DocumentCode
2637083
Title
Impact of airflow impingment on heat transfer from induction generators in Oscillating Water Columns
Author
Ahmed, N. ; Mueller, M.A.
Author_Institution
Sch. of Eng., Univ. of Edinburgh, Edinburgh, UK
fYear
2012
fDate
27-29 March 2012
Firstpage
1
Lastpage
6
Abstract
Computational Fluid Dynamics models based on the LIMPET OWC turbo generation section were created to investigate how airflow impingement created by a rotating turbine directly upstream increased the heat transfer away from electrical generators as compared to purely axial airflow. Finned and smooth generator casings were compared for the two cooling methods. The CFD results of average heat flux and total heat transfer were compared with results obtained through theoretical and empirical equations applicable to axial airflow acting on smooth and finned surfaces with defined temperatures. During axial flow, the CFD and analytical results for heat flux and heat transfer correlated very well over a range of velocities with a maximum deviation of 4.94%. The highest heat transfer, and thus highest potential power output, was obtained by the finned generator when cooled via airflow impingement.
Keywords
asynchronous generators; computational fluid dynamics; cooling; fluid oscillations; turbogenerators; CFD model; LIMPET OWC turbo generation section; airflow impingment impact; average heat flux; axial airflow; computational fluid dynamic model; cooling method; electrical generator; finned generator casing; heat transfer correlation; induction generator; rotating turbine; smooth generator casing; water column oscillation; Computational Fluid Dynamics; Forced Convection; Oscillating Water Columns; Thermal Analysis; Wells Turbine;
fLanguage
English
Publisher
iet
Conference_Titel
Power Electronics, Machines and Drives (PEMD 2012), 6th IET International Conference on
Conference_Location
Bristol
Electronic_ISBN
978-1-84919-616-1
Type
conf
DOI
10.1049/cp.2012.0185
Filename
6242034
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