김정식 scite author profile

In this study, numerical analysis was performed on three shapes of heat transfer plates (chevron, wave and dimple type), which are currently used as fillers of cooling towers. Results show that heat transfer rates per consumed power were larger for enhanced plates as compared with that of plain plate. Highest heat transfer coefficient was obtained for wave shape followed by chevron and dimple shape. For wave shape, cross corrugations induced significant mixing of fluids, which enhanced the heat transfer. Friction factor yielded a similar trend with the heat transfer coefficient. However, heat transfer rate and pressure drop per sheet was the largest for chevron shape, due to the largest heat transfer area per sheet.

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Incident Angle Dependence of Quantum Efficiency in c-Si Solar Cell or a-Si Thin Film Solar Cell in BIPV System

강정욱¹,

손찬희²,

조광섭³

et al. 2012

Journal of the Korean Vacuum Society

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A Study of Strategic Approach for Course and Program Outcomes Assessmen

김정식¹

2007

journalofengineeringeducationresearch

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김정식

Preparation of the Titanium Dioxide-Phosphor Composite and its Photocatalytic Reaction under Visible Light

Study of Low Reflectance and RF Frequency by Rie Surface Texture Process in Multi Crystall Silicon Solar Cells

Performance Comparison of Heat Transfer Plates for Cooling Tower Air Heater Through Numerical Analysis

Incident Angle Dependence of Quantum Efficiency in c-Si Solar Cell or a-Si Thin Film Solar Cell in BIPV System

A Study of Strategic Approach for Course and Program Outcomes Assessmen

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