Q. Zheng,et al.  3D Multiscale Superhydrophilic Sponges with Delicately Designed Pore Size for Ultrafast Oil/Water Separation , 2017 .

[25]  Xiang‐qian Shen,et al.  Removal of organic solvents/oils using carbon aerogels derived from waste durian shell , 2017 .

[26]  Na Liu,et al.  Superwetting Porous Materials for Wastewater Treatment: from Immiscible Oil/Water Mixture to Emulsion Separation , 2017 .

[27]  Feng Shi,et al.  Chemical and Equipment-Free Strategy To Fabricate Water/Oil Separating Materials for Emergent Oil Spill Accidents. , 2017, Langmuir : the ACS journal of surfaces and colloids.

[28]  TorOve Leiknes,et al.  PDMS/PVDF hybrid electrospun membrane with superhydrophobic property and drop impact dynamics for dyeing wastewater treatment using membrane distillation , 2017 .

[29]  S. Rohani,et al.  A low-cost adsorbent from coal fly ash for mercury removal from industrial wastewater , 2017 .

[30]  Hongji Li,et al.  Fouling Resistant CA/PVA/TiO2 Imprinted Membranes for Selective Recognition and Separation Salicylic Acid from Waste Water , 2017, Front. Chem..

[31]  Zhaoling Li,et al.  Superhydrophilic and underwater superoleophobic nanofibrous membrane with hierarchical structured skin for effective oil-in-water emulsion separation , 2017 .

[32]  Jintao Wang,et al.  Durably superhydrophobic textile based on fly ash coating for oil/water separation and selective oil removal from water , 2016 .

[33]  H. Arellano‐Garcia,et al.  Electric Field Driven Separation of Oil–Water Mixtures: Model Development and Experimental Verification , 2016 .

[34]  X. Hou,et al.  Oil‐Water Separation: A Gift from the Desert , 2016 .

[35]  Chuyang Y. Tang,et al.  A low-cost mullite-titania composite ceramic hollow fiber microfiltration membrane for highly efficient separation of oil-in-water emulsion. , 2016, Water research.

[36]  D. Jassby,et al.  Coupling Underwater Superoleophobic Membranes with Magnetic Pickering Emulsions for Fouling-Free Separation of Crude Oil/Water Mixtures: An Experimental and Theoretical Study. , 2015, ACS nano.

[37]  Arul Arulrajah,et al.  Compressive strength development in fly ash geopolymer masonry units manufactured from water treatment sludge , 2015 .

[38]  A. Licciulli,et al.  Microwave synthesis of thermal insulating foams from coal derived bottom ash , 2015 .

[39]  P. Sarker,et al.  A comprehensive review on the applications of coal fly ash , 2015 .

[40]  Lei Jiang,et al.  An Intelligent Superwetting PVDF Membrane Showing Switchable Transport Performance for Oil/Water Separation , 2014, Advanced materials.

[41]  Anish Tuteja,et al.  On‐Demand Separation of Oil‐Water Mixtures , 2012, Advanced materials.

[42]  F. Cheng,et al.  Application of Modified Coal Fly Ash as an Absorbent for Ammonia-Nitrogen Wastewater Treatment , 2012 .

[43]  M. Ahmaruzzaman,et al.  Role of Fly Ash in the Removal of Organic Pollutants from Wastewater , 2009 .

[44]  M. Izquierdo,et al.  Preparation and characterization of carbon-enriched coal fly ash. , 2008, Journal of environmental management.