Gu / Wei Electrification of Particulates in Industrial and Natural Multiphase flows

Preface Part ? Particulate charging phenomena in multiphase flows 1 Electrification of particulate in multiphase flows 1.1 Electrification of particulate in industrial processes 1.1.1 Transport systems 1.1.2 Fluidized beds 1.1.3 Particle drying 1.1.4 Pollution control 1.1.5 Electrospray 1.1.6 Manufacturing and material processing 1.2 Electrification of particulate in natural processes 1.2.1 Wind-blown sand 1.2.2 Lightning in thunderstorm 1.3 Effect of electrification 1.3.1 Mechanical effect of electrification 1.3.2 Thermal effect of electrification 1.3.3 Electromagnetic effect of electrification 1.4 Summary 2 Properties of particulate in multiphase flows 2.1 Particulate forms 2.1.1 droplet 2.1.2 particle 2.2 Size Distribution 2.3 Dilute versus dense flows 2.4 Particulate-Fluid interaction 2.5 Particulate- Particulate interaction 2.6 Summary Part ? Basic theory of droplet charging in multiphase flows 3 Droplet charging ways 3.1 Corona charging 3.2 Contact charging 3.3 Induction charging 3.4 Summary 4 Basic theory of droplet charging process 4.1 Corona charging process 4.2 Contact charging process 4.3 Induction charging process 4.4 Summary t ? Basic theory of particle charging in multiphase flows 5 Particle charging ways 5.1 Electron transfer charging 5.2 Ion transfer of materials containing mobile ions 5.3 Material transfer charging 5.4 Aqueous ion shift on particle surfaces 5.5 Summary 6 Basic theory of particulate charging in multiphase flows 6.1 Charge transfer by the external electric field. 6.2 Charge transfer by asymmetry contact 6.3 Charge transfer from aqueous ion shift on particle surfaces 6.4 Summary Part ? Research methodologies of particulate charging processes 7 Numerical modeling methods for particulate charging processes 7.1 Basic theory of electrostatics 7.1.1 Charge and Coulomb's law 7.1.2 Electric and Gauss theorem 7.1.3 Circulation theorem of electrostatic field 7.1.4 Particulate in electrostatic field 7.2 Brief introduction to numerical methods of multiphase flow simulation 7.2.1 Large eddy simulation (LES) of continuous flow 2 Numerical methods of gas-solid two-phase flow simulation 7.2.3 Numerical methods of tracking the interface between gas/liquid – liquid two phases 7.3 Numerical simulations of charging/charged liquid interface 7.3.1 Governing equations of fluid flow and electric field 7.3.2 Coupling with charging model 7.3.3 Applications of numerical simulation on droplet charging 7.4 Numerical simulations of charging/charged particles 7.4.1 Governing equations of gas-solid two-phase flow 7.4.2 Coupling with charging model 7.4.3 Applications of numerical simulation on particle charging 7.5 Summary 8 Experimental methods for particulate charging processes 8.1 Measurement method of basic electrostatic parameter 8.2 Particulate charge measurement by electrical method 8.3 Particulate charge measurement by optical method 8.4 Summary 9 Electrostatic utilization and protection in multiphase flows 9.1 Electrostatic grounding 9.2 Environment humidification 9.3 Electrostatic eliminator 9.4 Potential applications of particulate electrification 9.5 Summary 10 Potential applications of particulate electrification < REFERENCES