| 1 - 1 |
Electrostatic phenomena in particulate processes - Foreword
Ghadiri M, Matsusaka S, Masuda H |
| 2 - 13 |
Tribo-charge and rebound characteristics of particles impact on inclined or rotating metal target
Ema A, Yasuda D, Tanoue K, Masuda H |
| 14 - 22 |
Impact charging experiments with single particles of hundred micrometre size
Matsuyama T, Ogu M, Yamamoto H, Marijnissen JCM, Scarlett B |
| 23 - 34 |
Estimation of electrostatic charge distribution of flowing toner particles in contact with metals
Yoshida M, Shimosaka A, Shirakawa Y, Hidaka J, Matsuyama T, Yamamoto H |
| 35 - 42 |
Tribocharging mechanism of mono-component irregular and spherical toners in an electrophotographic development system
Takagi K, Castle GSP, Takeuchi M |
| 43 - 49 |
The environment humidity effect on the tribo-charge of powder
Nomura T, Satoh T, Masuda H |
| 50 - 58 |
The effect of moisture sorption on electrostatic charging of selected pharmaceutical excipient powders
Rowley G, Mackin LA |
| 59 - 64 |
Induction charge on freely levitating particles
Wu Y, Castle GSP, Inculet II, Petigny S, Swei G |
| 65 - 75 |
Relative importance of electrostatic forces on powder particles
Feng JQ, Hays DA |
| 76 - 81 |
The effect of many-body interactions on the electrostatic force on a finite chain of spheres confined in a long charged tube
Sharif AO, Afshar MH, Moghadasi J, Williams TJ |
| 82 - 91 |
The influence of particle charge and roughness on particle-substrate adhesion
Zhou HB, Gotzinger M, Peukert W |
| 92 - 104 |
Mitigation of segregation and stratification in bulk granular mixtures by the electroclamping method
Eow JS, Speranza A, Hayati I, Ghadiri M |
| 105 - 111 |
Electric field controlled dilute-dense flow transition in granular flow through a vertical pipe
Hou MY, Chen W, Zhang T, Lu KQ |
| 112 - 117 |
Numerical simulation of electrostatic charge in powder pneumatic conveying process
Watano S, Saito S, Suzuki T |
| 118 - 135 |
On the modelling of the particle dynamics in electro-hydrodynamic flow-fields: I. Comparison of Eulerian and Lagrangian modelling approach
Schmid HJ, Vogel L |
| 136 - 149 |
On the modelling of the particle dynamics in electro-hydrodvnamic flow fields: II. Influences of inhomogeneities on electrostatic precipitation
Schmid HJ |
| 150 - 155 |
Bipolar charge distribution of a mixture of particles with different electrostatic characteristics in gas-solids pipe flow
Matsusaka S, Oki M, Masuda H |
| 156 - 163 |
Bipolar charge measurement of pharmaceutical powders
Balachandran W, Kulon J, Koolpiruck D, Dawson M, Burnel P |
| 164 - 168 |
On-line continuous measurement of particle size using electrostatic sensors
Zhang JQ, Yan Y |
| 169 - 180 |
Elutriation control and charge measurement of fines in a gas fluidized bed with ac and dc electric fields
Wang JS, Colver GM |
| 181 - 191 |
Measurement of particle charge-to-mass ratios in a gas-solids fluidized bed by a collision probe
Chen AH, Bi HT, Grace JR |
| 192 - 200 |
Generation of static electricity during fluidisation of polyethylene and its elimination by air ionisation
Revel J, Gatumel C, Dodds JA, Taillet J |
| 201 - 208 |
Static charge elimination on polymer particulates during their industrial production: supersonic injection technology
Taillet J |
| 209 - 215 |
A new passive-type electrostatic eliminator used in a powder storage silo
Kodama T, Suzuki T, Mogami T, Watano S |
| 216 - 222 |
Computer simulation for assessment of electrostatic hazards in filling operations with powder
Ohsawa A |
| 223 - 233 |
Ignition hazard due to static electricity in particulate processes
Glor M |
| 234 - 242 |
A study on the static electrification of powders during pneumatic transportation and the ignition of dust cloud
Nifuku M, Katoh H |
| 243 - 249 |
Electrostatic charging of particulates by ionic current in alternating electric field
Lackowski M, Adamiak K, Jaworek A, Krupa A |
| 250 - 260 |
On the simulation of space charge in electrostatic powder coating with a corona spray gun
Ye Q, Domnick J |
| 261 - 265 |
The voltage-current characteristics and dispersion effect of RLW electrostatic disperser
Ren J, Lu SC, Tang FQ |
| 266 - 284 |
Electrostatic collection of submicron particles with the aid of electrostatic agglomeration promoted by particle vibration
Nakajima Y, Sato T |
| 285 - 294 |
The role of the space charge density in particulate processes in the example of the electrostatic precipitator
Bottner CU |
| 295 - 301 |
Experimental study of fly ash precipitation in a model electrostatic precipitator with discharge electrodes of different design
Jedrusik M, Swierczok A, Teisseyre R |
| 302 - 309 |
EHD micromixing reactor for particle synthesis
DePaoli DW, Tsouris C, Hu MZC |
| 310 - 320 |
The effect of external electric fields during flame synthesis of titania
Kammler HK, Jossen R, Morrison PW, Pratsinis SE, Beaucage G |
| 321 - 335 |
Unipolar ion charging and coagulation during aerosol formation by chemical reaction
Fujimoto T, Kuga Y, Pratsinis SE, Okuyama K |
| 336 - 344 |
Classification of monodisperse aerosol particles using an adjustable soft X-ray charger
Han BW, Shimada M, Okuyama K, Choi M |
| 345 - 353 |
Application of non-thermal plasmas on toxic removal of dioxin-contained fly ash
Zhou YX, Yan P, Cheng ZX, Nifuku M, Liang XD, Guan ZC |
| 354 - 360 |
Electrostatic control of domestic dust and allergen particles for improved air quality
Gaunt LF, Jerrim KL, Hughes JF |
| 361 - 366 |
Effect of electrostatic field on dripping of highly conductive and viscous liquids
Speranza A, Ghadiri M |
