Feng et al., 2004 - Google Patents
Understanding of electrohydrodynamic conduction pumping phenomenonFeng et al., 2004
View PDF- Document ID
- 13706329785662520796
- Author
- Feng Y
- Seyed-Yagoobi J
- Publication year
- Publication venue
- Physics of fluids
External Links
Snippet
Electrohydrodynamic (EHD) phenomena can be applied to enhance and control mass and heat transfer in both terrestrial and microgravity environments. The emerging EHD conduction pumping technique shows its potential as an active control method of the flow …
- 238000005086 pumping 0 title abstract description 31
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Feng et al. | Understanding of electrohydrodynamic conduction pumping phenomenon | |
| Tseng et al. | Salinity gradient power: influences of temperature and nanopore size | |
| Von Grünberg et al. | Gas-liquid phase coexistence in colloidal suspensions? | |
| Heinonen et al. | Current distributions in the quantum Hall effect | |
| Pearson et al. | EHD conduction-driven enhancement of critical heat flux in pool boiling | |
| Jiang et al. | Criticality and phase behavior in the restricted-primitive model electrolyte: description of ion association | |
| Ramu et al. | Application of a class of nano fluids to improve the loadability of power transformers | |
| Yeh et al. | Electroviscous effect on the streaming current in a pH-regulated nanochannel | |
| Ramos | Electrohydrodynamic and magnetohydrodynamic micropumps | |
| Atrazhev et al. | Mechanisms of impulse breakdown in liquid: The role of joule heating and formation of gas cavities | |
| Feng et al. | Control of liquid flow distribution utilizing EHD conduction pumping mechanism | |
| Bottarelli et al. | Ground-source heat pumps using phase change materials | |
| Kazmierczak et al. | Steady and transient natural convection experiments in a horizontal porous layer: the effects of a thin top fluid layer and oscillating bottom wall temperature | |
| Koju | Thermal behaviour of expanded polystyrene based lightweight concrete sandwich panel at various temperatures | |
| Bologa et al. | Characteristics of an electrohydrodynamic pump | |
| Pontiga et al. | The onset of electrothermal convection in nonpolar liquids on the basis of a dissociation-injection conductivity model | |
| Yazdani et al. | Heat transfer augmentation of parallel flows by means of electric conduction phenomenon in macro-and microscales | |
| Chein et al. | Analysis of effect of electrolyte types on electrokinetic energy conversion in nanoscale capillaries | |
| Jones | Hydrostatics and steady dynamics of spatially varying electromechanical flow structures | |
| Kano et al. | Effects of moisture content in a dielectric liquid on electrohydrodynamic pumping | |
| Mahmoudi et al. | Prediction of the static pressure generation for an electrohydrodynamic conduction pump | |
| Son et al. | Numerical investigation of the electro-thermo-convection of dielectric liquid in a square cavity with vertical walls composed of alternately arranged electrodes | |
| Dinesh et al. | Effects of internal heat generation and variable fluid properties on mixed convection past a vertical heated plate | |
| Feng et al. | Control of liquid flow distribution utilizing EHD conduction pumping mechanism | |
| Aleksandrov et al. | Numerical study of electroconvective instability of binary electrolyte in a cell with plane parallel electrodes |