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 ...
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Preamble Page xiv<br />
4.5 Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets RF_lO 4.6<br />
4.6 Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets RF_20 4.7<br />
4.7 Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets RF_30 4.7<br />
4.8 Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets S_1O 4.8<br />
4.9 Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets S_20 4.8<br />
4.lO Optimum representative <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g> for test sets S_20 4.9<br />
4.11 Roughness functi<strong>on</strong> correlati<strong>on</strong> using optimum <str<strong>on</strong>g>particle</str<strong>on</strong>g> <str<strong>on</strong>g>size</str<strong>on</strong>g>s 4.lO<br />
4.12 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> test KMRL20 including data points at <str<strong>on</strong>g>the</str<strong>on</strong>g><br />
extreme temperatures 4.11<br />
4.13 Pseudo-shear diagram showing rheological characterizati<strong>on</strong> for <str<strong>on</strong>g>the</str<strong>on</strong>g> kaolin<br />
test sets 4.13<br />
4.14 Pseudo-shear diagram showing rheological characterizati<strong>on</strong> for Mixture 1<br />
test sets 4.13<br />
4.15 Pseudo-shear diagram showing rheological characterizati<strong>on</strong> for Mixture 2<br />
test sets 4.14<br />
4.16 Viscous sub-layer thickness predicti<strong>on</strong>s for kaolin clay 4.14<br />
4.17 Viscous sub-layer thickness predicti<strong>on</strong>s for Mixture 1 4.15<br />
4.18 Viscous sub-layer thickness predicti<strong>on</strong>s for Mixture 2 4.15<br />
4.19 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 150mm pipe showing <str<strong>on</strong>g>the</str<strong>on</strong>g> data for <str<strong>on</strong>g>the</str<strong>on</strong>g> kaolin<br />
test sets 4.16<br />
4.20 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 150mm pipe showing <str<strong>on</strong>g>the</str<strong>on</strong>g> data for Mixture 1<br />
test sets 4.17<br />
4.21 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 150mm pipe showing <str<strong>on</strong>g>the</str<strong>on</strong>g> data for Mixture 2<br />
test sets 4.17<br />
4.22 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 80mm pipeline: KERSlO: dss =30JLm 4.18<br />
4.23 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 80mm pipeline: RFERSlO: dss =52JLm 4.19<br />
4.24 Pseudo-shear diagram for <str<strong>on</strong>g>the</str<strong>on</strong>g> 80mm pipeline: SERS!O: dss =137JLm 4.19