EHD enhancement of pool and in-tube boiling of alternate refrigerants. Final report.
Author(s) : OHADI M. M., DESSIATOUN S., SINGH A., FANNI M. A.
Type of monograph: Report
Summary
The electrohydrodynamic (EHD) technique is an active heat transfer augmentation technique which utilizes the effect of secondary motions generated through the application of an electrostatic potential to a dielectric fluid.
Details
- Original title: EHD enhancement of pool and in-tube boiling of alternate refrigerants. Final report.
- Record ID : 1998-2036
- Languages: English
- Publication: Arti (air-conditioning and refrigeration technology institute) - United states/United states
- Publication date: 1993/08
- Source: Source: DOE-CE-23810-17; 62 p. (21.5 x 28); fig.; tabl.; append.
- Document available for consultation in the library of the IIR headquarters only.
Indexing
-
Themes:
CFCs;
Mass transfer;
Lubricants - Keywords: Pool boiling; Hydrodynamics; Enhancement; CFC; Measurement; Lubricant; Tube; Heat transfer; Substitute; Mixture; Oil; Testing; Electrohydrodynamics; Refrigerant; Electric field; Boiling
-
Electrohydrodynamic enhancement of shell-side b...
- Author(s) : OHADI M. M., PAPAR R. A., NG T. L., FAANI M. A., RADERMACHER R.
- Date : 1992
- Languages : English
- Source: ASHRAE Transactions 1992. Part 2.
View record
-
In-tube boiling heat transfer enhancement of R1...
- Author(s) : SINGH A., OHADI M. M., DESSIATOUN S., CHU W.
- Date : 1994
- Languages : English
- Source: ASHRAE Transactions 1994.
View record
-
Augmentation of boiling heat transfer by utiliz...
- Author(s) : OGATA J., YABE A.
- Date : 1993/02
- Languages : English
- Source: International Journal of Heat and Mass Transfer - vol. 36 - n. 3
View record
-
Enhancement of evaporation of a droplet using e...
- Author(s) : TAKANO K., TANASAWA I., NISHIO S.
- Date : 1995/05
- Languages : English
- Source: JSME int. J., B - vol. 38 - n. 2
View record
-
Potential benefits of electrohydrodynamic enhan...
- Author(s) : EAMES I. W., SABIR H. M.
- Date : 1997/01
- Languages : English
- Source: Applied Thermal Engineering - vol. 17 - n. 1
View record