Pengaruh Konsentrasi Terhadap Pemisahan Biodiesel dan Gliserol Serta Kajian Awal Penentuan Gelembung Dengan Metode Pengapungan Batang (Buoyancy Weighin-Bar Method)
DAFTAR PUSTAKA
[1]
E. Obata, Y. Ohira and M. Ohta, New measurement of particle size distribution
by buoyancy weighing–bar method, Powder Technology, 196, 163–168, 2009
[2] M. Kuriyama, H. Tokanai and E. Harada, Maximum stable drop size of
pseudoplastic dispersed–phase in agitation dispersion, Kagaku Kogaku
Ronbunshu, 26, 745–748, 2000.
[3] R. Tambun, K. Nakano, M. Shimadzu, Y. Ohira and E. Obata; Sizes Influences
of Weighing Bar and Vessel in the Buoyancy Weighing-Bar Method on Floating
Particle Size Distribution Measurements, Advanced Powder Technology, 23,
855-860, 2012.
[4] Y. Ohira, R. Tambun, M. Shimadzu and E. Obata, Buoyancy weighing-bar
method: A particle size distribution measurement using new settling
[5]
[6]
[7]
[8]
[9]
[10]
[11]
[12]
[13]
method,Journal of the Sedimentological Society of Japan, 69, 17-26, 2010.
H. Minoshima, K. Matsushima and K. Shinohara, Experimental study on size
distribution of granules prepared by spray drying: the case of a dispersed slurry
containing binder, Kagaku Kogaku Ronbunshu, 31, 102–107, 2005.
S. Saka and D. Kusdiana, Biodiesel Fuel From Oil as Prepared in Supercritical
Methanol, ,Journal of the fuel, 80, 225-231, 2001.
Fajar. Berkah dan Drajat Indah. Kajian Eksperimental Kecepatan Pemisahan
(Velocity Creaming) Biodiesel/Gliserin Terhadap Konsentrasi Tetesan (Droplet
Consentration), Jurnal Universitas Diponegoro, Vol.15, No:2, 2013.
E. Obata and K. Ando, Particle size measurements by fluidization: From laminar
flow region to the turbulent flow region, Encyclopedia of Fluid Mechanics,
Supplement 2, Gulf Publishing, Houston, pp. 169–189, 1993.
Y. Ohira, H. Takahashi, M. Takahashi and K. Ando, Wall heat transfer in a
double-tube coal-slurry bubble column, Kagaku Kogaku Ronbunshu, 30, 360–
367, 2004
Rondang Tambun, Buku Ajar Teknologi Oleokimia, USU, Medan, 2006.
S. Odén, The size distribution of particles in soils and the experimental methods
of obtaining them, Soil Science, 19, 1–35, 1925.
S. Imam, Buchari, M. Bachri Amran dan A. Sulaiman, Ekstraksi dan Pemisahan
Penisilin G dan Fenilasetat dengan Teknik Membran Cair Emulsi, Jurusan
Kimia, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Negeri
Jakarta : Jakarta, 2007.
E. Obata, H. Watanabe and N. Endo, Measurement of size and size distribution
of particles by fluidization, Journal of Chemical Engineering of Japan, 15, 23–
30
Universitas Sumatera Utara
[14]
[15]
[16]
[17]
[18]
[19]
[20]
[21]
[22]
[23]
[24]
28, 1982.
R. Tambun, K. Nakano, M. Shimadzu, Y. Ohira and E. Obata; Sizes Influences
of Weighing Bar and Vessel in the Buoyancy Weighing-Bar Method on Floating
Particle Size Distribution Measurements, Advanced Powder Technology, 23,
855-860, 2012.
R. Tambun, Y. Ohira and E. Obata, Graphical analogy of particle size
distribution among Andreasen pipette, settling balance, fluidization–curve and
buoyancy weighing–bar methods, Proceeding of the 13th Asia Pacific
Confederation of Chemical Engineering Congress, Taipei, Taiwan, 2010.
R. Tambun, T. Motoi, M. Shimadzu, Y. Ohira and E. Obata, Size distribution
measurement of floating particles in the Allen region by a buoyancy weighing–
bar method, Advanced Powder Technology, 22, 548–552, 2011 .
Ben. Elfi Sahlan, Muslim Suardi, T. Chazraj Chalid dan Tomi Yulianto, Optimasi
Nanoemulsi Minyak Kelapa Sawit (Palm Oil) Menggunakan Sukrosa
Monoester, Prosiding Seminar Nasional Perkembangan Terkini Sains Farmasi
dan Klinik III, ISSN: 2339-2592, 2013.
K. Fukui, H. Yoshida, M. Shiba and Y. Tokunaga, Investigation about data
reduction and sedimentation distance of sedimentation balance method, Journal
of Chemical Engineering of Japan, 33, 393–399, 2000.
Society of Chemical Engineering of Japan, Chemical Engineering Handbook, 5th
edition, Maruzen, Tokyo, Japan, pp. 224–231, 1988.
M. Arakawa, G. Shimomura, A. Imamura, N. Yazawa, T. Yokoyama and N.
Kaya, A New apparatus for measuring particle size distribution based on
centrifugal sedimentation, Journal of the Society of Materials Science of Japan,
33, 1141–1145, 1984.
T. Motoi, Y. Ohira and E. Obata, Measurement of the floating particle size
distribution by buoyancy weighing–bar method, Powder Technology, 201, 283–
288, 2010.
T. Allen, Particle Size Measurement, Fourth edition, Chapman and Hall,
London, pp. 345–355, 1990.
Shahidi, F (editor), Bailey’s Industrial Oil and Fat Product, Volume 1-6, Edisi ke6, A Wiley Interscience Publication, John Wiley & Sons, New York, 2005.
Standar Nasional Indonesia. “Biodiesel”. Badan Standardisasi Nasional. 2006.
31
Universitas Sumatera Utara
[1]
E. Obata, Y. Ohira and M. Ohta, New measurement of particle size distribution
by buoyancy weighing–bar method, Powder Technology, 196, 163–168, 2009
[2] M. Kuriyama, H. Tokanai and E. Harada, Maximum stable drop size of
pseudoplastic dispersed–phase in agitation dispersion, Kagaku Kogaku
Ronbunshu, 26, 745–748, 2000.
[3] R. Tambun, K. Nakano, M. Shimadzu, Y. Ohira and E. Obata; Sizes Influences
of Weighing Bar and Vessel in the Buoyancy Weighing-Bar Method on Floating
Particle Size Distribution Measurements, Advanced Powder Technology, 23,
855-860, 2012.
[4] Y. Ohira, R. Tambun, M. Shimadzu and E. Obata, Buoyancy weighing-bar
method: A particle size distribution measurement using new settling
[5]
[6]
[7]
[8]
[9]
[10]
[11]
[12]
[13]
method,Journal of the Sedimentological Society of Japan, 69, 17-26, 2010.
H. Minoshima, K. Matsushima and K. Shinohara, Experimental study on size
distribution of granules prepared by spray drying: the case of a dispersed slurry
containing binder, Kagaku Kogaku Ronbunshu, 31, 102–107, 2005.
S. Saka and D. Kusdiana, Biodiesel Fuel From Oil as Prepared in Supercritical
Methanol, ,Journal of the fuel, 80, 225-231, 2001.
Fajar. Berkah dan Drajat Indah. Kajian Eksperimental Kecepatan Pemisahan
(Velocity Creaming) Biodiesel/Gliserin Terhadap Konsentrasi Tetesan (Droplet
Consentration), Jurnal Universitas Diponegoro, Vol.15, No:2, 2013.
E. Obata and K. Ando, Particle size measurements by fluidization: From laminar
flow region to the turbulent flow region, Encyclopedia of Fluid Mechanics,
Supplement 2, Gulf Publishing, Houston, pp. 169–189, 1993.
Y. Ohira, H. Takahashi, M. Takahashi and K. Ando, Wall heat transfer in a
double-tube coal-slurry bubble column, Kagaku Kogaku Ronbunshu, 30, 360–
367, 2004
Rondang Tambun, Buku Ajar Teknologi Oleokimia, USU, Medan, 2006.
S. Odén, The size distribution of particles in soils and the experimental methods
of obtaining them, Soil Science, 19, 1–35, 1925.
S. Imam, Buchari, M. Bachri Amran dan A. Sulaiman, Ekstraksi dan Pemisahan
Penisilin G dan Fenilasetat dengan Teknik Membran Cair Emulsi, Jurusan
Kimia, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Negeri
Jakarta : Jakarta, 2007.
E. Obata, H. Watanabe and N. Endo, Measurement of size and size distribution
of particles by fluidization, Journal of Chemical Engineering of Japan, 15, 23–
30
Universitas Sumatera Utara
[14]
[15]
[16]
[17]
[18]
[19]
[20]
[21]
[22]
[23]
[24]
28, 1982.
R. Tambun, K. Nakano, M. Shimadzu, Y. Ohira and E. Obata; Sizes Influences
of Weighing Bar and Vessel in the Buoyancy Weighing-Bar Method on Floating
Particle Size Distribution Measurements, Advanced Powder Technology, 23,
855-860, 2012.
R. Tambun, Y. Ohira and E. Obata, Graphical analogy of particle size
distribution among Andreasen pipette, settling balance, fluidization–curve and
buoyancy weighing–bar methods, Proceeding of the 13th Asia Pacific
Confederation of Chemical Engineering Congress, Taipei, Taiwan, 2010.
R. Tambun, T. Motoi, M. Shimadzu, Y. Ohira and E. Obata, Size distribution
measurement of floating particles in the Allen region by a buoyancy weighing–
bar method, Advanced Powder Technology, 22, 548–552, 2011 .
Ben. Elfi Sahlan, Muslim Suardi, T. Chazraj Chalid dan Tomi Yulianto, Optimasi
Nanoemulsi Minyak Kelapa Sawit (Palm Oil) Menggunakan Sukrosa
Monoester, Prosiding Seminar Nasional Perkembangan Terkini Sains Farmasi
dan Klinik III, ISSN: 2339-2592, 2013.
K. Fukui, H. Yoshida, M. Shiba and Y. Tokunaga, Investigation about data
reduction and sedimentation distance of sedimentation balance method, Journal
of Chemical Engineering of Japan, 33, 393–399, 2000.
Society of Chemical Engineering of Japan, Chemical Engineering Handbook, 5th
edition, Maruzen, Tokyo, Japan, pp. 224–231, 1988.
M. Arakawa, G. Shimomura, A. Imamura, N. Yazawa, T. Yokoyama and N.
Kaya, A New apparatus for measuring particle size distribution based on
centrifugal sedimentation, Journal of the Society of Materials Science of Japan,
33, 1141–1145, 1984.
T. Motoi, Y. Ohira and E. Obata, Measurement of the floating particle size
distribution by buoyancy weighing–bar method, Powder Technology, 201, 283–
288, 2010.
T. Allen, Particle Size Measurement, Fourth edition, Chapman and Hall,
London, pp. 345–355, 1990.
Shahidi, F (editor), Bailey’s Industrial Oil and Fat Product, Volume 1-6, Edisi ke6, A Wiley Interscience Publication, John Wiley & Sons, New York, 2005.
Standar Nasional Indonesia. “Biodiesel”. Badan Standardisasi Nasional. 2006.
31
Universitas Sumatera Utara