Pengaruh Penambahan Trace Metal (Ni,Co) Terhadap Pembuatan Biogas dari Sampah Organik dan Kotoran Sapi
DAFTAR PUSTAKA
[1] Fairuz Adam, Agus Haryanto, Ahmad Tusi, “Pengaruh Penambahan Ampas
Kelapa dan Kulit Pisang terhadap Produksi Biogas dari Kotoran Sapi,” Jurnal
Teknik Pertanian Lampung Vol. 4, No. 2: 91-98 (2015).
[2] BPPT. Outlook Energi Indonesia 2013. Energy Development in Supporting
Transportation Sector and Mineral Processing Industry. ISBN 978-97995202-9-6 (2013).
[3] Santosa, Sandra, Omil Charmyn Chatib dan Asep Dian Prima. “Study on Biogas
Production with Organic Rubbish as Producing Material. Production and
Agricultural
Machines
and
Equipments
Management
Laboratory,
Agricultural Engineering Department,” Faculty of Agricultural Technology,
Andalas University, Padang, Vol.5 No. 1 ISSN: 2088-5334 (2015).
[4] Fatimah, Novita Fara. “Pengaruh Pengurangan Konsentrasi Trace Metal (Nikel
dan Kobal) pada Pengolahan Limbah Cair Pabrik Kelapa Sawit secara
Anaerobik Termofilik terhadap Produksi Biogas,” Program Studi Magister
Teknik Kimia, Fakultas Teknik, Universitas Sumatera Utara: Medan, 2012.
[5] Mei, Xin Feng, Anna Karlson, Bo H. Svensson and Stefan Bertilson, “Impact of
Trace Element Addition on Biogas Production from Food Industrial Waste
Linking Process to Microba Communities,” Department of Water and
Environtmental Studies, Linkoping University, Linkoping, Sweden and
Limnology of Ecology and Evolution, Uppsala University, Uppsala, Sweden.
FEMS Microbiol Ecol 74 (2010) hal 226-240.
[6] Clinton, Deril. “Pengaruh Waktu Fermentasi dan Komposisi Limbah Kulit Buah
Aren (Arenga pinnata) dengan Starter Kotoran Sapi terhadap Biogas yang
dihasilkan.” Skripsi, Program Studi Teknik Kimia, Fakultas Teknik,
Universitas Sumatera Utara, Medan, 2015.
[7] Yenni, Yommi Dewilda, Serly Mutia Sari. “Uji Pembentukan Biogas dari
Substrat Sampah Sayur dan Buah dengan Ko-Substrat Limbah Isi Rumen
51
Universitas Sumatera Utara
Sapi,” Jurnal Teknik Lingkungan UNAND (9) 1: 26-36. ISSN 1829-6084
(2012).
[8] Facchin, et al. “Effect of Trace Element Supplementation on the Mesophillic
Anaerobic Digestion Foodwaste Batch Trials: Influence of Inoculum
Origin,” Biochemical Engineering Journal 70 (2013), hal 71– 77.
[9] Abdelsalam, et al. “Effects of CoCl2, NiCl2 and FeCl3 Additives on Biogas
and Methane Production.” Misr J. Ag. Eng., 32 (2): 843 – 862 (2015).
[10] Mulyaningsih, Th Rina. “Kandungan Unsur Besi (Fe) dan Seng (Zn) dalam
Bahan Pangan Produk Pertanian, Perikanan dan Peternakan Ditentukan
dengan Metode k0-AANI.” Jurnal Sains dan Teknologi Nuklir Indonesia
Indonesian Journal of Nuclear Science and Technology Vol. X, No. 2,
(2009), hal 71-80. ISSN 1411 – 3481.
[11] Ramadhani, Aprizal, Ahmad Perwira Mulia Tarigan. “Studi Pengelolaan
Sampah Pasar Kota Medan.” Departemen Teknik Sipil, Fakultas Teknik,
Universitas Sumatera Utara: Medan, (2013).
[12] Saputro, dkk. “Studi Pustaka Pemanfaatan Proses Biokonversi Sampah Organik
sebagai Alternatif Memperoleh Biogas.” Seminar Nasional Suber Energi
Hayati FMIPA UNS, (2006).
[13] Sutrisno, Joko. “Pembuatan Biogas dari Bahan Sampah Sayuran (Kubis,
Kangkung dan Bayam).” Jurnal Teknik WAKTU Volume 08 Nomor 01
(2010). ISSN: 1412-1867.
[14] Richardo, Budiman Saragih. “Analisis Potensi Biogas untuk Menghasilkan
Energi Listrik dan Termal pada Gedung Komersil di daerah Perkotoan.”
Program Magister Teknik Elektro, Fakultas Teknik, Universitas
Indonesia: Depok, (2010).
[15] Wongso, Kendali. “Pengaruh Penambahan EM4 (Effective Microorganism-4)
pada Pembuatan Biogas dari Eceng Gondok dan Rumen Sapi.” Program
52
Universitas Sumatera Utara
Studi Teknik Kimia, Fakultas Teknik, Universitas Negeri Semarang
(2015).
[16] Sutarma. Kultur Media Bakteri. Balai Penelitian Veteriner Jl. R.E. Martadinata
30 Bogor, (2000).
[17] Osuna, M. B., Iza, J., Zandvoort, M. dan Lens, P. N.. “Essential Metal Depletion
In An Anaerobic Reactor.” Water Sci Technol. 46:1 – 8, (2003).
[18] Suraya, Irma, Hari Tiarasti, Irvan, Bambang Trisakti. “Pengaruh Kadar Fe
terhadap Kuantitas Biogas yang dihasilkan dari Fermentasi Limbah Cair
Pabrik Kelapa Sawit.” Jurnal Teknik Kimia USU, Vol 1, No.1, (2012).
[19] Kim, Jung Kon., Oh Baek Rock., Chun Young Nam., Kim So Wouk. “Effect of
Temperatur and Hydraulic Retention Time on Anaerobic Digestion of
Food Waste.” Jornal of Bioscience and Bioengineering, The Society for
Biotechnology, Japan Vol. 102, No. 4, 328–332. (2006).
[20] Abdulkarim, Bala Isah and Abdullahi Mohammed Evuti. “Effect of Buffer and
Waste Tyoe in High Solid Themophilic Anaerobic Digestion.”
International Journal of Chem Tech Research CODEN (USA): IJCRGG.
Vol.2, No.2, pp 980-984 (2010).
[21] Kusumaningrum, A and Oktavia. “Optimasi Produksi Biogas dari Limbah Cair
Industri Tapioka Melalui Proses Anaerobik Dua Tahap.” Tugas Akhir,
Fakultas Teknik, UNDIP. (2011).
[22] Khaerunnisa, Gita., Ika L.C. “Pengaruh pH dan Rasio COD:N terhadap
Produksi Biogas dengan Bahan Baku Limbah Industri Alkohol
(Vinasse).” Jurnal Teknologi Kimia dan Industri, Vol. 2. Hal: 1-7.
(2013).
[23] Aresta, Michele., Marcella Narracci., Immacolata Tomassi. “Influence Iron,
Nickel and Cobalt on Biogas Production Duringthe Anaerobic
Fermentation of Fresh Residual Biomassa.” Chemistry and Ecology, Vol.
19(6), December 2003, pp. 451–459.
53
Universitas Sumatera Utara
[24] Yee-Shian Wong, Tjoon-Tow Teng, Soon-An Ong, M. Norhashimah, M.
Rafatullah, Jing-Yong Leong. “Methane Gas Production from Palm Oil
Wastewater –An Anaerobic Methanogenic Degradation Process in
Continuous Stirer Suspended Closed Anaerobic Reactor.” Journal of
Taiwan Institute of Chemical Engineers. (2013).
[25] Kresnawaty, Irma., I. Susanti., Siswanto., Tri Panji. “Optimization of Biogas
Production from Concentrated-Latex Effluent with Addition of Metals.”
Menara Perkebunan, 2008, 76(1), 23-35.
[26] Anna, Schurer and Asa Jarvis. “Microbiological Handbook for Biogas Plants.”
Svenskt Gastekniskt Center AB: Victoria, British Columbia, Canada.
(2009).
[27] Luostarinen, Sari., Argo Normak., Mats Edstrom. Overview of Biogas
Technology. European Union – European Regional Development Fund.
(2011).
[28] Demirel, B dan Scherer, P. “Trace Element Requirements of Agricultural
Biogas Digester During Biological Conversion of Renewable Biomass to
Methane.” Biomass and Bioenergy (35) page: 992-998.(2011).
[29] Paramitha, P., Snovitri Maya., Kuswytasari N D. “Biodegradasi Limbah
Organik dari Air Sungai Tercemar, Pasar dan Limbah Domestik dengan
Menggunakan Mikroorganisme Alami Tangki Septik.” Jurnal Sains dan
Seni ITS Vol. 1, ISSN: 2301-928X, (2012).
[30] Medina Herrera., Rodriguez Garcia., Montoya Herrera., Cardenas Mijangos.,
Godinez Mora., Bustos E., Rodriguez Valadez and Manriquez Rocha.
“Anaerobic Digestion of Slughterhouse Solid Wasre for the Optimization
of Biogas Production.” International Journal Environment Resouce.,
8(2):483-492, Spring(2014).
[31] Mohd Zulkhairi, Mohd Yusoff, Nor Aini, Abdul Rahman, Suraini Abdul Aziz,
Chong Mei Ling, Mohd Ali Hassan dan Yoshihito Shirai. “The Effect of
Hydraulic Retention Time and Volatile Fatty Acids on Biohydrogen
54
Universitas Sumatera Utara
Production from Palm Oil Mill Effluent under Non-Sterile Condition.”
Australian Journal of Basic and Applied Sciences, 4 (2010), hal 577-587,
ISSN 1991-8178.
55
Universitas Sumatera Utara
[1] Fairuz Adam, Agus Haryanto, Ahmad Tusi, “Pengaruh Penambahan Ampas
Kelapa dan Kulit Pisang terhadap Produksi Biogas dari Kotoran Sapi,” Jurnal
Teknik Pertanian Lampung Vol. 4, No. 2: 91-98 (2015).
[2] BPPT. Outlook Energi Indonesia 2013. Energy Development in Supporting
Transportation Sector and Mineral Processing Industry. ISBN 978-97995202-9-6 (2013).
[3] Santosa, Sandra, Omil Charmyn Chatib dan Asep Dian Prima. “Study on Biogas
Production with Organic Rubbish as Producing Material. Production and
Agricultural
Machines
and
Equipments
Management
Laboratory,
Agricultural Engineering Department,” Faculty of Agricultural Technology,
Andalas University, Padang, Vol.5 No. 1 ISSN: 2088-5334 (2015).
[4] Fatimah, Novita Fara. “Pengaruh Pengurangan Konsentrasi Trace Metal (Nikel
dan Kobal) pada Pengolahan Limbah Cair Pabrik Kelapa Sawit secara
Anaerobik Termofilik terhadap Produksi Biogas,” Program Studi Magister
Teknik Kimia, Fakultas Teknik, Universitas Sumatera Utara: Medan, 2012.
[5] Mei, Xin Feng, Anna Karlson, Bo H. Svensson and Stefan Bertilson, “Impact of
Trace Element Addition on Biogas Production from Food Industrial Waste
Linking Process to Microba Communities,” Department of Water and
Environtmental Studies, Linkoping University, Linkoping, Sweden and
Limnology of Ecology and Evolution, Uppsala University, Uppsala, Sweden.
FEMS Microbiol Ecol 74 (2010) hal 226-240.
[6] Clinton, Deril. “Pengaruh Waktu Fermentasi dan Komposisi Limbah Kulit Buah
Aren (Arenga pinnata) dengan Starter Kotoran Sapi terhadap Biogas yang
dihasilkan.” Skripsi, Program Studi Teknik Kimia, Fakultas Teknik,
Universitas Sumatera Utara, Medan, 2015.
[7] Yenni, Yommi Dewilda, Serly Mutia Sari. “Uji Pembentukan Biogas dari
Substrat Sampah Sayur dan Buah dengan Ko-Substrat Limbah Isi Rumen
51
Universitas Sumatera Utara
Sapi,” Jurnal Teknik Lingkungan UNAND (9) 1: 26-36. ISSN 1829-6084
(2012).
[8] Facchin, et al. “Effect of Trace Element Supplementation on the Mesophillic
Anaerobic Digestion Foodwaste Batch Trials: Influence of Inoculum
Origin,” Biochemical Engineering Journal 70 (2013), hal 71– 77.
[9] Abdelsalam, et al. “Effects of CoCl2, NiCl2 and FeCl3 Additives on Biogas
and Methane Production.” Misr J. Ag. Eng., 32 (2): 843 – 862 (2015).
[10] Mulyaningsih, Th Rina. “Kandungan Unsur Besi (Fe) dan Seng (Zn) dalam
Bahan Pangan Produk Pertanian, Perikanan dan Peternakan Ditentukan
dengan Metode k0-AANI.” Jurnal Sains dan Teknologi Nuklir Indonesia
Indonesian Journal of Nuclear Science and Technology Vol. X, No. 2,
(2009), hal 71-80. ISSN 1411 – 3481.
[11] Ramadhani, Aprizal, Ahmad Perwira Mulia Tarigan. “Studi Pengelolaan
Sampah Pasar Kota Medan.” Departemen Teknik Sipil, Fakultas Teknik,
Universitas Sumatera Utara: Medan, (2013).
[12] Saputro, dkk. “Studi Pustaka Pemanfaatan Proses Biokonversi Sampah Organik
sebagai Alternatif Memperoleh Biogas.” Seminar Nasional Suber Energi
Hayati FMIPA UNS, (2006).
[13] Sutrisno, Joko. “Pembuatan Biogas dari Bahan Sampah Sayuran (Kubis,
Kangkung dan Bayam).” Jurnal Teknik WAKTU Volume 08 Nomor 01
(2010). ISSN: 1412-1867.
[14] Richardo, Budiman Saragih. “Analisis Potensi Biogas untuk Menghasilkan
Energi Listrik dan Termal pada Gedung Komersil di daerah Perkotoan.”
Program Magister Teknik Elektro, Fakultas Teknik, Universitas
Indonesia: Depok, (2010).
[15] Wongso, Kendali. “Pengaruh Penambahan EM4 (Effective Microorganism-4)
pada Pembuatan Biogas dari Eceng Gondok dan Rumen Sapi.” Program
52
Universitas Sumatera Utara
Studi Teknik Kimia, Fakultas Teknik, Universitas Negeri Semarang
(2015).
[16] Sutarma. Kultur Media Bakteri. Balai Penelitian Veteriner Jl. R.E. Martadinata
30 Bogor, (2000).
[17] Osuna, M. B., Iza, J., Zandvoort, M. dan Lens, P. N.. “Essential Metal Depletion
In An Anaerobic Reactor.” Water Sci Technol. 46:1 – 8, (2003).
[18] Suraya, Irma, Hari Tiarasti, Irvan, Bambang Trisakti. “Pengaruh Kadar Fe
terhadap Kuantitas Biogas yang dihasilkan dari Fermentasi Limbah Cair
Pabrik Kelapa Sawit.” Jurnal Teknik Kimia USU, Vol 1, No.1, (2012).
[19] Kim, Jung Kon., Oh Baek Rock., Chun Young Nam., Kim So Wouk. “Effect of
Temperatur and Hydraulic Retention Time on Anaerobic Digestion of
Food Waste.” Jornal of Bioscience and Bioengineering, The Society for
Biotechnology, Japan Vol. 102, No. 4, 328–332. (2006).
[20] Abdulkarim, Bala Isah and Abdullahi Mohammed Evuti. “Effect of Buffer and
Waste Tyoe in High Solid Themophilic Anaerobic Digestion.”
International Journal of Chem Tech Research CODEN (USA): IJCRGG.
Vol.2, No.2, pp 980-984 (2010).
[21] Kusumaningrum, A and Oktavia. “Optimasi Produksi Biogas dari Limbah Cair
Industri Tapioka Melalui Proses Anaerobik Dua Tahap.” Tugas Akhir,
Fakultas Teknik, UNDIP. (2011).
[22] Khaerunnisa, Gita., Ika L.C. “Pengaruh pH dan Rasio COD:N terhadap
Produksi Biogas dengan Bahan Baku Limbah Industri Alkohol
(Vinasse).” Jurnal Teknologi Kimia dan Industri, Vol. 2. Hal: 1-7.
(2013).
[23] Aresta, Michele., Marcella Narracci., Immacolata Tomassi. “Influence Iron,
Nickel and Cobalt on Biogas Production Duringthe Anaerobic
Fermentation of Fresh Residual Biomassa.” Chemistry and Ecology, Vol.
19(6), December 2003, pp. 451–459.
53
Universitas Sumatera Utara
[24] Yee-Shian Wong, Tjoon-Tow Teng, Soon-An Ong, M. Norhashimah, M.
Rafatullah, Jing-Yong Leong. “Methane Gas Production from Palm Oil
Wastewater –An Anaerobic Methanogenic Degradation Process in
Continuous Stirer Suspended Closed Anaerobic Reactor.” Journal of
Taiwan Institute of Chemical Engineers. (2013).
[25] Kresnawaty, Irma., I. Susanti., Siswanto., Tri Panji. “Optimization of Biogas
Production from Concentrated-Latex Effluent with Addition of Metals.”
Menara Perkebunan, 2008, 76(1), 23-35.
[26] Anna, Schurer and Asa Jarvis. “Microbiological Handbook for Biogas Plants.”
Svenskt Gastekniskt Center AB: Victoria, British Columbia, Canada.
(2009).
[27] Luostarinen, Sari., Argo Normak., Mats Edstrom. Overview of Biogas
Technology. European Union – European Regional Development Fund.
(2011).
[28] Demirel, B dan Scherer, P. “Trace Element Requirements of Agricultural
Biogas Digester During Biological Conversion of Renewable Biomass to
Methane.” Biomass and Bioenergy (35) page: 992-998.(2011).
[29] Paramitha, P., Snovitri Maya., Kuswytasari N D. “Biodegradasi Limbah
Organik dari Air Sungai Tercemar, Pasar dan Limbah Domestik dengan
Menggunakan Mikroorganisme Alami Tangki Septik.” Jurnal Sains dan
Seni ITS Vol. 1, ISSN: 2301-928X, (2012).
[30] Medina Herrera., Rodriguez Garcia., Montoya Herrera., Cardenas Mijangos.,
Godinez Mora., Bustos E., Rodriguez Valadez and Manriquez Rocha.
“Anaerobic Digestion of Slughterhouse Solid Wasre for the Optimization
of Biogas Production.” International Journal Environment Resouce.,
8(2):483-492, Spring(2014).
[31] Mohd Zulkhairi, Mohd Yusoff, Nor Aini, Abdul Rahman, Suraini Abdul Aziz,
Chong Mei Ling, Mohd Ali Hassan dan Yoshihito Shirai. “The Effect of
Hydraulic Retention Time and Volatile Fatty Acids on Biohydrogen
54
Universitas Sumatera Utara
Production from Palm Oil Mill Effluent under Non-Sterile Condition.”
Australian Journal of Basic and Applied Sciences, 4 (2010), hal 577-587,
ISSN 1991-8178.
55
Universitas Sumatera Utara