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3594 — The Effect of Temperature-Dependent Properties on the Performance of Run-Around Heat Recovery Systems Using Aqueous-Glycol Coupling Fluids

$7.50

Conference Proceeding by ASHRAE, 1992

Category:

Description

A theoretical analysis and simulation results are presented to explore the performance of run-around heat recovery systems under a wide range of operational conditions using aqueous glycol or water as the coupling fluid. The basic theory of a run-around heat recovery system with exhaust and supply air coils, employing a counterflow coupling fluid is revisited to identify the system operating characteristics and configuration that will maximise heat recovery for ventilation systems. A numerical model is then used to study the effect of temperature-dependent properties in the coupling fluid, where the supply and exhaust air heat exchanger coils are sub-divided into a number of elements. These numerical results, for turbulent flow and large temperature swings in the coupling fluid, show that errors of up to 25% for overall effectiveness, or 50% for relative overall effectiveness may result, when low coil-tube Reynolds numbers are used, if the coupling fluid property variations are simply averaged in the calculation of the overall effectiveness of run-around systems. This study implies that such errors are negligible for run-around heat recovery systems with coupling fluid Reynolds numbers larger that 6,000.

KEYWORDS: temperature, properties, performance, heat recovery, ventilation, turbulent flow, temperature swing, heat exchangers, run around coils, Reynolds numbers, counterflow heat exchangers, exhaust air

Citation: ASHRAE Trans. 1992, vol.98, Part 1, Paper number 3594, 551-562, 13 figs., refs.

Product Details

Published:
1992
File Size:
1 file , 1.3 MB
Product Code(s):
D-17866