Adsorption Kinetics of Edamame Soybean Peel Activated Carbon in Reducing the Level of Phosphate

Eri, Iva Rustanti; Pramudinta, Namira Kholifatul; Nurmayanti, Demes

doi:10.12911/22998993/144473

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Tytuł artykułu

Adsorption Kinetics of Edamame Soybean Peel Activated Carbon in Reducing the Level of Phosphate

Autorzy

Eri Iva Rustanti , Pramudinta Namira Kholifatul , Nurmayanti Demes

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DOI

10.12911/22998993/144473

Warianty tytułu

Języki publikacji

Abstrakty

Domestic wastewater, such as detergent wastewater, causes the increase of the phosphate level that strongly contributes to eutrophication. Adsorption is a method that can be used to reduce the levels of phosphate. The natural ingredients that can be made as activated carbon include edamame soybean peel, because it contains a lot of celluloses. This research aimed to analyze the adsorption kinetics and adsorption capacity of edamame soybean peel activated carbon in reducing the phosphate levels. Adsorption was carried out with batch method with various concentrations of adsorbate (2 mg/L, 4 mg/L, and 6 mg/L) and stirring time (3 hours, 6 hours, 9 hours, and 12 hours). The results showed that the highest adsorption capacity was found in 6 mg/L of adsorbate concentration and 6 hours of stirring time. The results were validated by the Langmuir isotherm and pseudo-second-order adsorption kinetics model. The Langmuir isotherm indicated that adsorption occurred in monolayer. The maximum adsorption capacity was 0.43509 mg/g and the constant of adsorption kinetics was 1.5558 g/mg•min. Activated carbon from edamame soybean peel successfully reduced the levels of phosphate. The increase of adsorption capacity was correlated with the increasing concentration of adsorbate and stirring time until the equilibrium.

Słowa kluczowe

adsorption kinetics activated carbon phosphate

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2022

Tom

Vol. 23, nr 2

Strony

97--107

Opis fizyczny

Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Eri Iva Rustanti

ivarust.eri@poltekkesdepkes-sby.ac.id

Environmental Health Department, Health Polytechnic Ministry of Health Surabaya, Pucang Jajar Tengah 56, 60282, Surabaya, Indonesia

https://orcid.org/0000-0003-3351-887X

autor

Pramudinta Namira Kholifatul

Environmental Health Department, Health Polytechnic Ministry of Health Surabaya, Pucang Jajar Tengah 56, 60282, Surabaya, Indonesia

autor

Nurmayanti Demes

Environmental Health Department, Health Polytechnic Ministry of Health Surabaya, Pucang Jajar Tengah 56, 60282, Surabaya, Indonesia

Bibliografia

1. Alghamdi A.A., et al. 2019. Efficient adsorption of lead (II) from aqueous phase solutions using polypyrrole-based activated carbon. Materials, 12(12).
2. Astya K.L., Ulinnuha S.B. 2020. The role of ampo as an adsorbent for reducing peroxide value in used cooking oil. International Seminar of Research Method, 2021, 22–29.
3. BSN. 1995. Thechnical Activated Carbon. Indonesia National Standard 06–3730–1995.
4. Bulut E., Ozacar M., Sengil A. 2008. Adsorption of malachite green onto bentonite: equilibrium and kinethics studies and process design. Microporous And Mesoporous Materials. Elsevier, 115, 234–256.
5. Cecen F., Aktas O. 2012. Activated carbon for water and wastewater treatment. Weinheim, Germany: Wiley-VCH Verlag & Co. KGaA.
6. Chen F.F., et al. 2020. Characteristic and model of phosphate adsorption by activated carbon electrodes in capacitive deionization. Separation and Purification Technology, (November), 1–12.
7. Chen T., et al. 2018. Preparation and characterization of nitrogen and oxygen heteroatom codoped activated biocarbons from edamame shell. BioResources, 13(2), 3932–3948.
8. Edet U.A., Ifelebuegu A.O. 2020. Kinetics, isotherms, and thermodynamic modeling of the adsorption of phosphates from model wastewater using recycled brick waste. Processes, 8(665).
9. He Y., et al. 2016. Simultaneous removal of ammonium and phosphate by alkaline-activated and lanthanum-impregnated zeolite. Chemosphere, 164, 387–395.
10. Isiuku O.B., Enyoh C.E. 2020. Pollution and health risks assessment of nitrate and phosphate concentrations in water bodies in South Eastern Nigeria. Environmental Advances, 2(August).
11. Isiuku, et al. 2021. Current research in green and sustainable chemistry phosphate ions removal from aqueous phase by batch adsorption on activated (activation before carbonization) biochar derived from Rubber pod Husk. Environmental Advances, 4(April), 100136.
12. Jain N., Dwivedi M.K., Waskle A. 2016. Adsorption of methylene blue dye from industrial effluents using coal fly ash. International Journal of Advanced Engineering Research and Science), 3(4), 9–16.
13. Karthikeyan P., Meenakshi S. 2019. Synthesis and characterization of Zn–Al LDHs/activated carbon composite and its adsorption properties for phosphate and nitrate ions in aqueous medium. Elsevier B.V., 296.
14. Lazzarini A., et al. 2016. Graphitization of activated carbons: A molecular-level investigation by INS, DRIFT, XRD and raman techniques. Physics Procedia, 85, 20–26.
15. Miyazato T., et al. 2020. Phosphate recovery from an aqueous solution through adsorption-desorption cycle over thermally treated activated carbon. Journal of Water Process Engineering, 36, 101302.
16. Panda H., et al. 2017. Studies on adsorption behawior of an industrial waste for removal of chromium from aqueous solution. South African Journal of Chemical Engineering, 23, 132–138.
17. Purnama M.S., Cheng C.K., Nuhfil Hanani A.R. 2018. The export performance of Indonesian edamame in Japan Market. Sch. J. Econ. Bus. Manag, 5(7), 575–589.
18. Umami N., et al. 2014. The effect of planting space and harvesting period on dry matter production of Edamame Soybean straw in Samigaluh. II(November), 1361–1364.
19. Wicaksono H.A., et al. 2020. The Effectiveness of Soybean Peel Bioadsorbent (Glycine max) for Reducing Iron (Fe) Levels in Water. Environmental Health Gema, 18(2).
20. Yuliani L.R., Purwanti E., Pantiwati Y. 2015. Effect of waste laundry detergent industry against mortality and physiology index of Nile Tilapia (Oreochromis Niloticus). XII National Seminar on Biology Education FKIP UNS 822–28.
21. Zhou J., et al. 2011. Novel hollow microspheres of hierarchical Zinc-Aluminum layered double hydroxides and their enhanced adsorption capacity for phosphate in water. Journal of Hazardous Materials, 192(3), 1114–1121.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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