ShareDynamic analysis of double-pipe heat exchangers subjected to periodic inlet temperature disturbances.
Author(s) : SCOFANO NETO F., COTTA R. M.
Type of article: Article
Summary
A mixed lumped-differential formulation is employed to model the transient energy equations for fully developed laminar-laminar or laminar-turbulent flow situations in concurrent or countercurrent double-pipe heat exchangers. The temperature distribution in the outer annular channel is radially lumped, providing a more general boundary condition for the inner channel differential energy equation, coupled through the interface condition.
Details
- Original title: Dynamic analysis of double-pipe heat exchangers subjected to periodic inlet temperature disturbances.
- Record ID : 1995-2181
- Languages: English
- Source: Wärme Stoffübertrag. - vol. 28 - n. 8
- Publication date: 1993
- Document available for consultation in the library of the IIR headquarters only.
Links
See the source
Indexing
- Themes: Heat transfer
- Keywords: Tube-in-tube; Calculation; Heat transfer; Transient state; Simulation; Performance; Parallel flow; Counterflow; Heat exchanger
-
TRANSIENT RESPONSE OF THE PARALLEL-FLOW HEAT EX...
- Author(s) : ROMIE F. E.
- Date : 1985/08
- Languages : English
- Source: J. Heat Transf. - vol. 107 - n. 3
View record
-
Counterflow double-pipe heat exchanger analysis...
- Author(s) : SCOFANO NETO F., COTTA R. M.
- Date : 1992/07
- Languages : English
- Source: International Journal of Heat and Mass Transfer - vol. 35 - n. 7
View record
-
A numerical method for thermally non-equilibriu...
- Author(s) : WANG C. C.
- Date : 1997/07
- Languages : English
- Source: Applied Thermal Engineering - vol. 17 - n. 7
View record
-
THE INFLUENCE OF INTERFACE THERMAL CONTACT RESI...
- Author(s) : BARBER J. R.
- Date : 1986
- Languages : English
- Source: International Journal of Heat and Mass Transfer - vol. 29 - n. 5
View record
-
EFFECTIVENESS OF SERIES ASSEMBLIES OF DIVIDED-F...
- Author(s) : PIGNOTTI A.
- Date : 1986/02
- Languages : English
- Source: J. Heat Transf. - vol. 108 - n. 1
View record