Oscillatory flow and heat transfer within parallel-plate heat exchangers of thermoacoustic systems
Saat, FAZM and Jaworski, AJ
(2013)
Oscillatory flow and heat transfer within parallel-plate heat exchangers of thermoacoustic systems.
In:
Proceedings of the World Congress on Engineering 2013. Lecture Notes in Engineering and Computer Science.
World Congress on Engineering 2013, 03-05 Jul 2013, London, UK.
Newswood Limited
, 1699 - 1704.
ISBN 9789881925299
Abstract
Oscillatory flows past solid bodies are a feature typical for thermoacoustic systems. Understanding such flows is one of the keys for improving the system performance. This work investigates oscillatory flows around parallel-plate heat exchanger through numerical modeling developed based on the experimental data obtained in-house within a standing-wave thermoacoustic setup. Attention is given to developing a model that can explain the physics of phenomena observed in the experimental work. Four drive ratios (defined as maximum pressure amplitude to mean pressure) were investigated: 0.3%, 0.45%, 0.65% and 0.83%. The suitability of selected turbulence models for predicting the flow phenomena at varied drive ratios has been tested. Discussion of results is based on the velocity profiles and vorticity contours within the flow. Associated heat transfer phenomena are also discussed.
Metadata
Item Type:
Proceedings Paper
Authors/Creators:
Saat, FAZM
Jaworski, AJ
Copyright, Publisher and Additional Information:
(c) 2013, Newswood Limited. This is an author produced version of a paper published in Lecture Notes in Engineering and Computer Science; Proceedings of the World Congress on Engineering 2013. Uploaded in accordance with the publisher's self-archiving policy
CORE (COnnecting REpositories)
CORE (COnnecting REpositories)