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  • Ž–¼F –kìÎ‰p (A. Kitagawa)
  • Š‘®F ‹ž“sHŒ|‘@ˆÛ‘åŠw ‹@ŠBHŠwŒn
  • E–¼F y‹³Žö
  • E-mailF kitagawa—kit.ac.jp

0Profile
1974”N9ŒŽ  Ž ‰êŒ§•FªŽs‚É‚Ä’a¶ 
2002”N3ŒŽ •Ÿˆä‘åŠw‘åŠw‰@HŠwŒ¤‹†‰ÈƒVƒXƒeƒ€ÝŒvHŠwêUC—¹C”ŽŽm(HŠw) 
   (ŠwˆÊ˜_•¶FHigh Resolution Analysis of Dispersed Multiphase Flows)
2002”N4ŒŽ  ŠCã‹ZpˆÀ‘SŒ¤‹†Š’m“I——¬§ŒäŒ¤‹†ƒZƒ“ƒ^[C“Á•ÊŒ¤‹†ˆõ 
2004”N4ŒŽ  ŠCã‹ZpˆÀ‘SŒ¤‹†ŠC‹qˆõŒ¤‹†ˆõ(`2005”N3ŒŽ)
2004”N4ŒŽ  ‹ž“sHŒ|‘@ˆÛ‘åŠwC•Žè
2007”N4ŒŽ  ‹ž“sHŒ|‘@ˆÛ‘åŠwC•‹³
2009”N2ŒŽ  ‹ž“sHŒ|‘@ˆÛ‘åŠwCy‹³Žö
2014”N9ŒŽ  ‰p‘ƒEƒH[ƒŠƒbƒN‘åŠwC‹qˆõŒ¤‹†ˆõ(`2014”N11ŒŽ)
2015”N4ŒŽ  ‰p‘ƒEƒH[ƒŠƒbƒN‘åŠwC‹qˆõy‹³Žö(`2016”N2ŒŽ)
 

0Selected Papers
T. Watamura, A. Kitagawa, Y. Murai
Cloud structuring of microbubbles ascending along a vertical wall
Chemical Engineering Science 208, 115132 (2019) [Link]
A. Kitagawa, P. Denissenko, Y. Murai
Behavior of bubbles moving along horizontal flat plates with different surface wettability
Experimental Thermal and Fluid Science 104, 141-152 (2019) [Link]
A. Kitagawa, P. Denissenko, Y. Murai
Effect of heated wall inclination on natural convection heat transfer in water with near-wall injection of millimeter-sized bubbles
International Journal of Heat and Mass Transfer 113, 1200-1211 (2017) [Link]
A. Kitagawa, P. Denissenko, Y. Murai
Effect of wall surface wettability on collective behavior of hydrogen microbubbles rising along a wall
Experimental Thermal and Fluid Science 80, 126-138 (2017) [Link
A. Kitagawa, Y. Murai
Pulsatory rise of microbubble swarm along a vertical wall
Chemical Engineering Science 116, 694-703. (2014) [Link]
A. Kitagawa, Y. Murai
Natural convection heat transfer from a vertical heated plate in water with microbubble injection
Chemical Engineering Science 99, 215-224. (2013) [Link]
A. Kitagawa, T. Mimura, M. Ishikawa, Y. Murai
Visualization of counter-current convection induced by microbubbles and small particles
Journal of Visualization 16, 313-321. (2013) [Link]
A. Kitagawa, H. Endo, Y. Hagiwara
Effects of sub-millimeter-bubble injection on transition to turbulence in natural convection boundary layer along a vertical plate in water
Experiments in Fluids 51, 701-710. (2011) [Link]
A. Kitagawa, K. Kimura, Y. Hagiwara
Experimental investigation of water laminar mixed-convection flow with sub-millimeter bubbles in a vertical channel
Experiments in Fluids 48, 509-519. (2010) [Link]
A. Kitagawa, K. Kitada, Y. Hagiwara
Experimental study on turbulent natural convection heat transfer in water with sub-millimeter-bubble injection
Experiments in Fluids 49, 613-622. (2010) [Link]
A. Kitagawa, K. Uchida, Y. Hagiwara
Effects of bubble size on heat transfer enhancement by sub-millimeter bubbles for laminar natural convection along a vertical plate
International Journal of Heat and Fluid Flow 30, 778-788. (2009) [Link]
A. Kitagawa, K. Kosuge, Y. Hagiwara
Heat transfer enhancement for laminar natural convection along a vertical plate due to sub-millimeter-bubble injection
Experiments in Fluids 45, 473-484. (2008) [Link]
A. Kitagawa, Y. Hagiwara, T. Kouda
PTV investigation of phase interaction in dispersed liquid-liquid two-phase turbulent swirling flow
Experiments in Fluids 42, 871 - 880. (2007) [Link]
A. Kitagawa, K. Hishida, Y. Kodama
Flow structure of microbubble-laden turbulent channel flow measured by PIV combined with the Shadow Image Technique
Experiments in Fluids 38, 466-475. (2005) [Link]
A. Kitagawa, K. Sugiyama, Y. Murai
Experimental detection of bubble-bubble interactions in a wall-sliding bubble swarm
International Journal of Multiphase Flow 30, 1213-1234. (2004) [Link]
A. Kitagawa, Y. Murai, F. Yamamoto
Two-way coupling of Eulerian-Lagrangian model for dispersed multiphase flows using filtering functions
International Journal of Multiphase Flow 27, 2129-2153. (2001) [Link]

0Awards
“ú–{¬‘Š—¬Šw‰ï§—ãÜ   (“ú–{¬‘Š—¬Šw‰ï)   2002”N7ŒŽ
“ú–{‹@ŠBŠw‰ïÜ(˜_•¶)  (“ú–{‹@ŠBŠw‰ï)   2005”N4ŒŽ 
ƒOƒbƒhƒvƒŒƒ[ƒ“ƒe[ƒVƒ‡ƒ“Ü  (‰ÂŽ‹‰»î•ñŠw‰ï)  2007”N9ŒŽ
“ú–{‹@ŠBŠw‰ï—¬‘̍HŠw•”–åvŒ£Ü   (“ú–{‹@ŠBŠw‰ï¥—¬‘̍HŠw•”–å)  2010”N10ŒŽ
“ú–{‹@ŠBŠw‰ï‹³ˆçÜ  (“ú–{‹@ŠBŠw‰ï)  2012”N4ŒŽ

0Research Grants
•¶•”‰ÈŠwÈC•½¬17”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥ŽáŽèŒ¤‹†(B)    F‘ã•\(2005-2006) 
•¶•”‰ÈŠwÈC•½¬21”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(B)  F•ª’S(2009-2011)
•¶•”‰ÈŠwÈC•½¬22”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥ŽáŽèŒ¤‹†(B)  F‘ã•\(2010-2012)
•¶•”‰ÈŠwÈC•½¬24”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(A)  F•ª’S(2012-2016)
•¶•”‰ÈŠwÈC•½¬25”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\(2013-2015)
•¶•”‰ÈŠwÈC•½¬28”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\(2016-2018)
•¶•”‰ÈŠwÈC•½¬29”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(A)  F•ª’S(2017-2021)
•¶•”‰ÈŠwÈC•½¬31”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\(2019-2021)
‰ÈŠw‹ZpU‹»‹@\C•½¬21”N“xuƒV[ƒY”­Œ@ŽŽŒ±vA  F‘ã•\(2009)
‰ÈŠw‹ZpU‹»‹@\C•½¬23”N“x‘æ2‰ñ(A|STEP)  F‘ã•\(2011-2012)
ƒ}ƒcƒ_à’cC‘æ24‰ñ(2008”N“x)ƒ}ƒcƒ_Œ¤‹†•¬  F‘ã•\(2009)
Šâ’J’¼Ž¡‹L”Oà’cC‘æ36‰ñ(•½¬21”N“x)Šâ’J‰ÈŠw‹ZpŒ¤‹†•¬  F‘ã•\(2010)
Z—Fà’cC2011”N“xŠÂ‹«Œ¤‹†•¬  F‘ã•\(2011-2012)
ŠÖ¼´ÈÙ·Þ°¥Ø»²¸Ù‰ÈŠwŒ¤‹†U‹»à’cC‘æ22‰ñŒ¤‹†•¬  F‘ã•\(2014)
‘¢‘DŠwpŒ¤‹†„i‹@\C•½¬26”N“xŒ¤‹†•¬  F‘ã•\(2014-2015)
‚‹´ŽY‹ÆŒoÏŒ¤‹†à’cC•½¬29”N“xŒ¤‹†•¬  F‘ã•\(2017)
JKAC•½¬31”N“x‹@ŠBU‹»•â•Ž–‹ÆEŒ¤‹†•â•(•¡””N)  F‘ã•\(2019-2020)
“ú“Œ“dHEŒ¤‹†Œð—¬  F‘ã•\(2007-2009)


0Link
•H“c Œöˆê  ‹³Žö   –¾Ž¡‘åŠw / ŠCã‹ZpˆÀ‘SŒ¤‹†Š  Œcœä‹`m‘åŠwE–¼—_‹³Žö
‘ºˆä —Sˆê  ‹³Žö   –kŠC“¹‘åŠw  ‰ÈŒ¤”ïEŠî”ÕŒ¤‹†iAjEƒvƒƒWƒFƒNƒgƒŠ[ƒ_[
™ŽR ˜a–õ  ‹³Žö   ‘åã‘åŠw  
ŒF’J ˆê˜Y  ‹³Žö   –¾¯‘åŠw  
Petr Denissenko  y‹³Žö   ‰p‘ƒEƒH[ƒŠƒbƒN‘åŠw  
‹àŽq ‹ÅŽq  y‹³Žö   ’}”g‘åŠw  
Šp–ì °•F    y‹³Žö   Šò•ŒH‹Æ‚“™ê–åŠwZ  
Îì ³–¾  •‹³   —®‹…‘åŠw  
‘åÎ ‹`•F  •‹³   Žº—–H‹Æ‘åŠw  
“n‘º —Fº  •‹³   ‘åã‘åŠw  


 
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