Penentuan Distribusi Ukuran Gelembung Air Dalam Kerosin Dengan Metode Pengapungan Batang (Bouyancy Weighing-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]
N. van der Tuuk Opedal, G. Sorland and J. Sjoblom, Methods for Droplet Size
Distribution Determination of Water in Oil Emulsions using Low-Field NMR,
Basic Principles of Diffusion Theory, Experiment and Application,7, 1-28,
2009.
[3]
F. B. Sprow, Distribution of Drop Size Produced in Turbulent Liquid-Liquid
Dispersion, Chemical Engineering Science, 22, 435 – 442, 1966.
[4]
Y. Mao, L. Yong, H. Tao, W. Shimin and X. Yiqian, In Situ Measurement of
Droplet Size Distribution by Light Scattering Method, Wuhan University
Journal of Natural Sciences, 3, 18-422, 1998.
[5]
G. J. W. Goudappel, J. P. M. van Duynhoven, and M. M. W. Mooren,
Measurement of Oil Droplet Size Distributions in Food Oil/Water Emulsions
by Time Domain Pulsed Field Gradient NMR, Journal of Colloid and Interface
Science 239, 535–542, 2001.
[6]
G. T. Vladisavlejevic dan H. Schubert, Preparation and Analysis of Oil in
Water Emulsions with a Narrow Droplet Size Distribution using Shirasu
Porous Glass (SPG) Membranes, Desalination, 144, 167-172, 2002.
[7]
V. K. Strokes and A. C. Harvey, Drop Size Distributions In Oil Water Mixtures
(Massachusetts : Foster – Miller Associates, Inc., 1973), hal 457-459
[8]
S. Odén, The size distribution of particles in soils and the experimental
methods of obtaining them, Soil Science, 19, 1–35, 1925.
[9]
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–
28, 1982.
[10] E. Obata and H. Watanabe, Measurement of particle sizes by fluidization,
Encyclopedia of Fluid Mechanics, vol. 4, Gulf Publishing, Houston, pp. 221–
236, 1986.
[11] 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.
32
Universitas Sumatera Utara
[12] E. Obata, Y. Ohira and M. Ohta, New measurement of particle size distribution
by buoyancy weighing–bar method, Powder Technology, 196, 163–168, 2009.
[13] 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.
[14] T. Allen, Particle Size Measurement, Fourth edition, Chapman and Hall,
London, pp. 345–355, 1990.
[15] 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.
[16] Rondang Tambun, Buku Ajar Teknologi Oleokimia, USU, Medan, 2006.
[17] 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.
[18] C. Barry Carter and M. Grant Norton. Cermaic Materials : Science and
Engineering. Springer, New York, 2013.
[19] 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 .
[20] T. Vitez and P. Travnicek, Study of Settling Velocity of Sand Particles Located
in Wastewater Treatment Plant. Actauniv. agric. et silvic. Mendel. Brun., 2011,
LIX, No. 1, pp. 249–254
[21] J. A. Boxall, C. A. Koh, E. D. Sloan, A. K. Sum and D. T. Wu, Measurement
and Calibration of Droplet Size Distributions in Water-in-Oil Emulsions by
Particle Video Microscope and a Focused Beam Reflectance Method, Ind. Eng.
Chem. Res. 49, 1412–1418, 2010.
[22] E. Jurado, V. Bravo, F. Camacho, J. M. Vicharia dan A. F. Arteaga, Estimation
of the distribution of droplet size, interfacial area and volume in emulsions,
Colloids and Surfaces A: Physicochem. Eng. Aspects, 295, 91–98, 2007.
[23] D.J. McClements, Food Emulsion : Principles, Practices, and Techniques,
Second Edition, (United States of America : CRC Press, 2005), hal. 5-6.
[24] M. Stewart dan K. Arnold, Emulsions and Oil Treating Equipment : Selection,
33
Universitas Sumatera Utara
Sizing and Troubleshooting, (Oxford : Gulf Publishing, 2009), hal. 116-117.
[25] J. Kinsella, Advances in Food and Nutrition Research, Volume : 33 (California
: Academic Press, Inc, 1989) , hal 169-171.
[26] E. O. Fridjonsson, B. F. Graham, M. Akhfash, E.F. May and M. L. Johns,
Optimized Droplet Sizing of Water-in-Crude Oil Emulsions Using Nuclear
Magnetic Resonance, Energy & Fuels, 28, 1756−1764, 2014.
[27] T. F. Tadros, Emulsion Science and Technology : A General Introduction
(Weinheim : Wiley-VCH, 2009), hal 1-3.
[28] B. P. Binks, Moders Aspects of Emulsion Science (United Kingdom : The
Royal Society of Chemistry, 1998), hal 2-3.
[29] J. Sjoblom, Encyclopedic Handbook of Emulsion Technology (New York :
Marcel Dekker, Inc, 2001), hal 1-2.
[30] R. Tambun, N. Pratama, Ely and F. Hanum, Measurement of Cement’s Particle
Size Distribution by The Bouyancy Weighing-Bar Method. Internat. J. Sci.
Eng., Vol. 10(2) 2016 : 74-77, April 2016.
[31] R. Tambun, k. Nakano, M. Shimadzu,, Y. Ohira and E. Obata, Sizes Influences
of Weighing Bar and Vessel in The Bouyancy Weighing-Bar Method on
Floating Particle Size Distribution Measurements.
34
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]
N. van der Tuuk Opedal, G. Sorland and J. Sjoblom, Methods for Droplet Size
Distribution Determination of Water in Oil Emulsions using Low-Field NMR,
Basic Principles of Diffusion Theory, Experiment and Application,7, 1-28,
2009.
[3]
F. B. Sprow, Distribution of Drop Size Produced in Turbulent Liquid-Liquid
Dispersion, Chemical Engineering Science, 22, 435 – 442, 1966.
[4]
Y. Mao, L. Yong, H. Tao, W. Shimin and X. Yiqian, In Situ Measurement of
Droplet Size Distribution by Light Scattering Method, Wuhan University
Journal of Natural Sciences, 3, 18-422, 1998.
[5]
G. J. W. Goudappel, J. P. M. van Duynhoven, and M. M. W. Mooren,
Measurement of Oil Droplet Size Distributions in Food Oil/Water Emulsions
by Time Domain Pulsed Field Gradient NMR, Journal of Colloid and Interface
Science 239, 535–542, 2001.
[6]
G. T. Vladisavlejevic dan H. Schubert, Preparation and Analysis of Oil in
Water Emulsions with a Narrow Droplet Size Distribution using Shirasu
Porous Glass (SPG) Membranes, Desalination, 144, 167-172, 2002.
[7]
V. K. Strokes and A. C. Harvey, Drop Size Distributions In Oil Water Mixtures
(Massachusetts : Foster – Miller Associates, Inc., 1973), hal 457-459
[8]
S. Odén, The size distribution of particles in soils and the experimental
methods of obtaining them, Soil Science, 19, 1–35, 1925.
[9]
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–
28, 1982.
[10] E. Obata and H. Watanabe, Measurement of particle sizes by fluidization,
Encyclopedia of Fluid Mechanics, vol. 4, Gulf Publishing, Houston, pp. 221–
236, 1986.
[11] 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.
32
Universitas Sumatera Utara
[12] E. Obata, Y. Ohira and M. Ohta, New measurement of particle size distribution
by buoyancy weighing–bar method, Powder Technology, 196, 163–168, 2009.
[13] 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.
[14] T. Allen, Particle Size Measurement, Fourth edition, Chapman and Hall,
London, pp. 345–355, 1990.
[15] 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.
[16] Rondang Tambun, Buku Ajar Teknologi Oleokimia, USU, Medan, 2006.
[17] 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.
[18] C. Barry Carter and M. Grant Norton. Cermaic Materials : Science and
Engineering. Springer, New York, 2013.
[19] 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 .
[20] T. Vitez and P. Travnicek, Study of Settling Velocity of Sand Particles Located
in Wastewater Treatment Plant. Actauniv. agric. et silvic. Mendel. Brun., 2011,
LIX, No. 1, pp. 249–254
[21] J. A. Boxall, C. A. Koh, E. D. Sloan, A. K. Sum and D. T. Wu, Measurement
and Calibration of Droplet Size Distributions in Water-in-Oil Emulsions by
Particle Video Microscope and a Focused Beam Reflectance Method, Ind. Eng.
Chem. Res. 49, 1412–1418, 2010.
[22] E. Jurado, V. Bravo, F. Camacho, J. M. Vicharia dan A. F. Arteaga, Estimation
of the distribution of droplet size, interfacial area and volume in emulsions,
Colloids and Surfaces A: Physicochem. Eng. Aspects, 295, 91–98, 2007.
[23] D.J. McClements, Food Emulsion : Principles, Practices, and Techniques,
Second Edition, (United States of America : CRC Press, 2005), hal. 5-6.
[24] M. Stewart dan K. Arnold, Emulsions and Oil Treating Equipment : Selection,
33
Universitas Sumatera Utara
Sizing and Troubleshooting, (Oxford : Gulf Publishing, 2009), hal. 116-117.
[25] J. Kinsella, Advances in Food and Nutrition Research, Volume : 33 (California
: Academic Press, Inc, 1989) , hal 169-171.
[26] E. O. Fridjonsson, B. F. Graham, M. Akhfash, E.F. May and M. L. Johns,
Optimized Droplet Sizing of Water-in-Crude Oil Emulsions Using Nuclear
Magnetic Resonance, Energy & Fuels, 28, 1756−1764, 2014.
[27] T. F. Tadros, Emulsion Science and Technology : A General Introduction
(Weinheim : Wiley-VCH, 2009), hal 1-3.
[28] B. P. Binks, Moders Aspects of Emulsion Science (United Kingdom : The
Royal Society of Chemistry, 1998), hal 2-3.
[29] J. Sjoblom, Encyclopedic Handbook of Emulsion Technology (New York :
Marcel Dekker, Inc, 2001), hal 1-2.
[30] R. Tambun, N. Pratama, Ely and F. Hanum, Measurement of Cement’s Particle
Size Distribution by The Bouyancy Weighing-Bar Method. Internat. J. Sci.
Eng., Vol. 10(2) 2016 : 74-77, April 2016.
[31] R. Tambun, k. Nakano, M. Shimadzu,, Y. Ohira and E. Obata, Sizes Influences
of Weighing Bar and Vessel in The Bouyancy Weighing-Bar Method on
Floating Particle Size Distribution Measurements.
34
Universitas Sumatera Utara