Yaga Minoru - Profile on Academia.edu (original) (raw)
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Papers by Yaga Minoru
Study of Application of Compressible Flow and Shock Wave to PLA
Technical report of IEICE. SDM, 2008
Experimental Thermal and Fluid Science, 2007
zigzag pattern of fins than for a co-angular pattern. The heat transfer results show that a narro... more zigzag pattern of fins than for a co-angular pattern. The heat transfer results show that a narrow rectangular duct of 20 mm height with fin arrays in a zigzag pattern is the most effective, exhibiting a heat transfer enhancement at the endwall of more than four times over the case without fins wherein co-angular is the least recommended as it exhibits enhancement about a factor of more than three times. At flat plate boundary layer, i.e. in tall duct case both co-angular and zigzag patterns show almost same overall heat transfer enhancement about a factor of three times over the case without fins.
背景ガスによる対向衝撃波の通過後のレーザ誘起プルームの膨張【JST・京大機械翻訳】
Applied Physics A, 2020
Study of Application of Compressible Flow and Shock Wave to PLA
Technical report of IEICE. SDM, 2008
Experimental Thermal and Fluid Science, 2007
zigzag pattern of fins than for a co-angular pattern. The heat transfer results show that a narro... more zigzag pattern of fins than for a co-angular pattern. The heat transfer results show that a narrow rectangular duct of 20 mm height with fin arrays in a zigzag pattern is the most effective, exhibiting a heat transfer enhancement at the endwall of more than four times over the case without fins wherein co-angular is the least recommended as it exhibits enhancement about a factor of more than three times. At flat plate boundary layer, i.e. in tall duct case both co-angular and zigzag patterns show almost same overall heat transfer enhancement about a factor of three times over the case without fins.
背景ガスによる対向衝撃波の通過後のレーザ誘起プルームの膨張【JST・京大機械翻訳】
Applied Physics A, 2020