Optimasi Alat Pengolahan Limbah Polimer Pertanian Untuk Menghasilkan Bahan Bakar
58
DAFTAR PUSTAKA
Ahmad, Ekoyanto, P., dan Bambang A., 2011. Rancang Bangun Dan Uji
Performansi Tungku Keramik Berpipa Spiral Dengan Bahan Bakar Padat.
Skripsi. Universitas Brawijaya, Malang.
Akbar, A., Coniwanti, P., Paindoman, R., 2013. Pengaruh variabel waktu dan
temperatur terhadap pembuatan asap cair dari limbah kayu pelawan
(cyanometra cauliflora). Skripsi. Universitas Sriwijaya, Malang.
Angga, S., Sucipto, E., Sudarsono, I., 2016. Pengolahan Sampah Plastik dengan
Metoda Pirolisis menjadi Bahan Bakar Minyak. Skripsi. Politeknik Negeri
Bandung, Bandung.
Amiruddin, Sutopo, B., dan Rochmadi, 2012. Sistem Kontrol Suhu dan Laju
Pemanasan Alat Pirolisis. Universitas Gajah Mada, Yogyakarta.
Al-Salem, S.M., Lettieri, P., Baeyens, J., 2009. Recycling and Recovery These
solid plastic waste (PSW): a review.Waste Manage.29: 2625-2643
Aburiazaiza, A.S., Barakat, M.A., Miandad, R, Nizami, R., 2016. From the
catalytic pyrolysis of plastic waste.Energy Fuels, 5:407-423
Arabiourrutia, M., Elordi, G., Lopez, G., Borsella, E., Bilbao, J., Olazar, M.,
2012. Characterization of the waxes obtained by the pyrolysis of polyefin
plastics in a conical spouted bed reactor. Analytical and Applied Pyrolysis.
94 : 230-237
Bajus, M., Hájeková E., 2010. Thermal cracking of the model seven components
mixed plastics into oil/waxes.Petroleum & Coal. 52: 164-172
Bakkara, 2007. Pembuatan Asap Cair dari Tempurung Kelapa. Laporan
Penelitian, Jakarta.
Bazargan, A., Hui, C., McKay, G., 2013. Carbon Porous Than Plastic
Waste.PolymerScience, 25: 145-160.
Budian, A., 2004. Pengeringan Biological Sludge PT. Indonesia Toray Synthetics
dengan Menggunakan Dehydrator dan Sludge Drum Dryer. Skripsi.
Politeknik Negri Bandung, Bandung.
Budi, S. dan Ismanto, 2016. Pengolahan Sampah Plastik Jenis PP, PET dan PE
Menjadi Bahan Bakar Minyak dan Karakteristiknya. Skripsi. Universitas
Janabadra, Yogyakarta.
58
Universitas Sumatera Utara
Buekens, AG, Huang, H., 2008. Catalytic plastics cracking for recovery of
gasoline- range hydrocarbons from municipal plastic wastes. Resource
Conservation Recycle, 23: 163-181
Begley, T.H, Hollifield, H.C., 2009. High-performance liquid chromatographic
determi- nation of migrating polyethylene terephthalate oligomers in corn
oil.J Agric Food Chem, 38: 145-180
Brems,
A., Baeyens, J., Dewil, R., 2012. Recycling and recovery of postconsumer plastic solid waste in a European context. Thermal Science, 16:
669-685.
Cahyono, N., Mandala, P., Ma’arif, Sukarjo, Wardoyo, T., 2016. Pengaruh Suhu
terhadap Rendemen dan Nilai Kalor Minyak Hasil Pirolisis Sampah
Plastik. Skripsi. Jurnal Mekanika dan Sistem Termal, 1: 49-59
Chen, D., Yin, L., Wang, H., Dia, P., 2014.Pyrolysis technology for solid waste: a
review.Managing Waste. 34 : 2466-2486.
Darmadji, P, 2002. Dampak Limbah Polimer Terhadap Lingkungan. Universitas
Surabaya, Surabaya.
Darsam, 2012. Alat/ Mesin Penyuling. Departemen Pendidikan Institut Pertanian
Bogor, Bogor.
Daywin, F. J., R. G. Sitompul, dan Hidayat, 2008. Mesin-Mesin Budidaya
Pertanian di Lahan Kering. Graha Ilmu. Yogyakarta
Diez, MA, Melendi, S., Alvarez, R., Barriocanal, C., 2009.Recycled raw materials
waste plastic / oil mixture in cokemaking.Energy Fuel22: 88-101.
Engineering TB, 2008. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/flow-velocity-air-ductsd_388.html.[12 Maret 2017].
Engineering TB, 2009. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/thermal-conductivity-d_429.html
[12 Maret 2017].
Engineering TB, 2010. Recommended maximum air velocities in ventilationducts.
http://www.engineeringtoolbox.com/water-density-specificweightd_595.html.
[12 Maret 2017].
59
Universitas Sumatera Utara
Engineering TB, 2011. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/metal-alloys-densities-d_50.html
[12 Maret 2017].
Gabe, F. A., 2015. Analisa Termal Pada Rancang Bangun Reaktor Pirolisis Untuk
Memproduksi Bahan Bakar Minyak Dari Limbah Plastik. Skripsi. Institut
Pertanian Bogor, Bogor.
Giatman, M., 2006. Ekonomi Teknik. PT. Raja Grafindo Persada, Jakarta.
Gug, J., Cacciola, D., Sobkowicz, M.J., 2015. Processing and properties of solid
fuel energy from municipal solid waste and recycled plastic. Energy Fuel,
35: 283-292
Haris dan Kresno, 2005.
Kehutanan, Bogor.
Arang Kayu. Badan Penelitian dan Pengembangan
Haygreen, J.G., Bowyer, J.L., and Schmulsky. R. 2003. Forest Product and Wood
Sciences an Introduction. Ames IOWA State, University Press.
Haryadi, S., 2015. Pengaruh Arah Aliran Air Pendingin Pada Kondensor
Terhadap Hasil Pengembunan Proses Pirolisis Limbah Plastik, [Skripsi].
Universitas Negeri Semarang, Semarang.
Holman, J. P, 2010. Heat Transfer, 10th Edition. Department of Mechanical
Engineering Southern Methodist University (US). McGraw-Hill.
Husnan, S., 2000. Manajemen Keuangan Teori dan Penerapan, Edisi Ketiga.
UPP AMP YKPN, Yogyakarta.
Jumaidi, S., 2014. Jenis- Jenis Polimer.
digilib.unila.ac.id/1969/7/BAB%20II.pdf
[21 Februari 2017]
Bab
II
Tinjauan
Pustaka.
Kato, K., Namura, S., Uematsu, H. 2002.Development of waste plastic recycling
process using the coke oven. Waste Manage, 42: 10-19
Kumar, S., Singh, R. K., 2011.Recovery of hydrocarbon liquids of high density
polyethylene waste by pyrolysis thermal.The European Refining
Technology Conference. 28: 659-667
Kurniawan, I., Martin, A., Mintarto, 2015. Rancang Bangun Kondenser pada
Pengering Beku Vakum. Skripsi. Fakultas Teknik, Universitas Riau.
Lettieri, P., Al-Salem S., 2011. Thermochemical treatment of plastic solid waste.
Waste, 22: 233-242.
Universitas Sumatera Utara
61
Lienhard IV JH, Lienhard V JH., 2003. A Heat Transfer Textbook, 3rd Edition.
Massachucetts (US), Phlogiston Press.
Mandatya, V., 2015. Rancang Bangun Alat Pengolahan Limbah Polimer
Pertanian. Skripsi. Universitas Sumatera Utara, Medan.
Meiriza, V.P.C., Priyo, R.E., Safitri, D.P., dan Widi, R.A., 2012. Polipropilena
(PP). Politeknik Negeri Semarang, Semarang.
Mujiarto, I., 2005. Sifat Dan Karakteristik Material Plastik Dan Bahan Aditif.
AMNI, Semarang.
McCabe, W., Smith, J., Harriott, P., 2005. Unit Operation of Chemical
Engineering, 7th edition. McGraw-Hill, Singapore.
Miskolczi, N., Bartha, L., Deak, G., Jover, B., 2004. Thermal degradation of
municipal plastic waste for production of fuel-like hydrocarbons.Polymer
Degradstab, 86: 357-466.
Miskolczi N., Nagy R., 2012. Hydrocarbons obtained by waste plastic pyrolysis:
comparative analysis of decomposition described by different kinetic
models. Fuel Processing Technology.104: 96-104
Nurhidayat, 2007. Sintesis Poliblend Antara Polistiren Dengan Pati Tapioka Serta
Karakteristiknya. Skripsi. Institut Teknologi Bandung, Bandung.
Onny,
2013.
Macam-macam
Heat
Exchanger.
http://artikel-teknologi.com/macam-macam-heat-exchanger-alat-penukarpanas-bagian-2/
[14 Agustus 2017].
Prima, 2011. Rancang Bangun Alat Pembuat Arang Kayu Skala Laboratorium
Kapasitas 15 Kg. Skripsi. Universitas Diponegoro, Semarang.
Purba, R. 2007. Analisa Biaya dan Manfaat. PT. Rineka Cipta, Jakarta.
Purnomo, H., 2004. Pengantar Teknik Industri. Graha Ilmu, Yogyakarta.
Purwanto, D. 2011. Arang dari Limbah Tempurung Kelapa Sawit. Jurnal
Penelitian Hasil Hutan.29: 57 - 66.
Purwono, 2002. Penggunaan Pengukuran Brix Untuk Menduga Rendemen Nyata
Di Pabrik Gula Gula Putih Mataram, Lampung. Divisi R & D PG GPM.
Rhoshid, M., 2016. Pengaruh Temperatur Udara Terhadap Kinerja Tungku
Gasifikasi Tipe Downdraft Continue Dengan Pengisian Ulang 2 Kali.
Skripsi. Universitas Muhammadiyah, Surakarta.
61
Universitas Sumatera Utara
62
Rohsenow, W.M., & Harnett, J.P., 2001. Handbook of Heat Transfer. McGrawHill Book Company, Singapore.
Saptoadi, H., 2011. Bahan Bakar Padat Dari Bumi Indonesia Untuk Kemandirian
Dan Kesejahteraan Bangsa. UGM, Yogyakarta.
Santoso, 2010. Uji Sifat Minyak Pirolisis dan Uji Performasi. Skripsi. Universitas
Negeri Semarang, Semarang.
Sarker, M., Kabir A., Rashid, M.M., Molla, M., Mohammad, M., 2012. Waste
polyethylene
terephthalate
(PETE-1)
conversion
into
liquid
fuel.Fundamentals of Renewable Energy and Applications, 10: 101-143
Subramanian, P., 2000.Plastic recycling and waste management in the
US.Resource ConservationRecycle, 28 : 253-263.
Scott, D.S., Czernik, S.R., Piskorz, J., Radlein, 2000. Fast pyrolysis of plastic
wastes. Energy Fuels, 4:407-11
Siddiqui, M. N., and Redhwi, H. H., 2009. Pyrolysis of mixed plastic for the
recovery of useful products. Fuel Processing Technology. 90:545-552
Suastawa, I. N., Hermawan, dan Sembiring, A., 2000. Konstruksi dan Pengukuran
Kinerja Traktor Pertanian. Tesis. Teknik Pertanian Institut Pertanian
Bogor, Bogor.
Supriyono, 2011. Akuntansi Biaya, Pengumpulan dan Penentuan Harga Pokok.
BPFE, Yogyakarta.
Triana, N.W. dan Rochimoellah,M., 2002. Model Kinetika Reaksi Heterogen pada
Pirolisis. Prosiding Rekayasa Kimia dan Proses, UNDIP.
USU
,
2011.
Jenis
Jenis
Polimer.
repository.usu.ac.id/bitstream/123456789/33671/3/Chapter%20II.pdf
[21 Februari 2017 ]
Williams, P.T, Slaney, E., 2007. Analysis of products from the pyrolysis and
liquefaction of single plastics and waste plastic mixtures. Resource
Conservation Recycle, 51: 754-769 .
Wisudha, R. W., 2007. Prarancangan Pabrik Polypropylene dari propylene
kapasitas 150.000 ton per tahun. Disertasi. Universitas Muhamaddiyah
Surakarta.
Yoshioka, T., Grause, G., Eger, C., Kaminsky, W., Okuwaki, A., 2004. Pyrolysis
of polyethylene terephthalate in a fluidized bed plant.Polymer
Degradation and Stability, 86: 499-504.
Universitas Sumatera Utara
63
Zhang, G. H., Zhu, J. F., Okuwaki, A., 2007. Prospect and current status of
recycling waste plastics and technology for converting them into oil in
China. Resources, Conservation and Recycling. 50: 231-239
63
Universitas Sumatera Utara
DAFTAR PUSTAKA
Ahmad, Ekoyanto, P., dan Bambang A., 2011. Rancang Bangun Dan Uji
Performansi Tungku Keramik Berpipa Spiral Dengan Bahan Bakar Padat.
Skripsi. Universitas Brawijaya, Malang.
Akbar, A., Coniwanti, P., Paindoman, R., 2013. Pengaruh variabel waktu dan
temperatur terhadap pembuatan asap cair dari limbah kayu pelawan
(cyanometra cauliflora). Skripsi. Universitas Sriwijaya, Malang.
Angga, S., Sucipto, E., Sudarsono, I., 2016. Pengolahan Sampah Plastik dengan
Metoda Pirolisis menjadi Bahan Bakar Minyak. Skripsi. Politeknik Negeri
Bandung, Bandung.
Amiruddin, Sutopo, B., dan Rochmadi, 2012. Sistem Kontrol Suhu dan Laju
Pemanasan Alat Pirolisis. Universitas Gajah Mada, Yogyakarta.
Al-Salem, S.M., Lettieri, P., Baeyens, J., 2009. Recycling and Recovery These
solid plastic waste (PSW): a review.Waste Manage.29: 2625-2643
Aburiazaiza, A.S., Barakat, M.A., Miandad, R, Nizami, R., 2016. From the
catalytic pyrolysis of plastic waste.Energy Fuels, 5:407-423
Arabiourrutia, M., Elordi, G., Lopez, G., Borsella, E., Bilbao, J., Olazar, M.,
2012. Characterization of the waxes obtained by the pyrolysis of polyefin
plastics in a conical spouted bed reactor. Analytical and Applied Pyrolysis.
94 : 230-237
Bajus, M., Hájeková E., 2010. Thermal cracking of the model seven components
mixed plastics into oil/waxes.Petroleum & Coal. 52: 164-172
Bakkara, 2007. Pembuatan Asap Cair dari Tempurung Kelapa. Laporan
Penelitian, Jakarta.
Bazargan, A., Hui, C., McKay, G., 2013. Carbon Porous Than Plastic
Waste.PolymerScience, 25: 145-160.
Budian, A., 2004. Pengeringan Biological Sludge PT. Indonesia Toray Synthetics
dengan Menggunakan Dehydrator dan Sludge Drum Dryer. Skripsi.
Politeknik Negri Bandung, Bandung.
Budi, S. dan Ismanto, 2016. Pengolahan Sampah Plastik Jenis PP, PET dan PE
Menjadi Bahan Bakar Minyak dan Karakteristiknya. Skripsi. Universitas
Janabadra, Yogyakarta.
58
Universitas Sumatera Utara
Buekens, AG, Huang, H., 2008. Catalytic plastics cracking for recovery of
gasoline- range hydrocarbons from municipal plastic wastes. Resource
Conservation Recycle, 23: 163-181
Begley, T.H, Hollifield, H.C., 2009. High-performance liquid chromatographic
determi- nation of migrating polyethylene terephthalate oligomers in corn
oil.J Agric Food Chem, 38: 145-180
Brems,
A., Baeyens, J., Dewil, R., 2012. Recycling and recovery of postconsumer plastic solid waste in a European context. Thermal Science, 16:
669-685.
Cahyono, N., Mandala, P., Ma’arif, Sukarjo, Wardoyo, T., 2016. Pengaruh Suhu
terhadap Rendemen dan Nilai Kalor Minyak Hasil Pirolisis Sampah
Plastik. Skripsi. Jurnal Mekanika dan Sistem Termal, 1: 49-59
Chen, D., Yin, L., Wang, H., Dia, P., 2014.Pyrolysis technology for solid waste: a
review.Managing Waste. 34 : 2466-2486.
Darmadji, P, 2002. Dampak Limbah Polimer Terhadap Lingkungan. Universitas
Surabaya, Surabaya.
Darsam, 2012. Alat/ Mesin Penyuling. Departemen Pendidikan Institut Pertanian
Bogor, Bogor.
Daywin, F. J., R. G. Sitompul, dan Hidayat, 2008. Mesin-Mesin Budidaya
Pertanian di Lahan Kering. Graha Ilmu. Yogyakarta
Diez, MA, Melendi, S., Alvarez, R., Barriocanal, C., 2009.Recycled raw materials
waste plastic / oil mixture in cokemaking.Energy Fuel22: 88-101.
Engineering TB, 2008. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/flow-velocity-air-ductsd_388.html.[12 Maret 2017].
Engineering TB, 2009. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/thermal-conductivity-d_429.html
[12 Maret 2017].
Engineering TB, 2010. Recommended maximum air velocities in ventilationducts.
http://www.engineeringtoolbox.com/water-density-specificweightd_595.html.
[12 Maret 2017].
59
Universitas Sumatera Utara
Engineering TB, 2011. Recommended maximum air velocities in ventilation ducts.
http://www.engineeringtoolbox.com/metal-alloys-densities-d_50.html
[12 Maret 2017].
Gabe, F. A., 2015. Analisa Termal Pada Rancang Bangun Reaktor Pirolisis Untuk
Memproduksi Bahan Bakar Minyak Dari Limbah Plastik. Skripsi. Institut
Pertanian Bogor, Bogor.
Giatman, M., 2006. Ekonomi Teknik. PT. Raja Grafindo Persada, Jakarta.
Gug, J., Cacciola, D., Sobkowicz, M.J., 2015. Processing and properties of solid
fuel energy from municipal solid waste and recycled plastic. Energy Fuel,
35: 283-292
Haris dan Kresno, 2005.
Kehutanan, Bogor.
Arang Kayu. Badan Penelitian dan Pengembangan
Haygreen, J.G., Bowyer, J.L., and Schmulsky. R. 2003. Forest Product and Wood
Sciences an Introduction. Ames IOWA State, University Press.
Haryadi, S., 2015. Pengaruh Arah Aliran Air Pendingin Pada Kondensor
Terhadap Hasil Pengembunan Proses Pirolisis Limbah Plastik, [Skripsi].
Universitas Negeri Semarang, Semarang.
Holman, J. P, 2010. Heat Transfer, 10th Edition. Department of Mechanical
Engineering Southern Methodist University (US). McGraw-Hill.
Husnan, S., 2000. Manajemen Keuangan Teori dan Penerapan, Edisi Ketiga.
UPP AMP YKPN, Yogyakarta.
Jumaidi, S., 2014. Jenis- Jenis Polimer.
digilib.unila.ac.id/1969/7/BAB%20II.pdf
[21 Februari 2017]
Bab
II
Tinjauan
Pustaka.
Kato, K., Namura, S., Uematsu, H. 2002.Development of waste plastic recycling
process using the coke oven. Waste Manage, 42: 10-19
Kumar, S., Singh, R. K., 2011.Recovery of hydrocarbon liquids of high density
polyethylene waste by pyrolysis thermal.The European Refining
Technology Conference. 28: 659-667
Kurniawan, I., Martin, A., Mintarto, 2015. Rancang Bangun Kondenser pada
Pengering Beku Vakum. Skripsi. Fakultas Teknik, Universitas Riau.
Lettieri, P., Al-Salem S., 2011. Thermochemical treatment of plastic solid waste.
Waste, 22: 233-242.
Universitas Sumatera Utara
61
Lienhard IV JH, Lienhard V JH., 2003. A Heat Transfer Textbook, 3rd Edition.
Massachucetts (US), Phlogiston Press.
Mandatya, V., 2015. Rancang Bangun Alat Pengolahan Limbah Polimer
Pertanian. Skripsi. Universitas Sumatera Utara, Medan.
Meiriza, V.P.C., Priyo, R.E., Safitri, D.P., dan Widi, R.A., 2012. Polipropilena
(PP). Politeknik Negeri Semarang, Semarang.
Mujiarto, I., 2005. Sifat Dan Karakteristik Material Plastik Dan Bahan Aditif.
AMNI, Semarang.
McCabe, W., Smith, J., Harriott, P., 2005. Unit Operation of Chemical
Engineering, 7th edition. McGraw-Hill, Singapore.
Miskolczi, N., Bartha, L., Deak, G., Jover, B., 2004. Thermal degradation of
municipal plastic waste for production of fuel-like hydrocarbons.Polymer
Degradstab, 86: 357-466.
Miskolczi N., Nagy R., 2012. Hydrocarbons obtained by waste plastic pyrolysis:
comparative analysis of decomposition described by different kinetic
models. Fuel Processing Technology.104: 96-104
Nurhidayat, 2007. Sintesis Poliblend Antara Polistiren Dengan Pati Tapioka Serta
Karakteristiknya. Skripsi. Institut Teknologi Bandung, Bandung.
Onny,
2013.
Macam-macam
Heat
Exchanger.
http://artikel-teknologi.com/macam-macam-heat-exchanger-alat-penukarpanas-bagian-2/
[14 Agustus 2017].
Prima, 2011. Rancang Bangun Alat Pembuat Arang Kayu Skala Laboratorium
Kapasitas 15 Kg. Skripsi. Universitas Diponegoro, Semarang.
Purba, R. 2007. Analisa Biaya dan Manfaat. PT. Rineka Cipta, Jakarta.
Purnomo, H., 2004. Pengantar Teknik Industri. Graha Ilmu, Yogyakarta.
Purwanto, D. 2011. Arang dari Limbah Tempurung Kelapa Sawit. Jurnal
Penelitian Hasil Hutan.29: 57 - 66.
Purwono, 2002. Penggunaan Pengukuran Brix Untuk Menduga Rendemen Nyata
Di Pabrik Gula Gula Putih Mataram, Lampung. Divisi R & D PG GPM.
Rhoshid, M., 2016. Pengaruh Temperatur Udara Terhadap Kinerja Tungku
Gasifikasi Tipe Downdraft Continue Dengan Pengisian Ulang 2 Kali.
Skripsi. Universitas Muhammadiyah, Surakarta.
61
Universitas Sumatera Utara
62
Rohsenow, W.M., & Harnett, J.P., 2001. Handbook of Heat Transfer. McGrawHill Book Company, Singapore.
Saptoadi, H., 2011. Bahan Bakar Padat Dari Bumi Indonesia Untuk Kemandirian
Dan Kesejahteraan Bangsa. UGM, Yogyakarta.
Santoso, 2010. Uji Sifat Minyak Pirolisis dan Uji Performasi. Skripsi. Universitas
Negeri Semarang, Semarang.
Sarker, M., Kabir A., Rashid, M.M., Molla, M., Mohammad, M., 2012. Waste
polyethylene
terephthalate
(PETE-1)
conversion
into
liquid
fuel.Fundamentals of Renewable Energy and Applications, 10: 101-143
Subramanian, P., 2000.Plastic recycling and waste management in the
US.Resource ConservationRecycle, 28 : 253-263.
Scott, D.S., Czernik, S.R., Piskorz, J., Radlein, 2000. Fast pyrolysis of plastic
wastes. Energy Fuels, 4:407-11
Siddiqui, M. N., and Redhwi, H. H., 2009. Pyrolysis of mixed plastic for the
recovery of useful products. Fuel Processing Technology. 90:545-552
Suastawa, I. N., Hermawan, dan Sembiring, A., 2000. Konstruksi dan Pengukuran
Kinerja Traktor Pertanian. Tesis. Teknik Pertanian Institut Pertanian
Bogor, Bogor.
Supriyono, 2011. Akuntansi Biaya, Pengumpulan dan Penentuan Harga Pokok.
BPFE, Yogyakarta.
Triana, N.W. dan Rochimoellah,M., 2002. Model Kinetika Reaksi Heterogen pada
Pirolisis. Prosiding Rekayasa Kimia dan Proses, UNDIP.
USU
,
2011.
Jenis
Jenis
Polimer.
repository.usu.ac.id/bitstream/123456789/33671/3/Chapter%20II.pdf
[21 Februari 2017 ]
Williams, P.T, Slaney, E., 2007. Analysis of products from the pyrolysis and
liquefaction of single plastics and waste plastic mixtures. Resource
Conservation Recycle, 51: 754-769 .
Wisudha, R. W., 2007. Prarancangan Pabrik Polypropylene dari propylene
kapasitas 150.000 ton per tahun. Disertasi. Universitas Muhamaddiyah
Surakarta.
Yoshioka, T., Grause, G., Eger, C., Kaminsky, W., Okuwaki, A., 2004. Pyrolysis
of polyethylene terephthalate in a fluidized bed plant.Polymer
Degradation and Stability, 86: 499-504.
Universitas Sumatera Utara
63
Zhang, G. H., Zhu, J. F., Okuwaki, A., 2007. Prospect and current status of
recycling waste plastics and technology for converting them into oil in
China. Resources, Conservation and Recycling. 50: 231-239
63
Universitas Sumatera Utara