Adsorption of Lead Ions from Aqueous Solutions onto Rice Husks, Continuous System

Hawal, Laith Hamdan; Al-Sulttani, Ali Omran; Kariem, Nagam Obaid

doi:10.12911/22998993/141936

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Tytuł artykułu

Adsorption of Lead Ions from Aqueous Solutions onto Rice Husks, Continuous System

Autorzy

Hawal Laith Hamdan , Al-Sulttani Ali Omran , Kariem Nagam Obaid

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DOI

10.12911/22998993/141936

Warianty tytułu

Języki publikacji

Abstrakty

The continuous system of lead adsorption on rice husks was investigated in this paper. A fixed bed study was performed in many tests to investigate the influence of pH, the adsorbent height, the initial concentration of lead, the flow rate and processing time on the lead adsorption process. The results demonstrated that the lead removal capacity decreased when the pH value of the solution and the flow rate increased. The lead removal capacity increased due to the decreased initial concentration of lead. The results showed that the removal capacity increases along with the processing time and the adsorbent height in column. The largest removal was (81%) at pH of 4, the adsorbent height (50 cm), the initial concentration of lead (10 mg/l), the processing time (90 min.) and the flow rate (10 ml/min.). As a result, rice husks can be used to remove the lead instead of expensive commercial adsorbents, due to its availability, inexpensive and perfect adsorption property.

Słowa kluczowe

adsorption lead rice husk removal capacity pH

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2021

Tom

Vol. 22, nr 10

Strony

269--274

Opis fizyczny

Bibliogr. 13 poz., rys., tab.

Twórcy

autor

Hawal Laith Hamdan

laith.h@uomustansiriyah.edu.iq

Environment Engineering Department, Mustansiriyah University, Baghdad, Iraq

https://orcid.org/0000-0003-0624-3321

autor

Al-Sulttani Ali Omran

Water Resources Engineering Department, College of Engineering, University of Baghdad, Baghdad, Iraq

https://orcid.org/0000-0001-8734-5287

autor

Kariem Nagam Obaid

Environment Engineering Department, Mustansiriyah University, Baghdad, Iraq

https://orcid.org/0000-0001-6934-669X

Bibliografia

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2. Dos Santos V.C., Tarley C.R., Caetano J., Dragunski D.C. 2010. Assessment of chemically modified sugarcane bagasse for lead adsorption from aqueous medium. Water Sci. Technol., 62, 457–465.
3. Hawal L.H, Laith S.A.A., Maryam S.K. 2021a. Cadmium ions adsorption from aqueous solutions by Bentonite clay, fixed bed column. Journal of Physics: Conference Series. 1895 (2021), 012040. https://doi.org/10.1088/1742-6596/1895/1/012040
4. Hawal L.H., Lubna A., Serror A.A. 2021b. Application of Batch and continuous systems for removal of chromium from simulated waste water by palm date fibers as biological byproduct. Journal of Green Engineering, 11(2).
5. Hawal L.H., Lubna A., Serror A.A. 2021c. Electrokinetic remediation of nickel from contaminated soil using bio remedies banana peels and surfactant-enhanced. Journal of Ecological Engineering, 22(5), 214–220.
6. Kermani M., Pourmoghaddas H., Bina B., Khazaei Z. 2009. Removal of Copper from aqueous solutions by rice husk ash and activated carbon. Pakistan Journal of Biological Science, 9(10), 1905–1910.
7. Kouakou U., Ello A.S., Yapo J.A., Trokourey A. 2013. Adsorption of iron and zinc on commercial activated carbon. Laboratoire de Chimie Physique, Université Félix Houphouët Boigny. Journal of Environmental Chemistry and Ecotoxicology.
8. Kundu S. & Gupta A.K. 2005. Analysis and modeling of fixed bed column operations on As(V) removal by adsorption onto iron oxide-coated cement (IOCC). Journal of Colloid and Interface Science, 290(1), 52–60.
9. Muataz A.A. 2011. Removal of Zinc from water using modified and non-modified carbon nano fibers. Chemical Engineering Department Center of Research Excellence in Nanotechnology, King Fahd University of Petroleum & Minerals, KSA, 2nd International Conference on Environmental Science and Technology IPCBEE, IACSIT Press, Singapore, 6.
10. Nakbanpote W., Goodman B.A., Thiravetyan P. 2007. Copper adsorption on rice husk derived materials studied by EPR and FTIR. Colloids and surfaces. A Physicochemical and Engineering Aspects, 304, 7–13.
11. Patterson J.W. 1985. Industrial Wastewater Processing Technology. Butterworths, Stoneham, Mass, USA, 2nd edition.
12. Tarasevich Y.I. & Klimova G.M. 2001. Complex-forming adsorbents based on kaolinite, aluminium oxide and polyphosphates for the extraction and concentration of heavy metals ions from water solutions. Applied Clay Science, 19(1–6), 95–101.
13. Yadav D., Kapur M., Kumar P., Mondal M.K. 2013. Adsorptive removal of phosphate from aqueous solution using rice husk and fruit juice residue. Process Safety and Environmental Protection, 94, 402–409. https://doi.org/10.1016/j.psep.2014.09.005

Typ dokumentu

Bibliografia

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