Enhanced lead adsorption by unbleached newspaper pulp modified with citric acid

•Pulp adsorption capacity increased by 35% and 82% using 0.5M and 1M citric acid.•CA-modified pulp effectively removed Pb2+ from solutions of high concentrations.•Unbleached newspaper is a potential adsorbent for Pb uptake at low concentrations.•Two stages were involved in the rapid adsorption proce...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2013-05, Vol.223, p.18-30
Main Authors: Pitsari, S., Tsoufakis, E., Loizidou, M.
Format: Article
Language:English
Subjects:
adsorbents
Adsorption
Charge
chemical engineering
Chemical modification
Citric acid
ion exchange
ions
lead
Lead (metal)
Lead removal
Mathematical models
Newspaper pulp
pulp
sorption isotherms
Surface chemistry
waste treatment
wastewater
zeta potential
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Summary:•Pulp adsorption capacity increased by 35% and 82% using 0.5M and 1M citric acid.•CA-modified pulp effectively removed Pb2+ from solutions of high concentrations.•Unbleached newspaper is a potential adsorbent for Pb uptake at low concentrations.•Two stages were involved in the rapid adsorption process of Pb2+ onto pulps.•At pH 6 the adsorption capacity and total negative charge of pulps reached maximum. A thermochemical method was performed to enhance lead adsorption of unbleached newspaper pulp. Unbleached pulp was obtained after mechanical treatment of waste newspaper and was chemically modified with citric acid (CA) at 90°C for 90min. The parameters under investigation were the pH of adsorption solution (3–9), the concentration of mechanically and chemically treated pulps (0.1–1g), the concentration of CA (0.5M and 1M), the initial concentration of lead (20–1000mg/l) and the pulp-lead solution contact time (0–24h). The maximum adsorption capacity of mechanically treated newspaper pulp (MT-pulp) increased by 35% (25.71mg/g) after modification with 0.5M CA and 82% (34.6mg/g) with 1M CA. The modification process resulted in higher negative values of zeta potential and surface charge of mechanically treated pulp reaching the highest charge and maximum lead adsorption at pH=6. The adsorption experimental data fitted well to the Langmuir isotherm model and inferred that adsorption and ion-exchange are major mechanisms for binding Pb2+ ions. Kinetic studies for three different concentrations of Pb2+ showed that the adsorption process involved two stages and the experimental data followed the pseudo-second order model. The results showed that CA-modified newspaper pulp is an effective adsorbent for the removal of Pb2+ from wastewater.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2013.02.105