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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
A. Kitagawa, R. Kobayashi, P. Denissenko, Y. Murai
Natural convection heat transfer enhancement using bubble injection between vertical parallel plates
International Journal of Heat and Mass Transfer (Accepted, 2022)
A. Takii, M. Yamakawa, A. Kitagawa, T. Watamura, Y.M. Chung, M. Kim
A numerical model for cough-generated droplet dispersion on moving escalator with multiple passengers
Indoor air 32, 1-13 (2022) [Link]
A. Kitagawa, M. Ota, T. Watamura, T. Tonooka, Y. Murai
Microplastic particle trapping through microfluidic devices with different shaped pillars
Chemical Engineering Science 264, 118163 (2022) [Link]
A. Kitagawa, R. Kobayashi, Y. Munezane
Experimental investigation of natural convection bubbly flows along a vertical heated plate with mixed-wettability surfaces
Journal of Visualization 14, 1-11 (2022) [Link]
A. Kitagawa, P. Denissenko, Y. Murai
Entrapment and cross-flow transport of air bubbles by a hydrophobic strip in a turbulent channel flow
Experiments in Fluids 62, 198 (2021) [Link]
M. Yamakawa, A. Kitagawa, K. Ogura, Y.M. Chung, M. Kim
Computational investigation of prolonged airborne dispersion of novel coronavirus-laden droplets
Journal of Aerosol Science 155, 105769 (2021) [Link]
A. Kitagawa, Y. Shiomi, Y. Murai, P. Denissenko
Transient velocity profiles and drag reduction due to air-filled superhydrophobic grooves
Experiments in Fluids 61, 237 (2020) [Link]
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–{‹@ŠBŠw‰ï‹³ˆçÜ  (“ú–{‹@ŠBŠw‰ï)  2012”N4ŒŽ
“ú–{‹@ŠBŠw‰ï—¬‘̍HŠw•”–åvŒ£Ü   (“ú–{‹@ŠBŠw‰ï¥—¬‘̍HŠw•”–å)  2010”N10ŒŽ
ƒOƒbƒhƒvƒŒƒ[ƒ“ƒe[ƒVƒ‡ƒ“Ü  (‰ÂŽ‹‰»î•ñŠw‰ï)  2007”N9ŒŽ
“ú–{‹@ŠBŠw‰ïÜ(˜_•¶)  (“ú–{‹@ŠBŠw‰ï)   2005”N4ŒŽ 
“ú–{¬‘Š—¬Šw‰ï§—ãÜ   (“ú–{¬‘Š—¬Šw‰ï)   2002”N7ŒŽ

0Research Grants
•¶•”‰ÈŠwÈC—ߘa04”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(B)  F‘ã•\ (2022-2024)
•¶•”‰ÈŠwÈC•½¬31”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\ (2019-2021)
•¶•”‰ÈŠwÈC•½¬28”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\ (2016-2018)
•¶•”‰ÈŠwÈC•½¬25”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(C)  F‘ã•\ (2013-2015)
•¶•”‰ÈŠwÈC•½¬22”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥ŽáŽèŒ¤‹†(B)  F‘ã•\ (2010-2012)
•¶•”‰ÈŠwÈC•½¬17”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥ŽáŽèŒ¤‹†(B)    F‘ã•\ (2005-2006) 
•¶•”‰ÈŠwÈC—ߘa03”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(A)  F•ª’S (2021-2025)
•¶•”‰ÈŠwÈC•½¬29”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(A)  F•ª’S (2017-2020)
•¶•”‰ÈŠwÈC•½¬24”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(A)  F•ª’S (2012-2016)
•¶•”‰ÈŠwÈC•½¬21”N“x ‰ÈŠwŒ¤‹†”ï•â•‹à¥Šî”ÕŒ¤‹†(B)  F•ª’S (2009-2011)
JKAC2021”N“x‹@ŠBU‹»•â•Ž–‹ÆEŒ¤‹†•â•i•¡””Nj  F‘ã•\ (2021-2022)
JKAC2019”N“x‹@ŠBU‹»•â•Ž–‹ÆEŒ¤‹†•â•i•¡””Nj  F‘ã•\ (2019-2020)
‚‹´ŽY‹ÆŒoÏŒ¤‹†à’cC•½¬29”N“xŒ¤‹†•¬  F‘ã•\ (2017)
‘¢‘DŠwpŒ¤‹†„i‹@\C•½¬26”N“xŒ¤‹†•¬  F‘ã•\ (2014-2015)
ŠÖ¼´ÈÙ·Þ°¥Ø»²¸Ù‰ÈŠwŒ¤‹†U‹»à’cC‘æ22‰ñŒ¤‹†•¬  F‘ã•\ (2014)
Z—Fà’cC2011”N“xŠÂ‹«Œ¤‹†•¬  F‘ã•\ (2011-2012)
Šâ’J’¼Ž¡‹L”Oà’cC‘æ36‰ñ(•½¬21”N“x)Šâ’J‰ÈŠw‹ZpŒ¤‹†•¬  F‘ã•\ (2010)
ƒ}ƒcƒ_à’cC‘æ24‰ñ(2008”N“x)ƒ}ƒcƒ_Œ¤‹†•¬  F‘ã•\ (2009)
‰ÈŠw‹ZpU‹»‹@\C•½¬23”N“x‘æ2‰ñ(A|STEP)  F‘ã•\ (2011-2012)
‰ÈŠw‹ZpU‹»‹@\C•½¬21”N“xuƒV[ƒY”­Œ@ŽŽŒ±vA  F‘ã•\ (2009)
“ú“Œ“dHEŒ¤‹†Œð—¬  F‘ã•\ (2007-2009)

0Links
•H“c Œöˆê  ‹³Žö   –¾Ž¡‘åŠw  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  
Šp–ì °•F    ‹³Žö   Šò•ŒH‹Æ‚“™ê–åŠwZ  
Petr Denissenko  y‹³Žö   ‰p‘ƒEƒH[ƒŠƒbƒN‘åŠw  
‹àŽq ‹ÅŽq  y‹³Žö   ’}”g‘åŠw  
Îì ³–¾  y‹³Žö   —®‹…‘åŠw  
‘åÎ ‹`•F  y‹³Žö   Žº—–H‹Æ‘åŠw  

 
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