By Jinghai Li
Multi-scale research and simulation of chemical processing and reactions have bought exceptional consciousness in recent times; in spite of the fact that, dimension expertise fascinated with multi-scale constructions, fairly on meso-scale phenomena, has now not been sufficiently addressed. This quantity of Advances in Chemical Engineering makes a speciality of the "Characterization of circulation, debris and Interfaces" to alert the chemical engineering group to this demanding factor providing six meso-scale size applied sciences.
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Extra resources for Characterization of Flow, Particles and Interfaces
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Soc. Am. 25, 270–280 (1953). Yang W. , ‘‘Computer-Assisted Flow Visualization’’. , Boca Raton, Florida (1994). CHAPT ER 2 Micromanipulation in Mechanical Characterisation of Single Particles Z. D. R. Thomas Contents 1. Introduction 2. 5 Diametrical compression (also called compression testing by micromanipulation) 3. 3 Non-biological particles 4. 4 Nanomanipulation of sub-micron/nanoparticles 5. Perspectives on Future Development Nomenclature Acknowledgements References 30 31 31 32 33 35 37 51 51 58 59 68 68 70 72 75 77 78 81 81 School of Chemical Engineering, University of Birmingham, Edgbaston, Birmingham B15 2TT, UK *Corresponding author.
It can be presumed that the wall cannot support out-of-plane shear stresses or bending moments. This situation is described as plane stress, as the only non-zero stresses are in the plane of the cell wall. Furthermore, the stresses can be expressed as 46 Z. Zhang et al. Micromanipulation in Mechanical Characterisation of Single Particles 47 wall tensions. , there is an initial pressure difference across its wall), but microcapsules are usually not initially inflated. It is assumed that the cell is symmetrical across the equatorial plane and axi-symmetrical around the axis of compression, the Z axis.