Title :
Electrically Enhanced Condensation I: Effects of Corona Discharge
Author :
Reznikov, Michael
Author_Institution :
Phys. Opt. Corp., Torrance, CA, USA
Abstract :
The effect of a corona discharge in the steam on the rate of nucleation and condensation of a liquid phase is theoretically and experimentally investigated by means of implementation with a steam condenser for an improved phase-change rate. The phenomena considered include the nucleation of water vapor on mobile charge carriers, the electrohydrodynamic vapor flow toward the condenser wall, and the thermodynamics of the charged microdroplet. The dielectrophoretic interaction of droplets and vapor is presented in terms of additional potential that adds to the evaporation energy barrier on the surface of the droplets. Experimental results obtained on the effect of a corona discharge confirm a 16% improvement in the condensation rate.
Keywords :
condensation; corona; drops; electrohydrodynamics; charged microdroplet thermodynamics; condenser wall; corona discharge; droplets dielectrophoretic interaction; electrically enhanced condensation; electrohydrodynamic vapor flow; liquid phase condensation; mobile charge carriers; phase-change rate; steam condenser; water vapor nucleation; Chemicals; Dielectrophoresis; Equations; Heating; Ions; Liquids; Surface tension; Corona; dielectrophoresis (DEP); thermal engineering;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2014.2354734
