Modification of Coal Fly Ash Waste into Manganese-Oxide-Coated-Zeolite (MOCZ) to Adsorb Heavy Metal Ions Ni2+

Sulistyo Saputro, Lina Mahardiani, Endang Susilowati, Nanik Dwi Nurhayati, Wirawan Ciptonugroho, Ananda Dea Windiasty, Alita Selvi Prihantoro

Abstract


High consumption of coal as a source of electrical energy in Indonesia has resulted in piles of waste from coal burning, namely fly ash, which can damage the environment and harm health. Fly ash contains main oxides, namely silica (SiO2) and alumina (Al2O3), whose components are similar to zeolite, so they can be synthesized into zeolite-like material (ZLM) which can be used as an adsorbent for heavy metal Ni2+. Therefore, this research discussed the characterization of manganese-oxide-coated-zeolite (MOCZ) from fly ash waste as a heavy metal adsorbent. The research procedure consisted of preparation, purification, and activation stage of fly ash to obtain fly ash that is free from impurities, the stage of making sodium silicate and sodium aluminate, and zeolite synthesis. The resulting zeolite was then coated with manganese oxide to expand the surface area of the zeolite and increase the ability of zeolite to adsorb heavy metal Ni2+. The research results showed that fly ash waste that was coated with manganese oxide can adsorb heavy metal Ni2+. The adsorption of the Ni2+ metal ion solution by zeolite with MOCZ modification is in line with the pseudo-second-order kinetic and Langmuir isotherm.



Keywords


MOCZ; fly ash; heavy metal Ni2+

References


Wibowo D, Basri B, Adami A, et al. Analisis Logam Nikel (Ni) dalam Air Laut dan Persebarannya di Perairan Teluk Kendari, Sulawesi Tenggara. Indo J Chem Res. 2020;8(2):144-150. doi:10.30598//ijcr.2020.8-dwi

Parmar M, Singh Thakur L. Heavy metal Cu, Ni and Zn: Toxicity, health hazards and their removal techniques by low cost adsorbents: A Short overview. Int J Plant, Anim Environmetal Sci. 2013;3(3):143-157.

Mufrodi Z, Sutrisno B, Hidayat A. Modifikasi Limbah Abu Layang sebagai Material Baru Adsorben. In: Prosiding Seminar Nasional Teknik Kimia “Kejuangan” . ; 2010:1-5.

Hong M, Yu L, Wang Y, et al. Heavy Metal Adsorption with Zeolites: The Role of Hierarchical Pore Architecture. Vol 359. Elsevier B.V.; 2019. doi:10.1016/j.cej.2018.11.087

Ramadani K, Kimia J, Sains dan Teknologi F, Alauddin Makassar U, Tinggi Agama Islam Negeri Watampone S. Sintesis Zeolit Dari Abu Layang (Fly Ash) Dan Uji Adsorptivitas Terhadap Logam Timbal (Pb) Al-Kimia|. Vol 5.; 2017.

Sobah S, Anoi YH, Diana, Octavianus P. Kesetimbangan Adsorpsi Isotermis Logam Cr (VI) pada Fly Ash. Al Ulum J Sains dan Teknol. 2021;6(2):39-43.

Weitkamp J. Zeolites and Catalysis. Solid State Ionics. 2014;2(3):175-188. doi:10.1177/2324709614545225

Nouh ESA, Amin M, Gouda M, Abd-Elmagid A. Extraction of uranium(VI) from sulfate leach liquor after iron removal using manganese oxide coated zeolite. J Environ Chem Eng. 2015;3(1):523-528. doi:10.1016/j.jece.2015.01.013

Irannajad M, Haghighi HK. Removal of Co2+, Ni2+, and Pb2+ by manganese oxide-coated zeolite: Equilibrium, thermodynamics, and kinetics studies. Clays Clay Miner. 2017;65(1):52-62. doi:10.1346/CCMN.2016.064049

Taffarel SR, Rubio J. Removal of Mn2+ From Aqueous Solution by Manganese Oxide Coated Zeolite. Miner Eng. 2010;23(14):1131-1138. doi:10.1016/j.mineng.2010.07.007

Khashij M, Mousavi SA, Mehralian M, Massoudinejad MR. Removal of Fe2+ From Aqueous Solution Using Manganese Oxide Coated Zeolite and Iron Oxide Coated Zeolite. Int J Eng Trans B Appl. 2016;29(11):1587-1594. doi:10.5829/idosi.ije.2016.29.11b.13

Hasan A, Yerizam M, Habib Yahya M, et al. Mekanisme Adsorben Zeolit dan Manganese Zeolit terhadap Logam Besi (Fe). J Kinet. 2021;12(01):9-17. https://jurnal.polsri.ac.id/index.php/kimia/index

Sunarti, Nazudin. Sintesis Zeolit A dari Abu Dasar Batubara (Coal Bottom Ash) dengan Metode Peleburan dan Hidrotermal. Molluca J Chem Educ. 2021;11(1):8-16. doi:10.30598/mjocevol11iss1pp8-16

Nurdiansah H, Susanti D. Pengaruh Variasi Temperatur Karbonisasi dan Karbon Aktif Tempurung Kelapa dan Kapasitansi Electric Double Layer Capacitor. J Tek Pomits. 2013;2(1):13-18.

Gumelar D, Hendrawan Y. Pengaruh Aktivator dan Waktu Kontak Terhadap Kinerja Arang Aktif Berbahan Eceng Gondok (Eichornia crossipes) Pada Penurunan COD Limbah Cair Laundry. J Keteknikan Pertan Trop dan Biosist. 2015;3(1):15-23.

Sutrisno B, Hidayat A, Mufrodi Z. Modifikasi Limbah Abu Layang menjadi Adsorben untuk Mengurangi Limbah Zat Warna pada Industri Tekstil. Chem J Tek Kim. 2016;1(2):57. doi:10.26555/chemica.v1i2.3571

Pata A, Sitorus S, Gunawan R. Pemanfaatan abu batubara sebagai zeolit yang terdealuminasi dalam mengadsorpsi fenol. J Kim Mulawarman. 2014;12(November):19-24.

Deviani SS, Mahatmanti FW, Widiarti N. Indonesian Journal of Chemical Science Sintesis dan Karakterisasi Zeolit dari Abu Sekam Padi Menggunakan Metode Hidrotermal. Indones J Chem Sci. 2018;7(1).

Jumaeri, Astuti W, W.T.P. Lestari. Preparasi dan Karakterissi Zeolite dari Abu Layang Batubara Secara Alkali Hidrotermal. Reaktor. 2007;11(1):38-44.

Ojha K, Pradhan NC, Samanta AN. Zeolite from Fly Ash: Synthesis and Characterization. Bull Mater Sci. 2004;27(6):555-564. doi:10.1007/BF02707285

Andarini N, Lutfia Z, Haryati T. Sintesis Zeolit A dari Abu Terbang (Fly Ash) Batubara Variasi Rasio Molar Si/Al Synthesis of Zeolite A From Coal Fly Ash with Variation of Si/Al Molar Ratio. J Ilmu Dasar. 2018;19(2):105-110.

Imoisili PE, Jen TC. Synthesis and Characterization of Amorphous Nano Silica From South African Coal Fly Ash. In: Materials Today: Proceedings. Elsevier Ltd; 2023:1-6. doi:10.1016/j.matpr.2023.06.077

Ghofur A, Atikah, Soemarno, Hadi A. Karateristik Fly Ash Batubara Sebagai Bahan Katalik Konverter dalam Mereduksi Gas Buang HC dan CO Kendaraan Bermotor. In: Universitas Brawijaya Malang. ; 2014:33-37.

Kanjana N, Maiaugree W, Laokul P, et al. Fly Ash Boosted Electrocatalytic Properties of PEDOT: PSS Counter Electrodes for The Triiodide Reduction in Dye-sensitized Solar Cells. Sci Rep. 2023;13(1):1-15. doi:10.1038/s41598-023-33020-6

Triviana L, Sugiarti S, Rohaeti E. Sintesis Dan Karakterisasi Natrium Silikat (Na2SiO3) dari Sekam Padi. J Sains dan Teknol Lingkung. 2015;7(2):90-97.

Mokgehle TMA, Gitari WM, Tavengwa NT. Synthesis and characterization of zeolites produced by ultrasonication of coal fly Ash/NaOH slurry filtrates. South African J Chem. 2020;73:64-69. doi:10.17159/0379-4350/2020/V73A10

Ren X, Qu R, Liu S, et al. Synthesis of Zeolites From Coal Fly Ash for The Removal of Harmful Gaseous Pollutants: A Review. Aerosol Air Qual Res. 2020;20(5):1127-1144. doi:10.4209/aaqr.2019.12.0651

Chaudhry SA, Khan TA, Ali I. Adsorptive removal of Pb(II) and Zn(II) from water onto manganese oxide-coated sand: Isotherm, thermodynamic and kinetic studies. Egypt J Basic Appl Sci. 2016;3(3):287-300. doi:10.1016/j.ejbas.2016.06.002

Sari, Y. A., Saputro, S. H., & Prasetya, A. T. Penentuan Kadar Nikel Dalam Mineral Laterit Dengan Metode Kopresipitasi Menggunakan Cu-Pirolidin Ditiokarbamat. Indonesian Journal of Chemical Science, 2013;2(3).

Li Y, Zhang FS, Xiu FR. Arsenic (V) Removal from Aqueous System Using Adsorbent Developed From a High Iron-containing Fly Ash. Sci Total Environ. 2009;407(21):5780-5786. doi:10.1016/j.scitotenv.2009.07.017

Lv Z, Pan X, Geng X, Yu H. Synergistic Removal of Calcium and Iron Impurities from Calcium-rich and High-alumina Fly Ash by Acid Leaching Control. J Environ Chem Eng. 2022;10(2):107268. doi:10.1016/j.jece.2022.107268

Zhao Y, Wang F, Yang J, et al. Synthesis of Coal Fly Ash-based Heterogeneous Fenton Catalyst for Bisphenol a Removal: Performances and Proposed Mechanism. Vacuum. 2023;212(53):112054. doi:10.1016/j.vacuum.2023.112054

Sun Q, Zhao S, Zhao X, Song Y, Ban X, Zhang N. Influence of Different Grinding Degrees of Fly Ash on Properties and Reaction Degrees of Geopolymers. PLoS One. 2023;18(3):1-25. doi:10.1371/journal.pone.0282927

Zhuang XY, Chen L, Komarneni S, et al. Fly Ash-based Geopolymer: Clean Production, Properties and Applications Xiao. J Clean Prod. Published online 2016. doi:10.1016/j.jclepro.2016.03.019

Amma A, Mahatmanti FW, Widiarti N. Indonesian Journal of Chemical Science Esterifikasi Minyak Jelantah. J Chem Sci. 2018;7(3):264-266.

Raharjo Y, Fahmi MZ, Wafiroh S, Widati AA. Incorporation of Imprinted-Zeolite To Polyethersulfone/Cellulose Acetate Membrane for Creatinine Removal in Hemodialysis Treatment. J Teknol (Sciences Eng. 2019;81(3):137-144. doi:10.11113/jt.v81.13075

Chaudhry SA, Khan TA, Ali I. Adsorptive Removal of Pb(II) and Zn(II) from Water Onto Manganese Oxide-coated Sand: Isotherm, Thermodynamic and Kinetic Studies. Egypt J Basic Appl Sci. 2016;3(3):287-300. doi:10.1016/j.ejbas.2016.06.002

Nurmalita N, Madjid SN, Setiawan A, Idroes R, Jalil Z. Characteristics of Silica Powder Extracted from Fly Ash of Coal Fired Power Plant – Effect of Heat Treatment Process. J Ecol Eng. 2023;24(9):282-292. doi:10.12911/22998993/169289

Ryu G., Kim G., Khalid HR, Lee H. The Effects of Temperature on the Hydrothermal Synthesis of Hydroxyapatite-Zeolite Using Blast Furnace Slag. Materials (Basel). 2019;12(2131):1-12. doi:10.3390/ma12132131

Puspitarini R, Sn AK, Ar R. Effect of Particle Size , Activator Agent , Activation Time and Adsorption Time on the Ability of Fly Ash to Adsorb Cadmium (Cd) from Leachate in the Final Disposal Area (TPA) in Purworejo, Central Java. J Sains dan Terap Kim. 2019;13(2):109-118.

Aisyahlika SZ, Firdaus ML, Elvia R. Kapasitas Adsorpsi Arang Aktif Cangkang Bintaro (Cerbera odollam) Terhadap Zat Warna Sintesis Reactive RED-120 Dan Reactive BLUE-198. J Pendidik Dan Ilmu Kim. 2018;2(2):148-155.

Febrianti, R. F., Zaharah, T. A., & Adhitiyawarman. (2022). Sintesis Zeolit A Berbahan Daar Abu Terbang (Fly Ash) Limbah PT. Indonesia Chemical Alumina (ICA) Menggunakan Metode Alkali Hidrotermal. Indonesian Journal of Pure and Applied Chemistry, 5(1), 28–39. http://jurnal.untan.ac.id/index.php/IJoPAC%0ASINTESIS

Xu, P., Zeng, G., Huang, D., Lai, C., Zhao, M., & Wei, Z. Et Al. (2012). Adsorption Of Pb(Ii) By Iron Oxide Nanoparticles Immobilized Phanerochaete Chrysosporium: Equilibrium, Kinetic, Thermodynamic And Mechanisms Analysis. Chemical Engineering Journal, 203, 423-431. Https://Doi.Org/10.1016/J.Cej.2012.07.048


Full Text: PDF

DOI: 10.15408/jkv.v10i1.35794

Refbacks

  • There are currently no refbacks.


Copyright (c) 2024 Sulistyo Saputro

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.