¡¡¡¡³W«hªi regular wave ¹L¤ôÂ_± flow cross-section
®ü¬v¤ô°Ê¤O¾Ç marine hydrodynamics
¥è©iÀN¯÷©w²z Helmholtz theorem
§t¨F¬y sediment-laden stream
§t¤ô¼h aquifer
¯Ó´² dissipation
¬x¤ôªi flood wave
¦Z½t trailing edge
·Æ²¾³t«× slip velocity
Àô¶q circulation
Àô¬y circulation
½w¬y subcritical flow
½w¿U deflagration
¦^¬y back flow
¶× sink
¿n¤À¤èªk integral method
¸ñ½u path, path line
¿Eªi shock wave
¿Eªi®·®»ªk shock-capturing method
¿Eªi¼h shock layer
¿EªiºÞ shock tube
¿EªiºÞ·¬} shock tube wind tunnel
¿EªiÀÀ¦Xªk shock-fitting method
¿Eªi°}± shock front
¿E¥ú¦h´¶°Ç´ú³tp laser Doppler anemometer, laser Doppler velocimeter
«æÅܬy rapidly varied flow
«æ¬y supercritical flow
¤L¦ó¬Û¦ü geometric similarity
pºâ¬yÊ^¤O¾Ç computational fluid mechanics
pºâ°Ï°ì computational domain
°Å¤Á¼h shear layer
°Å¤Á¬y shear flow
´îªý drag reduction
º¥Åܬy gradually varied flow
¼ßÊ^ slurry
°¤ô¦±½u dropdown curve
¥æ¿ùÊI®æ staggered mesh
¥æ´À¤è¦VÁô®æ¦¡ alternating direction implicit scheme, ADI scheme
¤¶½è medium
ºò®t¤À®æ¦¡ compact difference scheme
¶i¤f entrance, inlet
ªñ³õ¬y near field flow
ªñ¦ü¦]¤l¤À¸Ñªk approximate factorization method
ÀR[ºA]®Õã static calibration
ÀRÀ£ºÞ static [pressure]tube
ÀRÀ£ÀY static head
Ãè¶Hªk image method
§½°ì¬Û¦ü local similarity
¯x¶qªk moment method
¨÷µ©´õM roll cell
µ´¼ö¬y adiabatic flow
§¡¤Ã¬y uniform flow
¥dªù´õµó Karman vortex street
¶}º¸¤å©w²z Kelvin theorem
¥iÀ£ÁY¬y[°Ê] compressible flow
¥iÀ£ÁY¬yÊ^ compressible fluid
§JÄõ§J-¥§¬ìº¸´Ë®æ¦¡ Crank-Nicolson scheme
ªÅ¤Æ cavitation
ªÅ¤Æ¼Æ cavitation number
ªÅªw¬y cavity flow
ªÅÉa°Ê¤O¾Ç aerodynamics
ªÅ»k cavitation damage
¤ÕªO¬y¶qp orifice meter
¤Õ¬y orifice flow
±±¨îÊ^¿n control volume
®w®J¯S¬y Couette flow
®w¶ð-¯ø¥i¤Ò´µ°ò±ø¥ó Kutta-Zhoukowski condition
¸óÁn³t¬y[°Ê] transonic flow
ÂX´² diffusion
ÂX´²¬q diffuser
ÂX´²²v diffusivity
ÂX´²³t«× diffusion velocity
ÂX´²©Ê diffusivity
©Ô§J´µ-·Å¼wù¤Ò®æ¦¡ Lax-Wendroff scheme
©Ô§J´µµ¥É²©w²z Lax equivalence theorem
©Ô¥Ëº¸¼QºÞ Laval nozzle
¨Ó¬y incoming flow
Äõª÷-¤_¤à¥§¶ø±ø¥ó Rankine-Hugoniot condition
¹p¿Õ¤ñÀÀ Reynolds analogy
¹p¿Õ¼Æ Reynolds number
Íùªy centipoise
Íùªb centistoke
¾¤°Ò¸Ñºâ¤l Riemann solver
ÖÃ¸Ñ dissociation
Öô²´õ discrete vortex
³sÄò¤¶½è°²³] continuous medium hypothesis
³sÄò¤¶½è¤O¾Ç mechanics of continuous media
º§º¬ ripple
¶q¼öª¬ºA¤èµ{ caloric equation of state
Á{¬É¹p¿Õ¼Æ critical Reynolds number
Á{¬É¬y critical flow
Á{¬É¼ö³q¶q critical heat flux
¬y[°Ê] flow
¬y³õ flow field
¬y¥XÃä¬É±ø¥ó outflow boundary condition
¬y°Ê°Ñ¶q flow parameter
¬y°Ê¤ÀÖà flow separation
¬y°Êéw©Ê flow stability
¬y°ÊÅã¥Ü flow visualization
¬yºÞ stream tube
¬y¨ç¼Æ stream function
¬y¶q flow rate, flow discharge
¬y¶qp flow meter
¬y± stream surface
¬y¤JÃä¬É±ø¥ó inflow boundary condition
¬y³tp anemometer
¬yºA flow regime
¬yÊ^°Ê¤O¾Ç fluid dynamics
¬yÊ^ÊI®æªk fluid in cell method, FLIC method
¬yÊ^¹B°Ê¾Ç fluid kinematics
¬yÊ^½èÂI fluid particle
¬y½u stream line
°¨»®ªi Mach wave
°¨»®¨¤ Mach angle
°¨»®¼Æ Mach number
°¨»®½u Mach line
°¨»®À@ Mach cone
°¨¿á´õ horseshoe vortex
¯ß½u streak line
¤ò²Ó[ºÞ]§@¥Î capillarity
À±´² dispersion
©ú¼Ñ¬y open channel flow
¿iÀ¿·l¥¢ friction loss
¿iÀ¿¦]¤l friction factor
¿p°Ò-¬ìº¸®æ¦¡ Murman-Cole scheme
¯Çºû-´µ¦«§J´µ¤èµ{ Navier-Stokes equation
¤º¬y internal flow
¯à¶q¶Ç»¼ energy transfer
¯à¶qªk energy method
¯à¶q¤èµ{ energy equation
¯à¶q«p«× energy thickness
¯à¶q¦uùÚ conservation of energy
¯à¶q¿é¹B energy transport
ÀÀ§Çµ²ÌÛ coherent structure
¾®µ² condensation
¤û¹y¬yÊ^ Newtonian fluid
¿@«× concentration
§V¶ë¯S¼Æ Nusselt number
¼Ú©Ô¤èµ{ Euler equation
¼Ú©Ô¼Æ Euler number
