INDIRECT EVAPORATIVE COOLER PERFORMANCE.
Author(s) : CRUM D. R., MITCHELL J. W., BECKMAN W. A.
Summary
THE PAPER INVESTIGATES 3 SENSIBLE AIR COOLERS: A SINGLE-AND A MULTIPLE-STAGE INDIRECT EVAPORATIVE COOLER, AND A COMBINATION COOLING TOWER/HEAT EXCHANGER AIR COOLER. RELATIONS AND PERFORMANCE CHARACTERISTICS ARE DEVELOPED. THE SINGLE-STAGE INDIRECT EVAPORATIVE COOLER IS CAPABLE OF COOLING INLET AIR TO TEMPERATURES APPROACHING THE INLET WET-BULB TEMPERATURE. THE MULTIPLE-STAGE INDIRECT EVAPORATIVE COOLER, THE HEAT EXCHANGER/EVAPORATIVE COOLER, AND THE COOLING TOWER/HEAT EXCHANGER AIR COOLERS ARE ALL CAPABLE OF COOLING INLET AIR TO TEMPERATURES APPROACHING THE INLET DEWPOINT TEMPERATURE.
Details
- Original title: INDIRECT EVAPORATIVE COOLER PERFORMANCE.
- Record ID : 1988-0271
- Languages: English
- Publication date: 1987
- Source: Source: ASHRAE Trans.
vol. 93; n. 1; 1261-1275; 12 fig.; 7 ref. - Document available for consultation in the library of the IIR headquarters only.
Indexing
- Themes: Other air-conditioning equipment
- Keywords: Cooling tower; Air cooler; Passive cooling; Performance; Evaporative system; Air conditioning
-
THE DRY-SURFACE INDIRECT EVAPORATIVE COOLING SY...
- Author(s) : SUKHWAL R. N., GUPTA D., MATHUR M. L.
- Date : 1983/08/07
- Languages : English
- Source: [Refrigeration serving humanity]. Proceedings of the XVIth international Congress of Refrigeration.
- Formats : PDF
View record
-
ADIABATIC COOLING: IS WATER VAPORIZATION REALLY...
- Author(s) : DOHLINGER M.
- Date : 1991/07
- Languages : German
- Source: Kälte + Klimatechnik (Die) - vol. 44 - n. 7
View record
-
COOLING TOWERS.
- Author(s) : CREMASCHI A.
- Date : 1988
- Languages : Italian
- Source: Install. ital. - vol. 39 - n. 1
View record
-
Cooling rural Australia: passive downdraught ev...
- Author(s) : WEBSTER-MANNISON M.
- Date : 2003/02
- Languages : English
- Source: EcoLibrium - vol. 2 - n. 1
View record
-
DESIGN OF COOLING TOWERS BY THE EFFECTIVENESS-N...
- Author(s) : JABER H., WEBB R. L.
- Date : 1989
- Languages : English
- Source: J. Heat Transf. - vol. 111 - n. 4
View record