ADSORPSI ZAT WARNA KRISTAL VIOLET DAN KONGO MERAH PADA ABU LAYANG BATUBARA TERAKTIVASI ASAM KLORIDA

(1)

55 DAFTAR PUSTAKA

Acemioglu, B., 2004, Adsorption of Congo Red from Aqueous Solution onto Calcium-Rich Fly Ash, J. Colloid Interface Sci., 274, 371-379.

Adamson, A.W. dan Gast, A.P., 1997, Physical Chemistry of Surface, 6

^th

Edition, John Willey and Sons, Inc., New York.

Aghayan, H., Mahjoub, A.R. dan Khanchi, A.R., 2012, Immobilization of Tin (IV) Molybdophosphate onto Mesoporous Silica SBA-15 and Its Application on Strontium Removal from Aqueous Solution, Appl.

Surf. Sci., 261, 14-20.

Ahmad, M.A., Ahmad, P.N.A. dan Bello, O.S., 2014, Kinetic, Equilibrium and Thermodynamic Studies of Synthetic Dye Removal using Pomegranate Peel Activated Carbon Prepared by Microwave-Induced KOH Activation, Water Resour. Ind., 6, 18-35.

Al-Zboon, K., Al-Harahsheh, M.S. dan Hani, F.B., 2011, Fly Ash-Based Geopolymer for Pb Removal from Aqueous Solution, J. Hazard.

Mater., 188, 414-421.

Anggarini, U., Kosada, C. dan Sukmana, N.C., 2017, Penerapan Metode Taguchi pada Perancangan Eksperimen Beton Geopolimer Berbasis Abu Layang, Chemica, 1(4), 9-14.

Anonim, 2014, Peraturan Menteri Lingkungan Hidup Republik Indonesia Nomor 5 tahun 2014 tentang Baku Mutu Air Limbah.

Ashadi, Haryono dan Pranoto, 2015, Aktivasi, Karakterisasi dan Aplikasi Bagasse Fly Ash sebagai Adsorben Zat Warna Tekstil, SNPS, 561-572.

Ayawei, N., Ekubo, A.T., Wankasi, D. dan Dikio, E.D., 2015, Adsorption of Congo Red by Ni/Al-CO

₃

: Equilibrium, Thermodynamic and Kinetic Studies, OJC, 31(30), 1307-1318.

Ayed, L., Chaieb, K., Cheref A. dan Bakhrouf, A., 2009, Biodegradation of Triphenylmethane Dye Malachite Green by Spingomonas paucimobilis, World J. Microbiol. Biotechnol., 25, 705.

Bello, O.S., Olusegun, O.A. dan Njoku, V.O., 2013, Fly Ash: An Alternative to Powdered Activated Carbon for the Removal of Eosin Dye from Aqueous Solutions, Bull. Chem. Soc. Ethiop., 27(2), 191-204.

Bertolini, T.C.R., Izidoro, J.C., Magdalena, C.P. dan Fungaro, D.A., 2013,

Adsorption of Crystal Violet Dye from Aqueous Solution Onto

Zeolites from Coal Fly and Bottom Ashes, Electron. J. Chem., 5(3),

179-191.

(2)

Bojinova, D. dan Teodosieva, R., 2016, Leaching of Valuable Elements from Thermal Power Plant Bottom Ash Using a Thermo-hydro Metallurgical Process, Waste Manage. Res., 34(5), 511-517.

Budhyantoro, A., 2005, Konversi Abu layang Batubara Sebagai Material Pengemban Logam Nikel dan Uji Ketahanan Struktur Padatan Terhadap Panas, J. Ilmu. Dasar., 6(1), 24-32.

Chen, S., Zhang, J., Zhang, C., Yue, Q., Li, Y. dan Li, Y., 2010, Equilibrium and Kinetic Studies of Methyl Orange and Methyl Violet Adsorpstion on Activated Carbon Derived from Phragmites australis, Desalination, 252, 149-156.

Crini, G., 2006, Non-conventional Low-cost Adsorbents for Dye Removal, A review. Bioresour. Technol., 97, 1061-1085.

Crini, G. dan Badot, P.M., 2008, Application of Chitosan A Natural Aminopolysaccharide, for Dye Removal from Aqueous Solutions by Adsorption Processes using Batch Studies: A Review of Recent Literature, Prog. Polym. Sci., 33, 399-447.

Dada, A.O., Olalekan, A.P., Olatunya, A.M. dan Dada, O., 2012, Langmuir, Freundlich, Temkin and Dubinin-Radushkevich, Isotherms Studies of Equilibrium Sorption of Zn

²⁺

Unto Phosporic Acid Modified Rice Husk, IOSR-JAC, 3(1), 38-45.

Dizge, N., Aydiner, C., Demirbas, E., Kobya, M. dan Kara, S., Adsorption of Reactive Dyes from Aqueous Solutions by Fly Ash: Kinetic and Equilibrium Studies, J. Hazard. Mater., 150, 737-746.

Ferreira, B.C.S., Teodoro, F.S., Mageste, A.B., Gil, L.F., Freitas, P. dan Gurgel, L.V.A., 2015, Application of A New Carboxylate-Functionalized Sugarcane Bagasse for Adsorptive Removal of Crystal Violet from Aqueous Solution: Kinetic, Equilibrium and Thermodynamic Studies, Ind. Crop. Prod., 65, 521-534.

Hamdaoui, O. dan Chiha, M., 2007, Removal of Methylene Blue from Aqueous Solution by Wheat Bran, Acta Chim. Slov., 54, 407-418.

Hendricks, N.R., 2005, The Application of High Capacity Ion Exchange Adsorbent Material, Synthesized from Fly Ash and Acid Mine Drainage, for the Removal of Heavy and Trace Metals from Secondary Co-Disposed Process Waters, Thesis, Magister Scientific in the Department of Chemistry University of Western cape, Cape Town.

Hossain, M.A. dan Al-Hassan, M.T., 2013, Kinetic and Thermodynamic Studies

of the Adsorption of Crystal Violet onto Used Black Tea Leaves,

Orbital: Electron. J. Chem., 5(3), 148-156.

(3)

Irawan, C., Atikah dan Rumhayati, 2014, Adsorption of Iron (II) by Fly Ash Adsorbent from Coal, J. Pure App. Chem. Res., 3(3), 88-98.

Irawan, C., Dahlan, B. dan Retno, N., 2015, Pengaruh Massa Adsorben, Lama Kontak Dan Aktivasi Adsorben Menggunakan HCl Terhadap Efektivitas Penurunan Logam Berat (Fe) Dengan Menggunakan Abu Layang Sebagai Adsorben, J. T. T., 2(3), 107.

Irawati, H., 2016, Adsorpsi Zat Warna Kristal Violet Menggunakan Limbah Kulit Singkong (Manihot esculenta), Tesis, FMIPA UGM, Yogyakarta.

Ituen, E., Akaranta, O. dan James, A., 2017, Evaluation and Performance of Corrosion Inhibitors Using Adsorption Isotherm Models: An Overview, CSIJ, 18(1), 1-34.

Jumaeri, Kusumastuti, E., Santosa, S.J. dan Sutarno, 2017, Adsorption of Crystal Violet Dye Using Zeolite A Synthesized From Coal Fly Ash, IOP Conf. Ser.: Mater. Sci. Eng., 172.

Kajjumba, G.W., Emik, S., Ongen, A., Ozcan, H.K. dan Aydin, S., 2018, Modelling of Adsorption Kinetic Processes – Errors, Theory and Application. Dalam Edebali, S., Advanced Sorption Process Applications, IntechOpen, Rijeka.

Khan, T.A., Ali, I., Singh, V.V. dan Sharma, S., 2009, Utilization of Fly Ash as Low-Cost Adsorbent for the Removal of Methylene Blue, Malachite Green and Rhodamine B Dyes from Textile Wastewater, JEPS, 3, 11- 22.

Khataee, A. R., Pons, M. N. dan Zahraa, O., 2009, Photocatalytic Degradation of Three Azo Dyes Using Immobilized TiO

₂

Nanoparticles on Glass Plates Activated by UV Light Irradiation: Influence of Dye Molecular Structure, J. Hazard. Mater., 168, 451-457.

Klaewkla, R., Arend, M. dan Hoelderich, W.F., 2011, Mass Transfer-Advanced Aspect, In Tech, ISBN 978-953-307-636-2, Germany.

Lecomte, I., Henrist, C., Lilegeois, M., Maseri, F., Rulmont, A. dan Cloots, R., 2006, Micro-Structural Comparison Between Geopolymer, Alkali- Activated Slag Cement and Portland Cement, J. Eur. Ceram. Soc., 26, 3789-3797.

Lee, J.W., Choi, S.P., Thiruvenkatachari, R., Shim, W.G. dan Moon, H., 2006, Evaluation of the Performance of Adsorption and Coagulation Processes for the Maximum Removal of Reactive Dyes, Dye.

Pigment., 69, 196-203.

Li, R., Song, X., Huang, Y., Fang, Y., Jia, M. dan Wanhong, M., 2016, Visible-

light Photocatalytic Degradation of Azo Dyes in Water by Ag

3

PO

4

:

(4)

An Unusual Dependency between Adsorption and the Degradation Rate on pH value, J. Mol. Catal. A Chem., 421, 57-65.

Li, X., Wang, K. dan Peng, Y., 2018, Exploring the Interaction of Silver Nanoparticles with Pepsin and Its Adsorption Isotherm and Kinetics, Chem. Biol. Interact., 286, 52-59

Liu, Q.Q. dan Pan, C.Y., 2012, A Novel Route to Treat Wastewater Containing Cationic Dyes, Sep. Sci. Technol., 47, 630.

Ljubas, D., Smoljanic, G. dan Juretic, H., 2015, Degradation of Methyl Orange and Congo Red Dyes by Using TiO

2

Nanoparticles Activated by The Solar and The Solar-like Radiation, J. of Environ. Manag., 161, 83-91.

Majko, R., 2004, The Fly Ash Resource Center Geocities, USA.

Malkoc, E. dan Nuhoglu, Y., 2005, Investigations of Nickel(II) Removal from Aqueous Solution Using Tea Factory Waste, J. Hazard. Mater., 127(1-3), 120-128.

Mall, I.D., Srivastava, V.C., Agarwal, N.K. dan Mishra, I.M., 2005, Removal of Congo Red from Aqueous Solution by Bagasse Fly Ash and Activated Carbon: Kinetic Study and Equilibrium Isotherm Analyses, Chemosphere, 492-501.

Mani, S. dan Bharagava, R.N., 2016, Exposure to Crystal Violet, Its Toxic, Genotoxic and Carcinogenic Effects on Environment and Its Degradation and Detoxification for Environmental Safety, Rev.

Environ. Contam. Toxicol., 237, 71-104.

McCabe, W., Smith, J. dan Harriot, P., 2005, Unit Operation of Chemical Engineering, 7

^th

Ed., Mc Graw-Hill Inc, New York.

Melghit, K., Al-shukeili, O.S. dan Al-amri, I., 2009, Effect of M-doping (M=Fe,V) on the Photocatalytic Activity of Nanorod Rutile TiO

2

for Congo Red Degradation Under the Sunlight, Ceram. Int., 35, 433-439.

Mohan, D., Singh, K.O., Singh, G. dan Kumar, K., 2002, Removal of Dyes From Waste Water using Fly Ash, A Low Cost Adsorbent, Ind. Eng. Chem.

Rcs., 41, 3688-3695.

Mufrodi, Z., Widiastuti, N. dan Kardika, R.C., 2008, Adsorpsi Zat Warna Tekstil dengan Menggunakan Abu Terbang (Fly Ash) untuk Variasi Massa Adsorben dan Suhu Operasi, ISBN : 978-979-3980-15-7, 90-93.

Mufrodi, Z., Sutrisno., B. dan Hidayat, A., 2010, Modifikasi Limbah Abu Layang sebagai Material Baru Adsorben, ISSN 1693- 4393, 1-6.

Oladipo, A.A. dan Gazi, M., 2014, Enhanched Removal of Crystal Violet by Low

Cost Alginate/Acid Activated Bentonite Composite Beads:

(5)

Optimization and Modelling Using Non-Linear Regression Technique, J. Wat. Proc. Eng., 2, 43-52.

O’Neil, M.J., 2001, The Merck Index : An Encyclopedia of Chemicals, Drugs, and Biological, 13

^th

ed, Merck, Whitehouse Station, N.J.

Paska, O., Lanos, S., Pacurariu, C. dan Bradeanu, A., 2014, Magnetic Nanopowder as Effective Adsorbent for The Removal of Congo Red from Aqueous Solution, Water Sci. Technol., 69, 1234-1240.

Polo, M.S. dan Utrilla, J.R., 2003, Effect of the Ozone-Carbon Reaction on the Catalytic Activity of Activated Carbon During the Degradation of 1,3,6-Naphthalenetrisulphonic Acid with Ozone, Carbon, 41, 303- 307.

Puri, C. dan Sumana, G., 2018, Highly Effective Adsorption of Crystal Violet Dye from Contaminated Water Using Graphene Oxide Intercalated Montmorillonite Nanocomposite, Appl. Clay Sci., 166, 102-112.

Sakanishi, K., Akashi, E., Nakazato, T., Tao, H., Kawashima, H., Saito, I. dan Takarada, T., 2013, Characterization of Eluted Metal Component from Coal during Pretreatment and Solvent Extraction, J. Fuel, 83, 739- 743.

Salahshoor, Z. dan Shahbazi, A., 2014, Review of the Use of Mesoporous Silicas for Removing Dye from Textile Wastewater, EJES, 4(2), 116-130.

Sari, R.P., Erdawati dan Santoso, I., 2013, Adsorpsi Zat Warna Congo Red menggunakan Kitosan-MMT dengan Metode Fixed-Bed Column, JRSKT, 2(3), 326-333.

Sari, D.K., Setyaningsih, E.P., Fansuri, H. dan Susanto, T.E., 2018, Kajian Karakteristik Kimia dan Fisika Abu Layang yang Menjadi Penentu Kekuatan Mekanik Perekat Geopolimer Berbahan Dasar Abu Layang, Akta Kimindo, 3(2), 222-235.

Sarma, G.K., Gupta, S.S. dan Bhattacharyya, K.G., 2016, Adsorption of Crystal Violet on Raw and Acid-Treated Montmorillonite, K10, in Aqueous Suspension, J.Environ. Manag., 171, 1-10.

Shenvi, S.S., Isloor, A.M., Ismail, A.F., Shilton, S.J. dan Al-Ahmed, A., 2015, Humic Acid Based Biopolymeric Membrane for Effective Removal of Methylene Blue and Rhodamine B, Ind. Eng. Chem. Res., 54(18), 4965-4975.

Sembodo, B.S.T., 2005, Isoterm Kesetimbangan Adsorpsi Timbal Abu Sekam

Padi, Ekuilibrium, 4(2), 101.

(6)

Shouman, M.A., Khedr, S.A. dan Attia, A.A., 2012, Basic Dye Adsorption on Low Cost Kinetic and Equilibrium Studies, J. Appl. Chem., 2(4), 27- 36.

Sulistyawati, S., 2008, Modifikasi Tongkol Jagung Sebagai Adsorben Logam Berat Pb(II), Skripsi, Jurusan Kimia FMIPA IPB, Bogor.

Suna, X., Zhang, Y., Wu, X. dan Liu, 2010, Adsorption of Anionic Dyes from Aqueous Solution on Fly Ash, J. Hazard. Mater., 181, 335-342.

Tanasale, M., Killay, A. dan Laratmase, M., 2012, Kitosan dari Limbah Kulit Kepiting Rajungan (Potunus sanginolentus L.) sebagai Adsorben Zat Warna Biru Metilena, J. Nat. Ind., 14(2), 165-171.

Tekin, N., Safakli, A. dan Bingol, D., 2015, Process Modeling and Thermodynamics and Kinetics Evaluation of Basic Yellow 28 Adsorption onto Sepiolite, Desalination Water Treat, 54, 2023-2035.

Trivana, L., Sugiarti, S. dan Rohaeti, E., 2015, Sintesis dan Karakterisasi Natrium Silikat (Na2SiO3) dari Sekam Padi, JTSL, 2(7), 66-75.

Wang, S., Ma, Q. dan Zhu, Z.H., 2008, Characteristics of Coal Fly Ash and Adsorption Application, J. Fuel, 87, 3469-3473.

Yao, Y., He, B., Xu, F. dan Chen, X., 2011, Equilibrium and Kinetics of Methyl Oranye Adsorption on Multiwalled Carbon Nanotubes, J. Chem. Eng., 170, 82-89.

Zhuannian, L., Anning, Z., Guirong, W. dan Xaioguong, Z., 2009, Adsorption Behaviour of Methyl Orange Ultrafine Coal Powder, Chin. J. Chem.

Eng., 17(6), 942-948.