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W3170634957 abstract "Effluent water from dyeing industries is a challenging issue. The purpose of this study was to investigate the adsorption properties of locally available Chinar tree (Platanus orientalis) lingo cellulosic materials as adsorbents for the removal of crystal violet dye from aqueous solution. The study shows that the Chinar leaf powder and Chinar leaf biochar can be used as a potential plant by-product adsorbent for the removal of crystal violet from aqueous solution. The adsorbents were characterized by Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), thermogravimetric analysis (TGA) and carbon hydrogen and nitrogen analyzer (CHNS). In batch optimization studies, the maximum removal efficiency for the adsorbents was obtained at the optimum levels of contact time (30 min), adsorbent dose (2.5 g L−1), initial dye concentration 20 mgL−1 and pH 6.52. The equilibrium adsorption data were found to follow both Langmuir and Freundlich models and maximum monolayer capacity of Chinar leaf powder and its biochar were found to be 25.88 and 30.01 mg.g−1. Also the Langmuir and Freundlich isotherm model constants RL(0.0425 and 0.00686 for Chinar leaf powder and Chinar leaf biochar, respectively) and n (1.3106 and 1.6103 for Chinar leaf powder and Chinar leaf biochar, respectively) suggesting favorable adsorption of crystal violet on the adsorbents. Kinetic analysis for both adsorbents revealed that adsorption experimental data was best fitted by pseudo-second-order model(R2 = 0.999). Gibb’s free energy is −2.14473 to −4.23219 for Chinar leaf powder and −7.18828 to −11.1027 for Chinar leaf biochar showing the process is spontaneous. The enthalpy changes of Chinar leaf powder and its biochar are negative (−20.6611) and positive (22.72549) indicating exothermic and endothermic processes, respectively. Uptake efficiency (>90%) recorded at an equilibrium time of 30 min shows that Chinar leaf powder and biochar were fast and effective adsorbents for the removal of crystal violet." @default.
W3170634957 created "2021-06-22" @default.
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W3170634957 date "2021-06-01" @default.
W3170634957 modified "2023-10-17" @default.
W3170634957 title "Adsorption of crystal violet dye using <i>Platanus orientalis</i> (Chinar tree) leaf powder and its biochar: equilibrium, kinetics and thermodynamics study" @default.
W3170634957 cites W1561760046 @default.
W3170634957 cites W1963612786 @default.
W3170634957 cites W1970626006 @default.
W3170634957 cites W1974217545 @default.
W3170634957 cites W1974220999 @default.
W3170634957 cites W1977014806 @default.
W3170634957 cites W1984175521 @default.
W3170634957 cites W1984953206 @default.
W3170634957 cites W1985395746 @default.
W3170634957 cites W1986113254 @default.
W3170634957 cites W1986410166 @default.
W3170634957 cites W1986573563 @default.
W3170634957 cites W1986648248 @default.
W3170634957 cites W1987929564 @default.
W3170634957 cites W1992438705 @default.
W3170634957 cites W1993612803 @default.
W3170634957 cites W1996788124 @default.
W3170634957 cites W1998502673 @default.
W3170634957 cites W1998839926 @default.
W3170634957 cites W1999540828 @default.
W3170634957 cites W2010283121 @default.
W3170634957 cites W2011483662 @default.
W3170634957 cites W2024345517 @default.
W3170634957 cites W2027620473 @default.
W3170634957 cites W2035137139 @default.
W3170634957 cites W2036606490 @default.
W3170634957 cites W2037074867 @default.
W3170634957 cites W2038188532 @default.
W3170634957 cites W2052148555 @default.
W3170634957 cites W2063031161 @default.
W3170634957 cites W2070056456 @default.
W3170634957 cites W2070949426 @default.
W3170634957 cites W2072545098 @default.
W3170634957 cites W2076713891 @default.
W3170634957 cites W2084444382 @default.
W3170634957 cites W2085962882 @default.
W3170634957 cites W2103947103 @default.
W3170634957 cites W2109882735 @default.
W3170634957 cites W2113132118 @default.
W3170634957 cites W2117936228 @default.
W3170634957 cites W2137495760 @default.
W3170634957 cites W2167299637 @default.
W3170634957 cites W2300474821 @default.
W3170634957 cites W2330543631 @default.
W3170634957 cites W2527510740 @default.
W3170634957 cites W2587685757 @default.
W3170634957 cites W2614460673 @default.
W3170634957 cites W2789871711 @default.
W3170634957 cites W2899790343 @default.
W3170634957 cites W2914356851 @default.
W3170634957 cites W2963227157 @default.
W3170634957 cites W3000019233 @default.
W3170634957 cites W3006373271 @default.
W3170634957 cites W3008016887 @default.
W3170634957 cites W3152531000 @default.
W3170634957 cites W330643516 @default.
W3170634957 cites W4231991428 @default.
W3170634957 cites W4232808830 @default.
W3170634957 cites W4251724664 @default.
W3170634957 doi "https://doi.org/10.1080/03067319.2021.1931854" @default.
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