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Chemical Engineering Explained

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Presentation on theme: "Chemical Engineering Explained"— Presentation transcript:

1 Chemical Engineering Explained
Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018 Chemical Engineering Explained Supplementary File: Chapter 12

2 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.1 Four methods to define a characteristic length of a particle based upon the projected area.

3 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.2 When a fluid flows through a bed of particles, the pressure drop across the bed will depend upon the properties of the fluid and the particle bed.

4 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.3 Different types of equipment to reduce particles sizes. (a) Rotary jaw crusher. (b) Hammer mill.

5 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.4 Different types of equipment to reduce particles sizes. (a) Pin mill. (b) Ball mill.

6 Figure 12.6 Two types of solid–solid mixtures.
Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018 Figure 12.6 Two types of solid–solid mixtures.

7 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.8 Two extreme types of hopper flow: (a) mass flow, and (b) core flow.

8 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure 12.9 Solids can get hung up in the hopper with little, if any, flow.

9 Figure 12.10 Dimensions of a conical heap. q is the angle of repose.
Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018 Figure Dimensions of a conical heap. q is the angle of repose.

10 Figure 12.11 Dimensions of an elongated heap.
Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018 Figure Dimensions of an elongated heap.

11 Supplementary information for Chemical Engineering Explained © The Royal Society of Chemistry 2018
Figure As particle size decreases the area to volume ratio increases.

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