the effect of the particle size distribution on non-newtonian turbulent ...
the effect of the particle size distribution on non-newtonian turbulent ... the effect of the particle size distribution on non-newtonian turbulent ...
Preamble 3.8 Experimental Procedure 3.9 Conclusions CHAPfER 4: 4.1 Introduction 4.2 Pipeline Tests 3.8.1 Start-up Procedure Page x 3.23 3.23 3.24 RESULTS AND ANALYSIS 4.1 4.2.1 Pipe Roughness 4.2 4.2.2 Particle Roughness Effect 4.2 . 4.2.3 Kaolin Clay 4.3 4.2.4 11ixtures 4.4 4.2.5 Representative Particle Size 4.4 4.2.6 Roughness Function Correlation Using Optimum Particle Sizes 4.9 4.2.7 Slurry Temperature 4.9 4.3 Rheological Characterization 4.4 Viscous Sub-Layer 4.5 Influence
Preamble Page xi 5.4 Temperature
- Page 1 and 2: THE EFFECT OF THE PARTICLE SIZE DIS
- Page 3 and 4: Preamble DECLARATION Page iii I, Ga
- Page 5 and 6: Preamble ACKNOWLEDGEMENrS Page v I
- Page 7: Preamble Page vii CHAPTER 1: INTROD
- Page 12 and 13: Preamble Page xii LIST OF FIGURES P
- Page 14: Preamble Page xiv 4.5 Optimum repre
- Page 17 and 18: Preamble NOMENCLATURE Svrnbol Descr
- Page 19 and 20: Preamble T shear stress Pa T y yiel
- Page 23 and 24: Chapter I For example: Introduction
- Page 25 and 26: Chapter 1 Introduction Page 1.5 1.3
- Page 27 and 28: CHAPTER 2
- Page 33: Chapter 2 Literature Review Page 2.
- Page 36: Chapter 2 Literature Review Page 2.
- Page 39: Chapter 2 Literature Review Page 2.
- Page 46 and 47: Chapter 2 Literature Review Viscous
- Page 48 and 49: Chapter 2 Literature Review • ..P
- Page 54: Chapter 2 Literature Review Page 2.
- Page 58 and 59: Chapter 2 Literature Review Page 2.
Preamble<br />
3.8 Experimental Procedure<br />
3.9 C<strong>on</strong>clusi<strong>on</strong>s<br />
CHAPfER 4:<br />
4.1 Introducti<strong>on</strong><br />
4.2 Pipeline Tests<br />
3.8.1 Start-up Procedure<br />
Page x<br />
3.23<br />
3.23<br />
3.24<br />
RESULTS AND ANALYSIS 4.1<br />
4.2.1 Pipe Roughness 4.2<br />
4.2.2 Particle Roughness Effect 4.2 .<br />
4.2.3 Kaolin Clay 4.3<br />
4.2.4 11ixtures 4.4<br />
4.2.5 Representative Particle Size 4.4<br />
4.2.6 Roughness Functi<strong>on</strong> Correlati<strong>on</strong> Using Optimum Particle Sizes 4.9<br />
4.2.7 Slurry Temperature 4.9<br />
4.3 Rheological Characterizati<strong>on</strong><br />
4.4 Viscous Sub-Layer<br />
4.5 Influence <str<strong>on</strong>g>of</str<strong>on</strong>g> C<strong>on</strong>centrati<strong>on</strong><br />
4.6 Theoretical 110dels<br />
4.6.1 Turbulent 110del Performance<br />
4.6.2 11aude & Whitmore Correlati<strong>on</strong><br />
4.6.3 Bowen Correlati<strong>on</strong><br />
4.7 Data from <str<strong>on</strong>g>the</str<strong>on</strong>g> Literature<br />
4.8 C<strong>on</strong>clusi<strong>on</strong>s<br />
CHAPTERS:<br />
5.1 Introducti<strong>on</strong><br />
DISCUSSION<br />
5.2 Particle Roughness Effect<br />
5.3 Roughness Functi<strong>on</strong> Correlati<strong>on</strong> Using Optimum Particle Sizes<br />
4.1<br />
4.1<br />
4.11<br />
4.12<br />
4.16<br />
4.18<br />
4.18<br />
4.24<br />
4.24<br />
4.25<br />
4.26<br />
5.1<br />
5.1<br />
5.2
Change language