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1.Some Aspects of the Streaming Potential of Concentrated
Emulsions
Journal of Colloid and Interface Science, Vol. 48, No. 3,
September 1974, s. 523-524
2.Solubilization of Drugs in Microemulsions as Studied by
Dielectric Spectroscopy
Skodvin, T., Sjøblom, J., Saeten, J.O.
Journal of Colloid and Interface Science 155, pp. 392-401
3.Frictional Pressure Loss for Stable Oil-Water Emulsions
in Pipeflow
Kvandal, H., Søntvedt, T.
Two-Phase Flow Modelling and Experimentation 1995, pp. 601-608
4.Stability of Water-in-Crude Oil Emulsions: Role Played by
the State of Solvation of Asphaltenes and by Waxes
Mouraille, O., Skodvin, T., Sjøblom, J., Peytavy, J.-L.
J. Dispersion Science and Technology, 19 (2&3), pp. 339-367
5.Dielectric Spectroscopy on W/O Emulsions under Influence
of Shear Forces
Skodvin, T., Sjøblom, J.
Colloid & Polymer Science, Vol. 274, No. 8, 1996, pp. 754-762
1.A Turbulent Diffusion Model for Particle Dispersion and
Deposition in Horizontal Tube Flow
Mols, B., Oliemans, R.V.A.
Int. J. Multiphase Flow, Vol. 24, No. 1, pp. 55-75, 1998
2.Flow of Concentrated Non-Newtonian Slurries: 1. Friction
Losses in Laminar, Turbulent and Transition Flow through Straight
Pipe. 2. Friction Losses in Bends, Fittings, Valves and Venturi
Meters.
Turian, R.M., Ma, T.-W., Hsu, F.-L., Sung, D.-J.
Int. J. Multiphase Flow, Vol. 24, No 2, pp. 225-242 & 243-269,
1998
3.Multiphase Flow in Polymer Processing
Chang Dae Han
Academic Press, 1981
4.Excerpt from a Thesis Called 'Pipeline Flows of Coarse
Particle Slurries'
Gillies, R.G.
University of Saskatchewan, 1993, pp 38-55
5.Hydraulic Conveying of Solids in Horizontal Pipes
Newitt, D.M., Richardson, J.F., Abbott, M., Turtle, R.B.
Trans. Instn Chem. Engrs, Vol. 33, 1995, pp. 93-110
6.Behaviour of Pseudoplastic Slurries in Pipe Flow
Kazanskij, I., Mathias, H.J., Luck, K.
Hydrotransport 5, May 1978, paper C3, pp. 35-48
7.Scale-up Effects in Hydraulic Transport Theory and
Practice
Kazanskij, I.
Hydrotransport 5, May 1978, paper B3, pp. 47-79
8.Low Reynolds Number Turbulent Pipeline Flow of
Pseudohomogenous Slurries
Hanks, R.W.,
Hydrotransport 5, May 1978, paper C2, pp. 23-34
9.Effect of Added Fine Particles on Flow Properties of
Settling Slurries
Hisamitsu, N., Shoji, Y., Kosugi, S.
Hydrotransport 5, May 1978, paper D3, pp. 29-50
10.Hydraulic Transport of Solids in Special Pipes
Kuzuhara, S., Shakouchi,T.
Hydrotransport 5, May 1978, paper H3, pp. 37-50
11.To the Critical Velocity of Heterogenous Hydraulic
Transport
Goedde, E.
Hydrotransport 5, May 1978, paper B4, pp. 81-98
12.Experimental Work on the Transportation of Solid-Liquid
Mixtures through Pipelines and Centrifugal Pumps
Wiedenroth, W.
Hydrotransport 5, May 1978, paper A2, pp. 13-36
1.A Generalised Correlation for Friction Head Losses of
Settling Mixtures in Horizontal Smooth Pipelines
Lazarus, J.H., Neilson, I.D.
Hydrotransport 5, May 1978, paper B1, pp. 1-32
2.Head Loss Reduction by Gas Injection for Highly Shear-Thinning
Suspensions in Horizontal Pipe Flow
Heywood, N.I., Richardson, J.F.
Hydrotransport 5, May 1978, paper C1, pp. 1-22
3.Pressure Loss of Pseudo-Plastic Fluid Flow Containing
Coarse Particles in a Pipe
Masuyama, T., Kawashima, T., Noda, K.
Hydrotransport 5, May 1978, paper D1, pp. 1-14
4.Hydraulic Transportation in a Segmented Pipe
Sauermann, H.B.,
Hydrotransport 5, May 1978, paper A4, pp. 47-60
5.Flow of Solid-Liquid Mixtures in Inclined Pipes
Doron, P., Simkhis, M., Barnea, D.
Int. J. Multiphase Flow, Vol. 23, No. 2, pp. 313-323, 1997
6.Velocity Distribution and Pressure Drop of Heterogenously
Suspended Flow in Hydraulic Transport through a Horizontal Pipe
Ayukawa, K.
Hydrotransport 1, Sept. 1970, paper F3, pp. 33-43
7.A Guide to Slurry Pipeline Systems
Baker, P.J., Jackobs, B.E.A., Bonnington, S.T.
Published by BHRA Fluid Engineering 1979
8.From: 'Solid-Liquid Flow, Slurry Pipeline Transportation':
Slurry Pipeline Design
Wasp, E.J., Kennej, J.P, Gandhi, R.L.
Trans Tech Publications 1977, 1st ed., pp. 9-32
9.Basic Relationships of the Transportation of Solids in
Pipes - Experimental Research
Durand, R.
pp. 90-103
10.A New Laminar-Turbulent-Transition Criterion for Yield-Psudoplastic
Fluids
Desouky, S. E.-D. M, Al-Awad, M.N.
11.Turbulent Pipe Flow of Power-Law Fluids
Malin, M.R.
Int. Comm. Heat Mass Transfer, Vol. 24, No. 7, 1997, pp. 977-988
12.Pipe Flow Measurements of a Transparent Non-Newtonian
Slurry
Park, J. T., Mannheimer, R.J.
Grimley, T.A.
1.Studie av Transportegenskaper til Granulært Hydrat ved
Hjelp av Olga
Aarvåg, Morten
Hovedoppgave, Høsten 1994, Institutt for Kuldeteknikk, NTH,
Universitetet i Trondheim.
2.Rheology of Fresh Cement-Based Grouts
Håkansson, U.
Doctoral Thesis, Stockholm, Sweden 1993, Royal Institute of
Technology
3.Tracer Dispersion in Power Law Fluids Flow through Porous
Media: Evidence og a Cross-over from a Logarithmic to a Power Law
Behaviour
Chaplain, V., Allain, C., Hulin, J.P.
4.Tracer Dispersion in a Polymer Solution Flowing through a
Double Porosity Porous Medium
Paterson, A., d'Onofrio, Allain, C., Hulin, J.P., Rosen, M.,
Gauthier, C.
J. Phys. II France 6, 1996, pp. 1639-1654
5.Prediction of Fluid Mixture Transport Properties by
Molecular Dynamics
Dysthe, D.K., Fuchs, A.H., Rousseau, B.
6.Taylor Dispersion in a Polymer Solution Flowing in a
Capillary Tube
Vartuli, M., Hulin, J.P., Daccord, G.
AIChe Journal, Vol. 41, No. 7, July 1995, pp. 1622-1627
7.Laminar Transport of Solid Particles Suspended in Liquids
Schaflinger, U.
pp. 162-185
8.The Flow of Muds, Sludges, and Suspensions in Circular
Pipe
Caldwell, D.H., Babbitt, H.E.
Presented at the New Orleans, La., Meeting, December 1940, pp.
237-266
9.Particle Motions near the Bottom in Turbulent Flow in an
Open Channel. Part 2
Sumer, M., Deigaard, R.
J. Fluid Mech., Vol. 109, 1981, pp. 311-337
10.Research on Salt Slurry Carrier Equipped with Hydraulic
Unloading Apparatus
Matsuno, Y.; Shibata, K.
Technical Review, Sept 1970, pp. 68-80
1.The Measurement of Amplitude and Phase in Oscillatory Fluid
Flow in a Tube
Harris, J., Maheshwari, R.
Journal of Physics E: Scientific Instruments, Vol.4, 1971, pp.
973-976
2.Sketch for a History of Constitutive Relations
Truesdell, C.
3.Explicit Pressure Drop - Flow Rate Solution for Non-Newtonian
Fluids in Laminar Flow
Aadnøy, B.S., Ravnøy, J.M.
Working Papers from Rogaland University Center, No. 129, 1991
4.Comparison and Conversion of Viscosity and DP-Values
Determined by Different Methods
Sithola, H., Kyrklund, B., Laamanen, L., Palenius, I.
Paper and Timber, No. 45, 1963, 4a, pp. 225-227 & 229-232
5.A Novel Balanced Beam Tube Viscometer and the Rheological
Characterisation of High Concentration Fly Ash Slurries
Lazarus, J.H., Sive, A.W.
9th Int. Conf. on the Hydraulic Transport of Solids in Pipes, Oct.
1984, paper E1, pp. 207-226
6.Comparative Rheological Characterisation Using a Balanced
Beam Tube Viscometer and Rotary Viscometer
Lazarus, J.H., Slatter, P.T.
10th Int. Conf. on the Hydraulic Transport of Solids in Pipes,
Oct. 1986, paper J2, pp. 291-302
7.On the Viscosity of a Concentrated Suspension of Solid
Spheres
FRankel, N.A., Acrivos, A.
Chemical Engineering Science, Vol. 22, 1967, pp. 847-853
8.Further Observations on the Rheological Behaviour of
Dense Suspension
Cheng, D.C.-H.
Powder Technlolgy, Vol. 37, 1984, pp. 255-237
9.Shear Viscosity of Settling Suspensions
Ferrini, F., Ercolani, D., de Cindio, B., Nicodemo, L. Nicolais,
L., Ranaudo, S.
Reol. Acta 18, 1979, 289-296
10.Bimodal Model of Slurry Viscosity with Application to
Coal-Slurries. Part 2. High Shear Limit Behaviour
Sengun, M.Z.
Probstein, R.F.
11.Transport Characteristics of Suspension: VIII. A Note on
the Viscosity of Newtonian Suspensions of Uniform Spherical
Particles
Thomas, D.G.
Journal of Colloid Science, Vol. 20, 1965, pp. 267-277
12.The Rheology of Particuate Suspensions - a Review of the
Previous work
Laapas, H.
Chapter 4 from a thesis for the degree of Doctor of Technology
entitled 'Measurement and Estimation of the Rheological
Parameters of som Mineral Slurries', the Helsinki University of
Technology, 1983
1.Explicit Formulas for Slip and Fluidity
Mooney, Melvin
J. og Rheology, Vol. 2, No. 2, 1931, pp. 210-222
2.On the Measurement of the Relative Viscosity of
Suspensions
Acrivos, A.; Fan, X.; Mauri, R.
J. of Rheology, 38 (5), 1994, pp. 1285-1296
3.Apparent Wall Slip Velocity of Coefficients in
Concentrated Suspensions of Noncolloidal Particles
Jana, S.C.; Kapoor, B.; Acrivos, A.
J. og Rheology, 39 (6), 1995, pp. 1123-1132
4.Rheology of Monodisperse Latices
Krieger, I.M.
Advan. Colloid Interface Sci., 3, 1972, pp. 111-126
5.The Sedimentation Stability and Viscosity of Coal Oil
Dispersion
Ogden, I.K.; Rutter, P.R.
Colloids and Surfaces, 8, 1984, pp. 249-259
6.Rheology and Stability of Magnetite Dense Media
Klein, B.
University of British Columbia, 1992
7.Über die von der molekularkinetischen Theorie der Warme
geforderte Bewegung von in ruhenden Flussigkeiten suspendierten
Teilchen
Einstein, Albert
Ann. Phys, 17, 1905, pp. 549-560
8.Zur Theorie der Brownschen Bewegung
Einstein, Albert
9.Some Observations on the Rheological Behaviour of Dense
Suspensions
Cheng, D.C.-H.; Richmond, R.A.
Rheol. Acta 17, 1978, pp. 446-453
10.The Fractal Concept in the Rheology of Concentrated
Suspensions
Mills, P.; Snabre, P.
Progress and Trends in Rheology II, 1998, pp. 105-108
11.Improved pressure drop/flow rate equation for non-newtonian
fluids in laminar flow
Bernt S. Aadnøy and Jarle
M. Ravnøy
Journal of Petroleum Science and Engineering 11, 261-266,
1994
1.Pilot Plant Test of CWM Transportation at WACOTEC in 1986
Ishihara, T., Takahashi, K., Tanaka, E., Nakabayashi, Y.
Proceedings of the Twelfth International Conference on Slurry
Technology, March 1987, pp. 13-20
2.Ship TransportationTest of CWM
Nakabayashi, Y., Itai, M., Kano, K., Soma, H., Nagamori, S
Proceedings of the Twelfth International Conference on Slurry
Technology, March 1987, pp. 231-237
3.Development of a Coal Feeding Process in the Gasification
of Coal
Usui, H.
Energy Conversion and Utilization with High Efficiency, Subarea B:
Conversion of Various Resources to Energy, Dec. 1990, pp. 127-
132
4.Storage and Transportation of Coal Water Mixtures
Usui, H., Saeki, T., Mori, T.
5th Int. Conf. on Bulk Materials Storage, Handling and
Transportation, July 1995, pp. 39- 46
5.Experience of Com Delivery
Kaji, S.
Japan Com Company Ltd, Shinabashi 1-Chome, Minato-Ku, Tokyo,
Japan, No. 37, pp. 803-812
6.Research on Slurry Loading/Unloading of Coal Vessels in
Japan
Kawashima, T., Tejima, S., Nagata, K.
Mining Engineering, April 1996, pp. 261-265
7.Transport Properties of Coal-Oil Slurries
Low, G.S., Bhattacharya, S.N., Tiu, C.
Paper from the Department of Chemical Engineering, Monash
University, Clayton, Victoria 3168, Australia.
8.Coarse Coal Slurry Loading System
From Hitachi Zosen News No. 108
pp. 42-43
9.Slurry Eductor with Peripheral Nozzles for Coal Handling
Ng, K.L., Thompson, R.V.,
IMAS 89, Applications of New Technology in Shipping, May 1989,
Paper 16, pp. 147-158
10.Coal Shiploading - the Future to 2000
Wang, G.S.C.,
Coal-Trade Transportation & Handling, Vol 1, 1981
1.A Cost Effective Method for Pumping High Solids Slurries
Zoborowski, M.E.
World Pumps, Sept. 1986, Product Focus, pp. 260-261
2.The Selection of Pumps for Slurries and Pastes
Wonnacott, G.
BHR Group Conference Series, 1993, 6, pp. 91-117
3.The Pumping of Pseudo-Homogenous, Shear-Thinning
Suspensions Using the Air-Lift Principle
Heywood, N.I., Charles, M.E.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transportation
of Solids in Pipes, May 1978, Paper F5, pp. 59-80
4.Solids-Handling Pumps - A Survey of Current Practice,
Problems and Developments
Willis, D.J., Truscott, G.F.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transportation
of Solids in Pipes, May 1978, Paper F6, pp. 81-108
5.Pumpability Test for Industrial Fuel Oils
Designation IP 230/81, Reapproved 1987
pp. 230.1-230.6
1.Instruments to Measure and Control Slurries and Viscous
Materials
Liptak, B.G.,
Chemical Engineering, Febr. 1967, pp. 151-158
2.Application of Gamma-Ray Absorptiometry in the Hydraulic
Transport of Solids
Fanger, H.U., Michaelis, W., Pepelnik, R., The, H.L.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transportation
of Solids in Pipes, May 1978, Paper G4, pp. 43-58
3.A Method to Measure Mass and Volume Flow Rates of Two-Phase
Flows
Domnick, J., Durst, F., Razillier, Zeisel, H.
Int. J. Multiphase Flow, Vol. 13, No. 5, 1987, pp. 585-698
4.Inductive Flow Measurement with Low Frequency Triangular
Field
Schussler, H.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transportation
of Solids in Pipes, May 1978, Paper G6, pp. 73-86
5.Coreolis Mass Flow Measurement: Theory and Application
Note
Chin, W.
Sensors, Oct. 1994, pp. 55-58
6.Determination of Solids Concentration in Slurries
Nasr-El-Din, H., Shook, C.A., Colwell, J.
Hydrotransport 10, 10th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, Oct 1986, Paper F1, pp. 191-198
7.Slurry Concentration Measurements Using Venturi Meters
Hydrotransport 11, 11th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, Oct. 1988, paper C3, pp. 157-172
1.Some Practical Aspects of Slurry Pipe Line Testing
Cave, I.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, May 1978, Paper A3, pp. 37-46
2.On the Methods for Calculation of Hydraulic Transport and
Their Reliability in Practice
Sasic, M., Marjanovic, P.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, May 1978, Paper A5, pp. 61-76
3.Measurement Methods in an Experimental Rig for Hydraulic
Transport
Debreczeni, E., Meggyes, T., Tarjan, I.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, May 1978, Paper G1, pp. 1-20
4.Slurry Pipeline Design - Special Considerations
Gandhi, R.L., Aude, T.C.
Hydrotransport 5, 5th Int. Conf. on the Hydraulic Transport of
Solids in Pipes, May 1978, Paper J1, pp. 1-12
5
1.Experimental Study on Flow Characteristics of Ice-Water
Slurrries in a Horizontal Pipe
Takahashi, H., Masuyama, T., Kawashima, T.
J. of the Mining and Materials Processing Institute of Japan,
Reprint, Vol 108, No 5, 1992, pp.357-363
2.Hydraulic Behaviour of Ice Particles in Water
Sellgren, A.
10th Int. Conf. on the Hydraulic Transport of Solids in Pipes,
Oct. 1986, Paper F3, pp. 213-217
3Dynamics of Snow-Water Flow in Pipelines
Sasaki, M., Kawashima,T., Takahashi, H.
Hydrotransport 12, Brugge, Belgium, 1993, pp.535-543
4.Experimental Study of Snow-Water Mixture Flows in
Horizontal Pipes.
Kawashima, T., Sasaki, M., Takahashi, H.
Hydrotransport 12, Brugge, Belgium, 1993, pp. 525-533
5.A Laboratory Study of Pressure Loss and Pressure
Fluctuation for Ice-Water Slurry Flows in a Horizontal Pipe
Takahashi, H., Wilson, J.W., Masuyama, T.
Hydrotransport 12, Brugge, Belgium, 1993, pp. 497-510
6.Ice Slurry Transport for District Cooling Networks
Snoek, C.W., Walosik, S., Gupta, R.P.
Hydrotransport 12, Brugge, Belgium, 1993, pp. 511-524
7.Ice Slurry Cooling: Development and Field Testing
Kasza. K.E., Hietala, J., Wendland, R.D., Collins, F.
8.Phase II: Direct Freeze Ice Slurry District Cooling
Knodel, B.D.
Presented at the 80th Annual Conference of International District
Heating and Cooling Association, 1989, Virginia, pp. 240-244
9.Ice Slurry Characteristics
Snoek, C.W.
1993, pp. 7-16
10.Pressure Drop in Ice-Water Slurries For Thermal Storage
Application
Knodel, B.D., France, D.M.
Experimental Heat Transfer, Vol 1, 1987-88, pp. 265-275
11.Influences of Ice Slurry Characteristics on Hydraulic
Behaviour
Larkin, B, Young, J.C.O'C.
1989, pp. 340-350
12.Direct Freeze Ice Slurry District Cooling System
Evaluation
Winters, P.J., Kooy, R.J.
1991, pp. 381-398
1.Direct Freeze Ice Slurry System Testing
Knodel, B.D.
1988, pp. 86-93
2.Performance of an Ice/Water Slurry Based District Cooling
System
Knodel, B.D.
3.Development of a Prototype Ice Slurry Generator for
District Cooling
Paradis, M.A., Turcot, R., Faucher, G.
4.Ice-Water Slurry Flow: A Literature Review
Andersson, V.
Trondheim, 1997
5.Commercial Refrigeration with NH3/Slurry
Ice
http://www.ecozonet.com/desc1.html
6.Characteristics of Ice Slurry Containing Antifreeze
Protein for Ice Storage Applications
Grandum, S.; Yabe, A.; Tanaka, M.; Takemura, F.; Nakagomi, K.
J. of Thermophysics and Heat Transfer, Vol. 11, No. 3, 1997, pp.
461-466
7.Flow of Ices in the Ammonia-Water System
Durham, W.B.; Kirby, S.H.; Stern, L.A.
J. of Geophysical Research, Vol. 98, No. B10, 1993, pp. 17667-17682
8.
1.Experiments wit Concentrated Slurries of Particles with
Densities near that of the Carrier Fluid
Shook, C.A.
The Canadian J. of Chem. Eng., Vol 63, December 1985, pp. 861-869
2.Flow Properties for Slurries of Particles with Densities
close to that of Water
Takahashi, H., Masuyama, T.
FED, Vol 118, Liquid-Solid Flows, 1991, 103-108
3.
4.
1.Particle Motion in Laminar Vertical Tube Flow
Jeffrey, R.C.; Pearson, J.R.A.
J. Fluid Mech., vol 22, part 4, 1965, pp. 721-735
2.Some Influences of Particle Shape on Drag and Heat
Transfer
Dwyer, H.A.; Dandy. D.S.
Phys. Fluids A 2 (12), December 1990
3.Lagrangian Model on the Turbulent Motion of Small Solid
Particle in Turbulent Boundary Layer Flows
Liu Xiaobing & Cheng Liangjun
Applied Mathematics and Mechanics, vol. 18, 3, 1997, pp. 297-306
4.A Mechanism for Non-Newtonian Flow in Suspensions og
Rigid Spheres
Krieger, I.M.; Dougherty, T.J.
Transactions of the Society of Rheology III, 1959, pp. 137-152
5.Inertial Migration of a Small Sphere in Linear Shear
Flows
Mclaughlin, J.B.
J. Fluid Mech., vol. 224, 1991, pp. 261-274
6.Behaviour of Macroscopic Rigid Spheres in Poiseuille Flow
Segre, G.; Silberberg, A.
7.A Theory of Particle Deposition in Turbulent Pipe Flow
Young, J.; Leeming, A.
J. Fluid Mech., vol. 340, 1997, pp. 129-159
8.Fundamentals of Two-Fluid Dynamics (Part I: Mathematical
Theory and Applications)
Springer Verlag New York, 1993
Joseph, D.J.; Renardy, Y.Y.
9.Fundamentals of Two-Fluid Dynamics (Part II: Lubricated
Transport, Drops and Miscible Liquids)
Joseph, D.J.; Renardy, Y.Y.
10.Radical Particle Displacements in Poiseuille Flow of
Suspensions
Segre, G.; Silberberg, A.
Nature, Jan 21, 1961
11.Particle Dispersion in Shear Turbulent Flows
Lu, Q.Q.; Fontaine, J.R.; Aubertin, G.
Aerosol Science and Technology 18:85, 1993, pp 85-99
12.The Inertial Lift on a Rigid Sphere Translating in a
Linear Shear Flow Field
Cherukat, P.; McLaughlin, J.B.; Graham, A.L.
Int. J. Multiphase Flow, vol. 20, no. 2, pp. 339-353
1.Optimizing the Surface Chemistry of Suspensions for De-Watering
in Mineral Processing
de Kretser, R.; Aziz, A.A.A.; Scales. P.
2.On the Role of the Lift Force in Turbulence Simulations
of Particle Deposition
Wang, Q.; Squires, K.D.; Chen, M.; McLaughlin, J.B.
Int J. Multiphase Flow, vol, 23, no. 4, 1997, pp. 749-763
3.On the Deposition of Small Particles from Turbulent
Streams
Rouhiainen, P.Q.; Stachiewicz, J.W.
Journal of Heat Transfer, Feb. 1970
4.An Approximate Expression for the Shear Lift Force
on a Spherical Particle at Finite Reynolds Number
Mei, R.
IJMF 18/I-J
5.Influence of Particle Rotation on
Radial Migration in the Poiseuille Flow of Suspensions
Oliver, D.R.
Nature, Vol. 194, June 1930, 1962, pp. 1269-1271
6.The Coring Phenomenon in the Flow of Suspensions in
Vertical Tubes
Young, D.F.
7.
8.
1.Pipelining of Heavy Crude Oil as Oil-in-Water Emulsions
Zhang, J.; Chen, D.; Yan, D.; Yang, X.
SPE 21733, pp. 911-918
2.Laboratory Tests and Field Implementation of Gas-Drag-Reduction
Chemicals
Li, Y.-H.; Chesnut, G.R.; Richmond, R.D.; Beer, G.L.; Caldarera,
V.P.
SPE, Production & Facilities, Feb 1998, pp. 53-58
3.Core-Annular Flow of Oil and Water through a Pipeline
Oliemans, R.V.A.; Ooms, G.
4.Core-Annular Flows
Joseph, D.D.; Bai, R.; Chen, K.P.; Renardy, Y.Y.
Annu. Rev. Fluid Mech. 29, 1997, pp. 65-90
5.Core-Annular Flow of Liquid Membrane Emulsion
Ho, W.S.; Li, N.N.
AIChE Journal, vol. 40, no 12, Dec 1994, pp. 1961-1968
6.Oil/Water Emulsions for Pipeline Transport of Viscous
Crude Oils
Pilehvari, A.; Saadevandi, B.; Halvaci, M.; Clarc, P.E.
SPE 18218, pp. 393-403
7.Drive to Produce Heavy Crude Prompts Variety of
Transportation Methods
Nunez, G.A.; Rivas, H.J.; Joseph, D.D.
OGJ Special, Oct. 26, 1998, pp. 59-67
8.Flow Characteristics of Concentrated Emulsions of Very
Viscous Oil in Water
Nunez, G.A.; Briceno, M.; Mata, C.; Rivas, H.
J. Rheol. 40(3), May/June 1996, pp. 405-423
9.Pipeline Transportation of Wax-Laden Crude Oil as Water
Suspension
Lamb, M.J.; Simpson, W.C.
10.Lubricated Pipelining: Stability of Core-Annular Flow
Preziosi, L.; Chen, K.; Joseph, D.D.
J. Fluid Mech., vol. 201, 1989, pp. 323-356
11.Lubricated Pipelining. Part 3: Stability of Core-Annular
Flow in Vertical Pipelines
Chen, K.; Bai, R.; Joseph, D.D.
J. Fluid Mech., vol. 214, 1990, pp. 251-286
12.Pipelining of Heavy Crude Oil as Oil-in-Water
Emulsions
Zhang, J; Chen, D.; Yang, X
SPE 21733
1.Core-Annular Flow of Oil and Water through a
Pipeline
Oliemans, R.V.A
2.Highly Viscous Oil Transportation Methods in the
Venezuela Oil Industry
Guevara, E.; Gonzalez, J.; Nuñez, G
3.The Effect of Surfactants on Flow Characteristics in
Oil/Water Flows in Large Diameter Horizontal Pipelines
Shi, H.; Cai, J.Y.; Jepson, W.P.
7.
7.
7.
7.
jsg@ipt.ntnu.no Last modified: Wed Sep 17 10:48:10 DFT 1997