Modeling of adsorption flux in nickel-contaminated synthetic simulated wastewater in the batch reactor

Singh Jyoti; Mishra Vishal

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Modeling of adsorption flux in nickel-contaminated synthetic simulated wastewater in the batch reactor

机译：Modeling of adsorption flux in nickel-contaminated synthetic simulated wastewater in the batch reactor

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In the present investigation, physico-chemical characterization of composite material revealed the presence of fluffy surface structure with crystalline look and negatively charged surface functional groups. The study of adsorption flux by using dimensionless numbers(2.62),N-k(62.68) and(1.17 x 10(-5)) proved that adsorption of nickel ions on the surface of composite material was mostly film diffusion-limited with maximum surface area coverage coupled with weakened surface tension. The results of intraparticle diffusivity and Boyd plot model showed that at the onset of process, film diffusion was the primary mechanism involved and at the later stage intraparticle diffusion played a critical role as rate governing step. The values of film (0.65 x 10(-8)cm(2)sec(-1)) and pore diffusivity (1.8 x 10(-12)cm(2)sec(-1)) coefficients showed that the adsorption process is dependent upon two different types of diffusion namely film and pore diffusion. Overall, transport and reshuffling mechanism had no substantial role in adsorption dynamics of nickel ions on the surface of composite material. Sorption isotherm and kinetics modeling showed higher values of regression coefficients for Langmuir isotherm (R-2= 0.99) and pseudo-second-order kinetic model (R-2= 0.99) compared to other models. This showed that sorption of nickel followed monolayer coverage with chemisorption at optimized process parameters like pH 6, biosorbent dose 0.1 g/L, temperature 50 degrees C, agitation rate180 rpm, adsorbate concentration100 mg/L and contact time 60 minutes. The positive value of enthalpy of adsorption (Delta H = + 10.41 kJ/mole) and entropy (Delta S = +58.19 J/mol K) showed that binding of nickel ions on the surface of the composite material was endothermic with improved randomness at solid-liquid interface. The negative value of (Delta G = -6.4 to -8.67 kJ/mol) showed spontaneous nature of nickel adsorption on composite material in the liquid phase.

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《Journal of environmental science and health, Part A. Toxic/hazardous substances & environmental engineering》 |2020年第10期|1059-1069|共11页
作者
Singh Jyoti; Mishra Vishal;
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作者单位

IIT BHU Varanasi, Sch Biochem Engn, Varanasi 221005, Uttar Pradesh, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
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关键词
Composite material; nickel; Langmuir; film and intraparticle diffusion; chemisorption; endothermic;

Modeling of adsorption flux in nickel-contaminated synthetic simulated wastewater in the batch reactor

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