PENGEMBANGAN MODEL KESETIMBANGAN ADSORPSI MULTI KOMPONEN Pb(II)âZn(II) MENGGUNAKAN ABU LAYANG BATUBARA TERMODIFIKASI -
DAFTAR PUSTAKA
Alberty, R. A. 1997. Physical Chemistry. John Willey and Sons Inc. New York.
Astuti, W dan F. Widhi Mahatmanti. 2010. Aktivasi Abu Layang Batubara dan
Aplikasinya
sebagai
Adsorben
Timbal
dalam
Pengolahan
Limbah
Elektroplating. Jurnal Sains dan Teknologi, Vol. 8(2): 112-118.
Astuti, W., Sulistyaningsih, T. dan Fardhyanti, D. S. 2015. Coal Fly Ash as A Dual
Site Material for Cr (VI) Adsorption: Comparation Between Single Site and
Dual Site Isotherm Models. Advanced Materials Research Vol 1101: 149-152.
Trans Tech Publication, Switzerland.
Budhyantoro, A. 2005. Konversi Abu Layang Batubara sebagai Material Pengemban
Logam Nikel dan Uji Ketahanan Struktur Padatan terhadap Panas. Jurnal
Ilmu Dasar Vol. 6(1): 24-32. Surabaya.
Chang, Raymond. 2003. Kimia Dasar: Konsep-konsep Inti, Jilid I, Edisi Ketiga .
Jakarta: Penerbit Erlangga.
Clark, R.B. 1986. Marine Pollution. Hlm. 215. Oxford: Clarendon Press.
Damaiyanti, Y. 1997. Kandungan Logam Berat dalam Sedimen di Perairan Estuaria
Kuala Tungkal, Dati I Provinsi Jambi. Laporan Praktek Lapangan. Program
Studi Ilmu Kelautan, FPIK IPB. Bogor.
Darmono. 1995. Logam dalam Biologi Makhluk Hidup. Universitas Indonesia Press.
Jakarta.
Dewi, N. K., Perdhana, F. F. dan Yuniastuti, A. 2012. Paparan Seng di Perairan
Kaligarang terhadap Ekspresi Zn-Thionein dan Konsentrasi Seng pada Hati
Ikan Mas. Jurnal MIPA 35(2): 108-115.
Do, D. 1998. Adsoption Analysis: Equilibrium and Kinetics. Series Chemical
Engineering Vol. 2. Queensland.
Duan, Shengxia, Tang, R., Xue, Z., Zhang, X., Zhao Y., Zhang, W., Zhang, J., Wang,
B., Zeng, S. dan D. Sun. 2015. Effective removal of Pb(II) using magnetic
Co0.6Fe2.4O4 micro-particles as the adsorbent: Synthesis and study on the
kinetic and thermodynamic behaviours for its adsorption . Colloids and
Surfaces A: Physicochemical and Engineering Aspects.
Eby, George A. 1994. Handbook for Curing the Common Cold: The Zinc Lozenge
Story. Texas, USA: Publications Division, George Eby Research.
Gad, H.M.H dan A.E.H.A.M. Daifullah. 2007. Impact of Surface Chemistry on the
Removal of Indigo Carmine Dye Using Apricot Stone Active Carbon.
Adsorption Science and Technology. 25(4): 327-341.
Garg, V.K., Kumar, R. dan Gupta, R. 2004. Removal of Malachite Green Dye from
Aqueous Solution by Adsorption using Agro Industry Waste: A Care Study of
Prosopis Cineraria . Dyes and Pigments. 62: 1-10.
Geng, X.D. dan Y.L. Shi. 1988. Exchanging Adsorption Model of Solute in LiquidSolid System. Sci. Tecnol. 30(5): 1687-1698.
Haryoto dan Wibowo, A. 2004. Kinetika Bioakumulasi Logam Berat Kadmium oleh
Fitoplankton Chlorella sp Lingkungan Perairan Laut. Jurnal Penelitian Sains
& Teknologi. 5(2): 89 – 103.
Heslop, R. dan D.L. Robinson. 1960. Inorganic Chemistry. Elsevier Publishing
Company.
Ho, Y.S. dan McKay, G. 2004. Batch Lead (II) Removal from Aqueous Solution by
Peat: Equilibrium and Kinetics. Trans IchemE. 77(B).
Hsu, T.C., Yu, C.C. dan Yeh, C.M. 2008. Adsorption of Cu2+ from Water using Raw
and Modified Coal Fly Ashes. Fuel 87: 1355–9.
Kementrian Lingkungan Hidup. 2004. Baku Mutu Air Laut Nomor Keputusan 51
Tahun 2004. Kementrian Lingkungan Hidup: Jakarta.
Kurniawati, Dania. 2010. Sintesis Zeolit dari Abu Layang Batubara secara
Hidrotermal melalui Proses Peleburan dan Aplikasinya untuk Penurunan
Logam Cr (Krom) dalam Limbah Industri Penyamakan Kulit. Tugas Akhir.
FMIPA, Universitas Negeri Semarang.
Landmann, A.A. 2003. Literature Review of Fly Ash in Aspects of Solid-State
Chemistry of Fly Ash and Ultramarine Pigments. University of Pretoria etd.
Laperche, Valerie dan Jerry M. Bigham. 2002. Quantitative, Chemical and
Mineralogical Characterization of Flue Gas Desulfurization By-Products.
JEQ. 31: 979-988.
Lowell, S. dan Shields, J.E. 1984. Powder Surface Area and Porosity. John Wiley &
Sons, Inc. New York, USA.
Mall, I.D., Srivastava, V.C. dan Agarwal, N.K. 2006. Removal of Orange-G and
Dyes by Adsorpption onto Bagase Fly AshKinetic Study and Equilibrium
Isotherm Analyses. Dyes and Pigments. 69: 210-223.
M., Arias., C., Perez-Novo., E., Lopez. dan B., Soto. 2005. Competitive Adsorption
and Desorption of Copper and Zinc in Acid Soils. Geodherma. 133: 155-159.
Musapatika, E.T., Onyango, M.S. dan Aoyi, O. 2010. Cobalt (II) Removal from
Synthetic Waste Water by Adsorption on South African Coal Fly Ash . S. Afr.
J. Sci. 106(9/10): 1-7.
Mustafa, G., Singh, B. dan Kookana, Rai S. 2004. Cadmium desorption from goethite
in the presence of desferrioxamine B and oxalic acid. 3rd Australian New
Zealand Soils Conference. University of Sydney, Australia.
Oktavianus dan IRS. Salami. 2005. Uptake dan Depurasi Logam Timbal (Pb) pada
Ikan Nila (Oreochromis niloticus). Jurnal Kimia Lingkungan, Vol. 6(2): 75-
81.
Owamah, H.I. 2013. Biosorptive removal of Pb(II) and Cu(II) from wastewater using
activated carbon from cassava peels. J Mater Cycles Waste Management.
Pak, A. dan Mohammadi, T. 2006. Zeolite NaA Membranes Synthesis. Desalination,
200: 68-70.
Peraturan Pemerintah Nomor 82 Tahun 2001 Tentang Pengelolaan Kualitas Air dan
Pengendalian Pencemaran Air. Presiden Republik Indonesia.
Polowczyk, I., Bastrzyk, A., Kozlecki, T., Sawinski, W., Rudnicki, P., Sokolowski,
A., dan Sadowski, Z. 2010. Use of fly ash agglomerates for removal of
arsenic. Environ Geochem Health, 32: 361-366.
Prakash, Satya, Tuti, G. D., Basu, S. K. dan R. D. Madun. 2004. Advanced Inorganic
Chemistry, Volume 1. New Delhi: S. Chand & Company Ltd.
Rouquerol, F., Rouquerol, J. dan Sing, K. 1999. Adsorption by Powders and Porous
Solids. Academic Press. San Diego, CA, USA.
Saeni, S.M. 1989. Kimia Lingkungan (Bahan Pengajaran). Departemen Pendidikan
dan Kebudayaan Direktorat Jenderal Pendidikan Tinggi Pusat Antar
Universitas Ilmu Hayati. IPB. Bogor.
Sastrohamidjojo, H. 1992. Spektroskopi Inframerah. Cetakan Pertama. Yogyakarta:
Penerbit Liberti.
Schneider, H., Komarneni, S. 2005. Mullite. Wiley-VCH. 244-253.
Senthilkumar., G. dan Murugappan., A. 2015. Multicomponent Adsorption Isotherm
Studies on Removal of Multi Heavy Metal Ions in MSW Leachate Using Fly
Ash. IJERT Vol. 4(8): 58-66.
Sitorus, H. 2004. Analisis Beberapa Karakteristik Lingkungan Perairan yang
Mempengaruhi Akumulasi Logam Berat Timbal (Pb) dalam Tubuh Kerang di
Perairan Pesisir Timur Sumatera Utara. Jurnal Ilmu-Ilmu Perairan dan
Perikanan Indonesia. Departemen MSP Fakultas Perikanan dan Kelautan IPB,
Juni 2004. Jilid 11(1):53-60.
Sukandarrumidi. 2006. Batubara dan Pemanfaatannya . Gadjah Mada University
Press. Yogyakarta.
Yang, R.T. 2003. Adsorbents : Fundamentals and Applications. John Wiley and
Sons, Inc. New Jersey, USA.
Yehia, A., El-Rahiem, H.A. dan El-Taweel, R.S. 2008. Removal of Heavy Metals
from Aqueous Solution by Unburned Carbon Separated from Blast Furnace
Flue Dust. Mineral Processing and Extractive Metallurgy. 117(4): 205-208.
Wahyuni, H., Sasongko, S. B. dan Sasongko, D. P. 2013. Konsentrasi Logam Berat
di Perairan, Sedimen dan Biota dengan Faktor Biokonsentrasinya di Perairan
Batu
Belubang, Kab. Bangka
Tengah. Prosiding Seminar Nasional
Pengelolaan Sumberdaya Alam dan Lingkungan 2013: 489-494.
Wang, S., Li, L., Wu, H. dan Zhu, Z. H. 2005. Unburned Carbon as A Low Cost
Adsorbent for Treatment of Methylene Blue. Journal of Colloid & Interface
Science. Vol. 292(2): 336-343.
Woolard, C.D., Petrus, K. dan Horst, M.V.D. 2000. The Use of a Modified Fly Ash as
an Adsorbent for Lead. Water SA Vol 26(4): 531 – 536.
Xue, W.B., Yi A. H., Zhang Z. Q., Tang C. L., Zhang X. C. dan Gao J. M. 2009. A
New Competitive Adsorption Isothermal Model of Heavy Metals in Soils.
Pedosphere 19(2): 251-257.
Zhou, D. H., Li, X. Y., Xu, F. L. dan Dong, Y. Y. 1996. Application of Mass-Action
Model for Describing the Absorption Characteristics of Heavy Metal in Soils.
Acta Sci. Circumst. 16(4): 452-430.
Zou, W., Bai, H., Gao, S., dan Li, K. 2013. Characterization of Modified Sawdust,
Kinetis and Equilibrium Study about Methylene Blue Adsorption in Batch
Mode. Korean J. Chem. Eng. 30(1): 111-122.
Alberty, R. A. 1997. Physical Chemistry. John Willey and Sons Inc. New York.
Astuti, W dan F. Widhi Mahatmanti. 2010. Aktivasi Abu Layang Batubara dan
Aplikasinya
sebagai
Adsorben
Timbal
dalam
Pengolahan
Limbah
Elektroplating. Jurnal Sains dan Teknologi, Vol. 8(2): 112-118.
Astuti, W., Sulistyaningsih, T. dan Fardhyanti, D. S. 2015. Coal Fly Ash as A Dual
Site Material for Cr (VI) Adsorption: Comparation Between Single Site and
Dual Site Isotherm Models. Advanced Materials Research Vol 1101: 149-152.
Trans Tech Publication, Switzerland.
Budhyantoro, A. 2005. Konversi Abu Layang Batubara sebagai Material Pengemban
Logam Nikel dan Uji Ketahanan Struktur Padatan terhadap Panas. Jurnal
Ilmu Dasar Vol. 6(1): 24-32. Surabaya.
Chang, Raymond. 2003. Kimia Dasar: Konsep-konsep Inti, Jilid I, Edisi Ketiga .
Jakarta: Penerbit Erlangga.
Clark, R.B. 1986. Marine Pollution. Hlm. 215. Oxford: Clarendon Press.
Damaiyanti, Y. 1997. Kandungan Logam Berat dalam Sedimen di Perairan Estuaria
Kuala Tungkal, Dati I Provinsi Jambi. Laporan Praktek Lapangan. Program
Studi Ilmu Kelautan, FPIK IPB. Bogor.
Darmono. 1995. Logam dalam Biologi Makhluk Hidup. Universitas Indonesia Press.
Jakarta.
Dewi, N. K., Perdhana, F. F. dan Yuniastuti, A. 2012. Paparan Seng di Perairan
Kaligarang terhadap Ekspresi Zn-Thionein dan Konsentrasi Seng pada Hati
Ikan Mas. Jurnal MIPA 35(2): 108-115.
Do, D. 1998. Adsoption Analysis: Equilibrium and Kinetics. Series Chemical
Engineering Vol. 2. Queensland.
Duan, Shengxia, Tang, R., Xue, Z., Zhang, X., Zhao Y., Zhang, W., Zhang, J., Wang,
B., Zeng, S. dan D. Sun. 2015. Effective removal of Pb(II) using magnetic
Co0.6Fe2.4O4 micro-particles as the adsorbent: Synthesis and study on the
kinetic and thermodynamic behaviours for its adsorption . Colloids and
Surfaces A: Physicochemical and Engineering Aspects.
Eby, George A. 1994. Handbook for Curing the Common Cold: The Zinc Lozenge
Story. Texas, USA: Publications Division, George Eby Research.
Gad, H.M.H dan A.E.H.A.M. Daifullah. 2007. Impact of Surface Chemistry on the
Removal of Indigo Carmine Dye Using Apricot Stone Active Carbon.
Adsorption Science and Technology. 25(4): 327-341.
Garg, V.K., Kumar, R. dan Gupta, R. 2004. Removal of Malachite Green Dye from
Aqueous Solution by Adsorption using Agro Industry Waste: A Care Study of
Prosopis Cineraria . Dyes and Pigments. 62: 1-10.
Geng, X.D. dan Y.L. Shi. 1988. Exchanging Adsorption Model of Solute in LiquidSolid System. Sci. Tecnol. 30(5): 1687-1698.
Haryoto dan Wibowo, A. 2004. Kinetika Bioakumulasi Logam Berat Kadmium oleh
Fitoplankton Chlorella sp Lingkungan Perairan Laut. Jurnal Penelitian Sains
& Teknologi. 5(2): 89 – 103.
Heslop, R. dan D.L. Robinson. 1960. Inorganic Chemistry. Elsevier Publishing
Company.
Ho, Y.S. dan McKay, G. 2004. Batch Lead (II) Removal from Aqueous Solution by
Peat: Equilibrium and Kinetics. Trans IchemE. 77(B).
Hsu, T.C., Yu, C.C. dan Yeh, C.M. 2008. Adsorption of Cu2+ from Water using Raw
and Modified Coal Fly Ashes. Fuel 87: 1355–9.
Kementrian Lingkungan Hidup. 2004. Baku Mutu Air Laut Nomor Keputusan 51
Tahun 2004. Kementrian Lingkungan Hidup: Jakarta.
Kurniawati, Dania. 2010. Sintesis Zeolit dari Abu Layang Batubara secara
Hidrotermal melalui Proses Peleburan dan Aplikasinya untuk Penurunan
Logam Cr (Krom) dalam Limbah Industri Penyamakan Kulit. Tugas Akhir.
FMIPA, Universitas Negeri Semarang.
Landmann, A.A. 2003. Literature Review of Fly Ash in Aspects of Solid-State
Chemistry of Fly Ash and Ultramarine Pigments. University of Pretoria etd.
Laperche, Valerie dan Jerry M. Bigham. 2002. Quantitative, Chemical and
Mineralogical Characterization of Flue Gas Desulfurization By-Products.
JEQ. 31: 979-988.
Lowell, S. dan Shields, J.E. 1984. Powder Surface Area and Porosity. John Wiley &
Sons, Inc. New York, USA.
Mall, I.D., Srivastava, V.C. dan Agarwal, N.K. 2006. Removal of Orange-G and
Dyes by Adsorpption onto Bagase Fly AshKinetic Study and Equilibrium
Isotherm Analyses. Dyes and Pigments. 69: 210-223.
M., Arias., C., Perez-Novo., E., Lopez. dan B., Soto. 2005. Competitive Adsorption
and Desorption of Copper and Zinc in Acid Soils. Geodherma. 133: 155-159.
Musapatika, E.T., Onyango, M.S. dan Aoyi, O. 2010. Cobalt (II) Removal from
Synthetic Waste Water by Adsorption on South African Coal Fly Ash . S. Afr.
J. Sci. 106(9/10): 1-7.
Mustafa, G., Singh, B. dan Kookana, Rai S. 2004. Cadmium desorption from goethite
in the presence of desferrioxamine B and oxalic acid. 3rd Australian New
Zealand Soils Conference. University of Sydney, Australia.
Oktavianus dan IRS. Salami. 2005. Uptake dan Depurasi Logam Timbal (Pb) pada
Ikan Nila (Oreochromis niloticus). Jurnal Kimia Lingkungan, Vol. 6(2): 75-
81.
Owamah, H.I. 2013. Biosorptive removal of Pb(II) and Cu(II) from wastewater using
activated carbon from cassava peels. J Mater Cycles Waste Management.
Pak, A. dan Mohammadi, T. 2006. Zeolite NaA Membranes Synthesis. Desalination,
200: 68-70.
Peraturan Pemerintah Nomor 82 Tahun 2001 Tentang Pengelolaan Kualitas Air dan
Pengendalian Pencemaran Air. Presiden Republik Indonesia.
Polowczyk, I., Bastrzyk, A., Kozlecki, T., Sawinski, W., Rudnicki, P., Sokolowski,
A., dan Sadowski, Z. 2010. Use of fly ash agglomerates for removal of
arsenic. Environ Geochem Health, 32: 361-366.
Prakash, Satya, Tuti, G. D., Basu, S. K. dan R. D. Madun. 2004. Advanced Inorganic
Chemistry, Volume 1. New Delhi: S. Chand & Company Ltd.
Rouquerol, F., Rouquerol, J. dan Sing, K. 1999. Adsorption by Powders and Porous
Solids. Academic Press. San Diego, CA, USA.
Saeni, S.M. 1989. Kimia Lingkungan (Bahan Pengajaran). Departemen Pendidikan
dan Kebudayaan Direktorat Jenderal Pendidikan Tinggi Pusat Antar
Universitas Ilmu Hayati. IPB. Bogor.
Sastrohamidjojo, H. 1992. Spektroskopi Inframerah. Cetakan Pertama. Yogyakarta:
Penerbit Liberti.
Schneider, H., Komarneni, S. 2005. Mullite. Wiley-VCH. 244-253.
Senthilkumar., G. dan Murugappan., A. 2015. Multicomponent Adsorption Isotherm
Studies on Removal of Multi Heavy Metal Ions in MSW Leachate Using Fly
Ash. IJERT Vol. 4(8): 58-66.
Sitorus, H. 2004. Analisis Beberapa Karakteristik Lingkungan Perairan yang
Mempengaruhi Akumulasi Logam Berat Timbal (Pb) dalam Tubuh Kerang di
Perairan Pesisir Timur Sumatera Utara. Jurnal Ilmu-Ilmu Perairan dan
Perikanan Indonesia. Departemen MSP Fakultas Perikanan dan Kelautan IPB,
Juni 2004. Jilid 11(1):53-60.
Sukandarrumidi. 2006. Batubara dan Pemanfaatannya . Gadjah Mada University
Press. Yogyakarta.
Yang, R.T. 2003. Adsorbents : Fundamentals and Applications. John Wiley and
Sons, Inc. New Jersey, USA.
Yehia, A., El-Rahiem, H.A. dan El-Taweel, R.S. 2008. Removal of Heavy Metals
from Aqueous Solution by Unburned Carbon Separated from Blast Furnace
Flue Dust. Mineral Processing and Extractive Metallurgy. 117(4): 205-208.
Wahyuni, H., Sasongko, S. B. dan Sasongko, D. P. 2013. Konsentrasi Logam Berat
di Perairan, Sedimen dan Biota dengan Faktor Biokonsentrasinya di Perairan
Batu
Belubang, Kab. Bangka
Tengah. Prosiding Seminar Nasional
Pengelolaan Sumberdaya Alam dan Lingkungan 2013: 489-494.
Wang, S., Li, L., Wu, H. dan Zhu, Z. H. 2005. Unburned Carbon as A Low Cost
Adsorbent for Treatment of Methylene Blue. Journal of Colloid & Interface
Science. Vol. 292(2): 336-343.
Woolard, C.D., Petrus, K. dan Horst, M.V.D. 2000. The Use of a Modified Fly Ash as
an Adsorbent for Lead. Water SA Vol 26(4): 531 – 536.
Xue, W.B., Yi A. H., Zhang Z. Q., Tang C. L., Zhang X. C. dan Gao J. M. 2009. A
New Competitive Adsorption Isothermal Model of Heavy Metals in Soils.
Pedosphere 19(2): 251-257.
Zhou, D. H., Li, X. Y., Xu, F. L. dan Dong, Y. Y. 1996. Application of Mass-Action
Model for Describing the Absorption Characteristics of Heavy Metal in Soils.
Acta Sci. Circumst. 16(4): 452-430.
Zou, W., Bai, H., Gao, S., dan Li, K. 2013. Characterization of Modified Sawdust,
Kinetis and Equilibrium Study about Methylene Blue Adsorption in Batch
Mode. Korean J. Chem. Eng. 30(1): 111-122.