Page 463 - Polymer-based Nanocomposites for Energy and Environmental Applications
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Nanocomposite membrane for environmental remediation 419
Ref. [112] [113] [114] [75] [115] Continued
dairy within role Pb 2+ using optimal no
expensive with quality of (AgTiO 2 ) vital a controlled, of is with and fast of filtration γ-PGA with WHO and sufficient recovery,
less best degradation play be can but the only problem of drop in flux and water binds filtered combination fast meets process with rate flux
and compared as technique method, water nanomaterials membrane fouling treated standards γ-PGA be can with and cross-linked technology water handling system capacity and required
Observations efficient More technique conventional recycle For permeates photocatalytic In wastes, nanofiber Membrane of level the recyclable Eco-friendly and ions effectively nanomembrane or linear biopolymer removal Pb 2+ infiltrate The standard in Simple purifying removal cleaning For ch
treatment l l l l l l l (80%), l
water (%) [97], and compounds NH 3 -N (92%), NO 3 -N (68%) PO 4 -P
waste Efficiency 80 75–95 COD paracetamol, nebivolol [100] 99.8 COD (88%), and
for reactive textile wastes (Pb) NH 3 - PO 4 -P
nanomebranes hazardous fiber cottage from dairy of COD, of and paracetamol, compounds industrial wastewater lead of Elimination aqueous from COD, of and NO 3 -N, hospital wastewater
of Waste Remazol dyes industry Removal Removal nebivolol from ions solution Removal N, from
types nanofiber
Various nanotechnology with Nanofiltration through forward combined poly- gamma-glutamic acid (γ-PGA) membrane
15.2 Nanofiltration Photocatalysis Nanomembrane eco-friendly Nanofiltration
Table Membrane membrane osmosis with bioreactor
