Adsorption of Phenol Using Hydrochar Modified Layered Double Hydroxide – Kinetic, Isotherm, and Regeneration Studies

Adsorption of Phenol Using Hydrochar Modified Layered Double Hydroxide – Kinetic, Isotherm, and Regeneration Studies

In this work, hydrochar using to modified nickel aluminum layered double hydroxide (hydrochar@NiAl LDH). The collected data by XRD indicate that 2θ of material at 11.38°, 22.90°, 35.20°, and 61.60°. The FTIR spectrum of hydrochar@NiAl LDH at wavenumber 3448, 1650, 1500-1600, 1348, 1056, and 500-800...

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Bibliographic Details
Main Authors: Neza Rahayu Palapa, Nur Ahmad, Hasja Paluta Utami, Zaqiya Artha Zahara, Risfidian Mohadi, Aldes Lesbani
Format: Article
Language:English
Published: Polish Society of Ecological Engineering (PTIE) 2023-07-01
Series:Ecological Engineering & Environmental Technology
Subjects:
layered double hydroxide
adsorption study
materials composites
water treatment
Online Access:http://www.ecoeet.com/Adsorption-of-Phenol-Using-Hydrochar-Modified-Layered-Double-Hydroxide-Kinetic-Isotherm,166010,0,2.html
Description
Summary:In this work, hydrochar using to modified nickel aluminum layered double hydroxide (hydrochar@NiAl LDH). The collected data by XRD indicate that 2θ of material at 11.38°, 22.90°, 35.20°, and 61.60°. The FTIR spectrum of hydrochar@NiAl LDH at wavenumber 3448, 1650, 1500-1600, 1348, 1056, and 500-800 cm-1. NiAl LDH and hydrochar have surface areas of 3.288 m2/g and 7.366 m2/g, respectively. The precursors enhance the composite's surface area by 11.879 m2/g. NiAl LDH, hydrochar, and hydrochar@NiAl LDH have optimal pH values of 3, 6, and 6 respectively. The adsorption process is determined by the kinetic model of pseudo-second order and the model of Freundlich isotherm. NiAl LDH, hydrochar, and hydrochar@NiAl LDH had respective maximum adsorption capacities of 25.445, 21.008, and 25.773 mg/g. The increase in regeneration cycles decreases the percentage of adsorbed.
ISSN:2719-7050

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