Agitator Design for Gas-Liquid Fermenters and Bioreactors. Gregory T. BenzЧитать онлайн книгу.
load diagram.Figure 17.7 Agitator load diagram.Figure 17.8 (a, b) Commercial gear drive size comparison.Figure 17.9 Purpose‐built solid shaft agitator drive.Figure 17.10 Hollow quill agitator drive.Figure 17.11 Outboard support module.
16 Chapter 18Figure 18.1 Welded in‐tank coupling.Figure 18.2 Removable in‐tank coupling, taper bore style.Figure 18.3 Sterilizable coupling.Figure 18.4 Sanitary in‐tank coupling.Figure 18.5 Internally threaded shaft coupling.Figure 18.6 Standard mounting flange modification.Figure 18.7 Sanitary mounting flange.Figure 18.8 Lightnin A‐315.Figure 18.9 Chemineer Maxflo W‐4.Figure 18.10 Smoothline impeller.Figure 18.11 Rushton turbine.Figure 18.12 Chemineer CD‐6.Figure 18.13 Chemineer BT‐6.Figure 18.14 Acorn nut.Figure 18.15 Tripod steady bearing.Figure 18.16 Sterilizable steady bearing.Figure 18.17 Polished surface.Figure 18.18 Burnished surface.Figure 18.19 Unidirectional lay.Figure 18.20 Random lay.Figure 18.21 Fine vs. coarse abrasive with same RA.Figure 18.22 Electropolish process.
17 Chapter 19Figure 19.1 (a) and (b) Aspect ratio illustrationFigure 19.2 Deep concave turbine, Chemineer model BT‐6.Figure 19.3 High solidity up‐pumping impeller, Chemineer MY‐4.Figure 19.4 Jacketed tank with tube bundles.Figure 19.5 DO distribution by CFD.
18 Chapter 21Figures 21.1 (a,b) Flange options.
Guide
5 Preface
6 Foreword
10 Afterword
11 Index
12 WILEY END USER LICENSE AGREEMENT
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