36

DAFTAR PUSTAKA

[1] R. Tambun, K. Nakano, M. Shimadzu, Y. Ohira and E. Obata, “Definition of the new mean particle size based on the settling velocity in liquid”, Journal of Chemical Engineering of Japan, 45, 2012, hal. 279-284.

[2] E. Jurado, V. Bravo, F. Camacho, J.M. Vicaria and A.F. Arteaga, “Estimation of the distribution of droplet size, interfacial area and volume in emulsions”, Colloids and surfaces, 295, 2007, hal. 91-98.

[3] A. Rezvanpour, R. Roostaazad, M. Hesampour, M. Nystrom and C. Ghotbi, “Effective factors in the treatment of kerosene–water emulsion by using UF membranes”, Journal of Hazardous Materials, 161, 2009, hal. 1216-1224. [4] F. B. Sprow, Distribution of Drop Size Produced in Turbulent Liquid-Liquid

Dispersion, Chemical Engineering Science, 22, 435 – 442, 1966.

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[9] S. Odén, “The size distribution of particles in soils and the experimental methods of obtaining them”, Soil Science, 19, 1925, hal. 1-35.

[10] E. Obata, H. Watanabe and N. Endo, “Measurement of size and size distribution of particles by fluidization”, Journal of Chemical Engineering of Japan, 15, 1928, hal. 23-28.

37

[11] E. Obata and H. Watanabe, “Measurement of particle sizes by fluidization, Encyclopedia of Fluid Mechanics”, vol. 4 (Houston : Gulf Publishing, 1986), hal. 221-236.

[12] 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 (Houston : Gulf Publishing, 1993), hal. 169-189. [13] C. Ghotbi, R. Roostaazad, A. Rezvanpour, M. Hesampour and M. Nystrom,

“Effective Factors in The Treatment of Kerosene – Water Emulsion by Using UF Membranes”, Journal of Hazardous Materials, 161, 2009, hal. 1216 – 1224.

[14] T. Motoi, Y. Ohira and E. Obata, “Measurement of the floating particle size distribution by buoyancy weighing–bar method”, Powder Technology, 201, 2010, hal. 283-288.

[15] 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, 2012, hal. 855-860.

[16] T. Allen, Particle Size Measurement, Fourth Edition, (London : Chapman and Hall, 1990), hal. 345-355.

[17] E. Obata, Y. Ohira and M. Ohta, “New measurement of particle size distribution by buoyancy weighing-bar method”, Powder Technology, 196, 2009, hal. 163-168.

[18] 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, 2011, hal. 548-552

[19] Y. Ohira, K. Furukawa, R.Tambun, M. Shimadzu dan E. Obata, Bouyancy Weighing-Bar Method: A Particle Size Distribution Meaasurement using New

Settling Method, Journalof the Sedimentological Society of Japan, 69,17-26,

2010.

[20] D.J. McClements, Food Emulsion : Principles, Practices, and Techniques, Second Edition, (United States of America : CRC Press, 2005), hal. 5-6.

[21] D.H.F. Liu and B.G. Lipták, Environmental Engineers’ Handbook, (Florida :

38 CRC Press, 1999).

[22] T.K.Ghosh and B.R. Jasti, Theory and practice of contemporary pharmaceutics, (Florida : CRC Press, 2005), hal. 185,190.

[23] F.L.Calderon, V. Schmitt and J. Bibette, Emulsion science : basic principles, Second Edition, (Springer, 2007), hal. 5.

[24] S. Maaß, A. Ga¨ bler, A. Zaccone, A. R. Paschedag and M. Kraume, Experimental investigations and modelling of breakage phenomena in stirred

liquid/liquid systems, Chemical Engineering Research and Design, 85 (A5),

2007, hal. 703-709.

[25] M. Stewart dan K. Arnold, Emulsions and Oil Treating Equipment : Selection, Sizing and Troubleshooting, (oxford : Gulf Publishing, 2009), hal. 116-117.

[26] S.T. Beckett, Physico-Chemical Aspects of Food Processing, (Glasgow : Blackie Academic & Professional, 1995), hal. 411-412.

[27] M.D.Luque de Castro and F.P Capote, Analytical applications of ultrasound, First edition, (Oxford : Elsevier, 2007), hal : 371

[28] S. Maaß, N. Paul and M. Kraume, “Influence of the dispersed phase fraction on experimental and predicted drop size distributions in breakage dominated stirred systems”, Chemical Engineering Science, 76, 2012, hal.140-153

[29] D.J. McClements, Food Emulsion : Principles, Practices, and Techniques, Second Edition, (United States of America : CRC Press, 2005), hal. 5-6.

[30] C. Barry Carter and M. Grant Norton. Cermaic Materials : Science and Engineering. Springer, New York, 2013.

[31] 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