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Sustainable Processes for the Removing of Heavy Metals from Aqueous Solutions
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This article collection from the Special Issue "Sustainable Processes for the Removing of Heavy Metals from Aqueous Solutions" attempts to summarize the state-of-the-art of current macro-, micro- and nanotechnologies for water purification, discussing their field of application, especially for heavy-metal ion removal. For instance, it presents the recently available information on utilizing different biomass materials for heavy metals removal, highlighting the increasing use of these materials due to their low cost, regeneration ability, high adsorption efficiency, and small chemical or biological sludge with a possibility of metal recovery.
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Keywords
- acid mine drainage
- adsorption
- adsorption mechanisms
- agro-industrial waste
- antibacterial
- antifungal activity
- aquatic humic substances
- bio-adsorption
- bioavailability
- Biomass
- biomass-derived material
- chitosan membrane
- chromium recovery
- chromium(VI)
- coagulation/flocculation
- cobalt
- coffee husk
- contaminant immobilization
- contaminants
- continuous system
- Copper
- diafiltration
- diffuse layer thickness
- Dubinin–Radushkevich
- Effluent
- electric field
- Environmental chemistry
- Environmental science, engineering & technology
- Freundlich
- Heavy metals
- Langmuir
- lignin
- mesoporous silica SBA-15
- metal ion adsorption
- metal ions
- metallic ions
- multifunctional catalyst
- n/a
- nanomaterial
- nanomaterials
- nickel–aluminum complex hydroxide
- nickel–aluminum–zirconium complex hydroxide
- phosphate ion adsorption
- primary settling
- removal
- resource reuse
- salt ion drift
- selective adsorption
- selective desorption
- silver nanoparticles
- sludge
- sorption
- tannery effluent
- Technology, engineering, agriculture
- Technology: general issues
- titanosilicate ETS-10
- wastewater treatment
- Water
- water duct flow
- water hyacinth
- zinc-oxide nanoparticles
Links
DOI: 10.3390/books978-3-0365-6974-1Editions