SINTESIS ADSORBEN BERBASIS ABU SEKAM PADI MENGGUNAKAN RADIASI GELOMBANG MIKRO DAN APLIKASINYA UNTUK MENJERAP ZAT WARNA METHYL VIOLET -
DAFTAR PUSTAKA
Ahmed, M.J., 2016. Application of agricultural based activated carbons by microwave and
conventional activations for basic dye adsorption: Review. Journal of Environmental
Chemical Engineering, 4(1), pp.89–99.
Alberty, R. A. 1997. Physical Chemistry. John Willey and Sons Inc. New York.
Atkins, P. W., 1999, Kimia Fisika, (diterjemahkan oleh : Kartahadiprojo Irma I), edisi ke-2,
Erlangga, Jakarta.
Bellaid, K. D., dkk. Adsorption Kinetics of some textile dyes onto granular activated carbon.
Journal of inviromental Chemical Engineering 1 (2013) 496-503.
Benefield, larry D, 1982, "Proces Chemistry For Water And Watewater Treatment", Prentice
Hall Inc., New Jersey.
Bernasconi,G.,H.Gerster,H.Hawster, H.Stauble dan E. Schneiter. 1995. Teknologi Kimia bagian
2. (Alih bahasa: Lienda Handojo). Jakarta: PT. Pradnya Paramita.
Cao, Z. dkk., 2017. Degradation pathway and mechanism of Reactive Brilliant Red X-3B in
electro-assisted microbial system under anaerobic condition. Journal of Hazardous
Materials, 329, pp.159–165
Capson, D. A. 1975. Microwave Heating. Connecticut : The AVI Publishing Company.
Castellan dan Glibert W. 1983. Physical Chemistry Third Edition. Addison Wesley Publishing
Company: Massachussets.
Christina, M., S. Mu’nisanatun, R. Saptaji, dan D. Marjanto. 2007. Studi Pendahuluan Mengenai
Degradasi Zat Warna Azo (Metil Orange) dalam Pelarut Air Menggunakan Mesin Berkas
Elektron 350 kev/10 ma. BATAN. Yogyakarta.
Danarto, Y.C., Nur, A., Setiawan, D.P., dan Kuncoro, N.D. (2010). Pengaruh Waktu Operasi
Terhadap Karakterstik Char Hasil Pirolisis Sekam Padi Sebagai Bahan Pembuatan Nano
Struktur Supermikrosporous Carbon. Prosiding Seminar Nasional Teknik Kimia
Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia.
Yogyakarta. Hal. 1-2.
Do. 1998. Adsorption Analysis : Equilibria and Kinetics. Imperial College Press. London,
England.
50
Heaton, Alan, The Chemical Industry, Second edition, Blackie Academic and Profesional,
Chapman & Hal London, 1994
Hsu, H.W., dan Luh, B.S. (1980). Rice Hull. Dalam Rice Produck And Utilization. Editor: Bor
Shiun Luh. New York: Avi Publishing Company Inc. Hal. 736-740.
Humelnicu, I. dkk., 2017. The removal of Basic Blue 41 textile dye from aqueous solution by
adsorption onto natural zeolitic tuff: Kinetics and thermodynamics. Process Safety and
Environmental Protection, 105, pp.274–287
Li, H., Liu, S., Zhao, J., Feng, N. 2016. Removal of reactive dyes from wastewater assisted with
kaolin clay by magnesium hydroxide coagulation process. Colloids and Surfaces A:
Physicochemical and Engineering Aspects . 494:222-227.
Mahvi, A.H., Maleki, A. and Eslami, A., 2004, Potential of Rice Husk Ash for Phenol Removal
in Aqueous Systems, Am. J. Appl. Sci., 1(4), 321-326.
Mulyatna, Lili, Pradiko, Hary, dan Nasution, Umi Kalsum. 2003. Pemilihan Persamaan Adsorpsi
Isoterm pada Penentuan Kapasitas Adsorpsi Kulit Kacang Tanah terhadap Zat Warna
Remazol Golden Yellow 6 (Volume 5 Nomor 3). Fakultas Teknik- Universitas Pasundan.
Nurhasni, Hendrawati, Nubzah Saniyyah. 2014. Sekam padi untuk menjerap ion logam tembaga
dan timbal dalam air limbah. Jurnal Teknik Kimia, vol. 4, no. 1, Mei 2014.
Oscik, J., 1982. Adsorption, Jhon wiley & sons, Inc, New York.
Owamah, H.I. 2013 Biosorptive Removal of Pb(II) and Cu(II) from Wastewater Using Activated
Carbon from Cassava peels. Journal of Material Cycles and Waste Management, 1-12.
Ozacar, M. dan I. A. Sengil. 2006. A Two Stage Batch Adsorber Design for Methylene Blue
Removal to Minimize Contact Time. Environmental Management 80: 372-379.
Primastuti, H. 2012. Adsorpsi Pewarna Methyl Violet Menggunakan Pasir Vulkanik Dari
Gunung Merapi. Tesis. Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas
Negeri Yogyakarta. Yogyakarta.
Ramadhan, B. 2005. Microwave Extraction of Essential Oils. [Thesis]. Canada: Department of
Agricultural and Bioresource Engineering University of Saskatoon. Saskatchewan.
Svehla, G. 1990. Vogel: Buku Teks Analisis Anorganik Kualitatif Makro dan Semimikro.
Jakarta: PT. Kalman Media Pustaka.
51
Shi, W., Li, H., Zhou, R., Qin, X., Zhang, H., Su, Y., Du, Q. 2016. Improved performance of
poly(piperazine amide) composite nanofiltration membranes by adding aluminum hydroxide
nanospheres. Separation and Purification Technology. 166:240-251.
Shukla, S.P. (2011). Investigation In to Tribo Potential of Rice Husk (RH) Char Reinforced
Epoxy Composite. Thesis. Rourkela: National Institute of Technology Rourkela.
Soemirat, Juli. 2003. Toksologi Lingkungan. Yogyakarta: UGM-Press.
Tan, L., He, M., Song, L., Fu, X., Shi, S. 2016. Aerobic decolorization, egradation and
detoxification of azo dyes by a newly isolated salt tolerant yeast Scheffersomyces spartinae
TLHS-SF1. Bioresource Technology. 203:287-294.
Taylor, M. 2005. Developments in Microwave Chemistry. Evalueserve. All Right Reserved.
Wahyuni, Sri. 2003. Diktat Kimia Fisika 2. Semarang: UNNES.
Yuliani, H. R. 2011. Adsorption of Methyl Violet from Aqueous Solution onto Modified Ampo.
Jurusan Teknik Kimia, Politeknik Negeri Ujung Pandang. Ujung Pandang.
Zhao, Mengnan. 2006. Synthesis and Application of Novel Heterobifunctional Reactive Dyes.
Thesis. North Carolina State University.
Zou, W., H. Bai, dan S. Gao. 2013. Characterization of modified sawdust, kinetic and
equilibrium studyabout methylene blue adsorption in batch mode. Korean Journal of
Chemichal Engineering 30 (1): 111-122. School of Chemical Engineering and Energy,
Zhengzhou University.
52
Ahmed, M.J., 2016. Application of agricultural based activated carbons by microwave and
conventional activations for basic dye adsorption: Review. Journal of Environmental
Chemical Engineering, 4(1), pp.89–99.
Alberty, R. A. 1997. Physical Chemistry. John Willey and Sons Inc. New York.
Atkins, P. W., 1999, Kimia Fisika, (diterjemahkan oleh : Kartahadiprojo Irma I), edisi ke-2,
Erlangga, Jakarta.
Bellaid, K. D., dkk. Adsorption Kinetics of some textile dyes onto granular activated carbon.
Journal of inviromental Chemical Engineering 1 (2013) 496-503.
Benefield, larry D, 1982, "Proces Chemistry For Water And Watewater Treatment", Prentice
Hall Inc., New Jersey.
Bernasconi,G.,H.Gerster,H.Hawster, H.Stauble dan E. Schneiter. 1995. Teknologi Kimia bagian
2. (Alih bahasa: Lienda Handojo). Jakarta: PT. Pradnya Paramita.
Cao, Z. dkk., 2017. Degradation pathway and mechanism of Reactive Brilliant Red X-3B in
electro-assisted microbial system under anaerobic condition. Journal of Hazardous
Materials, 329, pp.159–165
Capson, D. A. 1975. Microwave Heating. Connecticut : The AVI Publishing Company.
Castellan dan Glibert W. 1983. Physical Chemistry Third Edition. Addison Wesley Publishing
Company: Massachussets.
Christina, M., S. Mu’nisanatun, R. Saptaji, dan D. Marjanto. 2007. Studi Pendahuluan Mengenai
Degradasi Zat Warna Azo (Metil Orange) dalam Pelarut Air Menggunakan Mesin Berkas
Elektron 350 kev/10 ma. BATAN. Yogyakarta.
Danarto, Y.C., Nur, A., Setiawan, D.P., dan Kuncoro, N.D. (2010). Pengaruh Waktu Operasi
Terhadap Karakterstik Char Hasil Pirolisis Sekam Padi Sebagai Bahan Pembuatan Nano
Struktur Supermikrosporous Carbon. Prosiding Seminar Nasional Teknik Kimia
Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia.
Yogyakarta. Hal. 1-2.
Do. 1998. Adsorption Analysis : Equilibria and Kinetics. Imperial College Press. London,
England.
50
Heaton, Alan, The Chemical Industry, Second edition, Blackie Academic and Profesional,
Chapman & Hal London, 1994
Hsu, H.W., dan Luh, B.S. (1980). Rice Hull. Dalam Rice Produck And Utilization. Editor: Bor
Shiun Luh. New York: Avi Publishing Company Inc. Hal. 736-740.
Humelnicu, I. dkk., 2017. The removal of Basic Blue 41 textile dye from aqueous solution by
adsorption onto natural zeolitic tuff: Kinetics and thermodynamics. Process Safety and
Environmental Protection, 105, pp.274–287
Li, H., Liu, S., Zhao, J., Feng, N. 2016. Removal of reactive dyes from wastewater assisted with
kaolin clay by magnesium hydroxide coagulation process. Colloids and Surfaces A:
Physicochemical and Engineering Aspects . 494:222-227.
Mahvi, A.H., Maleki, A. and Eslami, A., 2004, Potential of Rice Husk Ash for Phenol Removal
in Aqueous Systems, Am. J. Appl. Sci., 1(4), 321-326.
Mulyatna, Lili, Pradiko, Hary, dan Nasution, Umi Kalsum. 2003. Pemilihan Persamaan Adsorpsi
Isoterm pada Penentuan Kapasitas Adsorpsi Kulit Kacang Tanah terhadap Zat Warna
Remazol Golden Yellow 6 (Volume 5 Nomor 3). Fakultas Teknik- Universitas Pasundan.
Nurhasni, Hendrawati, Nubzah Saniyyah. 2014. Sekam padi untuk menjerap ion logam tembaga
dan timbal dalam air limbah. Jurnal Teknik Kimia, vol. 4, no. 1, Mei 2014.
Oscik, J., 1982. Adsorption, Jhon wiley & sons, Inc, New York.
Owamah, H.I. 2013 Biosorptive Removal of Pb(II) and Cu(II) from Wastewater Using Activated
Carbon from Cassava peels. Journal of Material Cycles and Waste Management, 1-12.
Ozacar, M. dan I. A. Sengil. 2006. A Two Stage Batch Adsorber Design for Methylene Blue
Removal to Minimize Contact Time. Environmental Management 80: 372-379.
Primastuti, H. 2012. Adsorpsi Pewarna Methyl Violet Menggunakan Pasir Vulkanik Dari
Gunung Merapi. Tesis. Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas
Negeri Yogyakarta. Yogyakarta.
Ramadhan, B. 2005. Microwave Extraction of Essential Oils. [Thesis]. Canada: Department of
Agricultural and Bioresource Engineering University of Saskatoon. Saskatchewan.
Svehla, G. 1990. Vogel: Buku Teks Analisis Anorganik Kualitatif Makro dan Semimikro.
Jakarta: PT. Kalman Media Pustaka.
51
Shi, W., Li, H., Zhou, R., Qin, X., Zhang, H., Su, Y., Du, Q. 2016. Improved performance of
poly(piperazine amide) composite nanofiltration membranes by adding aluminum hydroxide
nanospheres. Separation and Purification Technology. 166:240-251.
Shukla, S.P. (2011). Investigation In to Tribo Potential of Rice Husk (RH) Char Reinforced
Epoxy Composite. Thesis. Rourkela: National Institute of Technology Rourkela.
Soemirat, Juli. 2003. Toksologi Lingkungan. Yogyakarta: UGM-Press.
Tan, L., He, M., Song, L., Fu, X., Shi, S. 2016. Aerobic decolorization, egradation and
detoxification of azo dyes by a newly isolated salt tolerant yeast Scheffersomyces spartinae
TLHS-SF1. Bioresource Technology. 203:287-294.
Taylor, M. 2005. Developments in Microwave Chemistry. Evalueserve. All Right Reserved.
Wahyuni, Sri. 2003. Diktat Kimia Fisika 2. Semarang: UNNES.
Yuliani, H. R. 2011. Adsorption of Methyl Violet from Aqueous Solution onto Modified Ampo.
Jurusan Teknik Kimia, Politeknik Negeri Ujung Pandang. Ujung Pandang.
Zhao, Mengnan. 2006. Synthesis and Application of Novel Heterobifunctional Reactive Dyes.
Thesis. North Carolina State University.
Zou, W., H. Bai, dan S. Gao. 2013. Characterization of modified sawdust, kinetic and
equilibrium studyabout methylene blue adsorption in batch mode. Korean Journal of
Chemichal Engineering 30 (1): 111-122. School of Chemical Engineering and Energy,
Zhengzhou University.
52