WPCQ 2BVVZ\3|w'le)l8wC;,[hXw P7XP"Sh5^;C]ddCCCdCCCCddddddddddCCȲY~~wCN~sk~CCCddCYdYdYCdd88d8ddddJN8ddddYYdYddddddCddddddddd8YYYYYY~Y~Y~Y~YC8C8C8C8ddddddddddYdddddsdddddddd~d~d~d~ddddddddd8ddddoddd~d~d~8~8vddddddkNkdkd~d~d~ddddddYCddCCCWxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxNdddCYQQddddddFddddFCChhd44ddzzdddwooChdF"Ȑdhd岲dCCȐzȲxCddodȐȅdCdYdsȐ]ȐȐȧzȐUwŐdȐYYCCCCŐz~ozoY~NYdYC8YooYdYzsdzdd~YYzozzz~CdzYzzzzCCdddddddzCsdYCxHP LaserJet IIIHPLASIII.PRSXw P7,\,XP2n  USCE3|w"Sh5^6=U\\===\====\\\\\\\\\\==\zzpGXzpfzz===\\=\fQfQA\f3=f3f\ffQG=f\\\Q\\\\\\\\\=\\\\\\\\f3\\\\\QzQzQzQzQG3G3G3G3f\\\\ffff\\f\\\\pf\\\\\\fz\z\z\z\\\\\\ff\3\f\\Gfi\\fz\z\zGz3ff\\ψ\\fGf\f\z\z\z\fffff\zQ=\\===WxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxN\\\=\NN\\\\\\A\\\\A==ii\00\\pp\\\sff=i\A"\i\壣\==px=\\f\z\=\Q\i~XzpNmń\\\====ńpzfpfzQzGzQQQG3QzffQz\Qpp\p\\zQQzpfpppzG\pQpppp==\\\\\\\p=p\Q=x"Sh5^;C]ddCCCdCCCCddddddddddCCȲY~~wCN~sk~CCCddCYdYdYCdd88d8ddddJN8ddddYYdYddddddCddddddddd8YYYYYY~Y~Y~Y~YC8C8C8C8ddddddddddYdddddsdddddddd~d~d~d~ddddddddd8ddddoddd~d~d~8~8vddddddkNkdkd~d~d~ddddddYCddCCCWxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxNdddCYQQddddddFddddFCChhd44ddzzdddwooChdF"Ȑdhd岲dCCȐzȲxCddodȐȅdCdYdsȐ]ȐȐȧzȐUwŐdȐYYCCCCŐz~ozoY~NYdYC8YooYdYzsdzdd~YYzozzz~CdzYzzzzCCdddddddzCsdYCx2 ZmHP LaserJet IIIHPLASIII.PRSx  @,\,X@"Sh5^;C]ddCCCdCCCCddddddddddCCȲY~~wCN~sk~CCCddCYdYdYCdd88d8ddddJN8ddddYYdYddddddCddddddddd8YYYYYY~Y~Y~Y~YC8C8C8C8ddddddddddYdddddsdddddddd~d~d~d~ddddddddd8ddddoddd~d~d~8~8vddddddkNkdkd~d~d~ddddddYCddCCCWxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxNdddCYQQddddddFddddFCChhd44ddzzdddwooChdF"Ȑdhd岲dCCȐzȲxCddodȐȅdCdYdsȐ]ȐȐȧzȐUwŐdȐYYCCCCŐz~ozoY~NYdYC8YooYdYzsdzdd~YYzozzz~CdzYzzzzCCdddddddzCsdYCxCourier 10cpiCG Times (Scalable)CG Times Bold (Scalable)Courier 10cpi (Italic)CG Times Italic (Scalable)"Sh5^;C]ddCCCdCCCCddddddddddCCȲdzN`zoȐCCCddCdoYoYFdo8Co8odooYNCodddYdddddddddCddddddddo8dddddϐYYYYYN8N8N8N8oddddooooddoddddzoddddddodddddddddood8doddNorddoddN8ooddddoNododdddoooooȐdYCddCCCWxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxNdddCdUUddddddFddddFCCssd44ddzzddd~ooCsdF"Ȑdsd岲dCCȐzȲxCddodȐȅdCdYdsȐ`ȐȐȮzȐUwŐdȐddCCCCŐzozoYNYYYN8YooYdYzzdzddYYzozzzNdzYzzzzCCdddddddzCzdYCx2(Y#v ("Sh5^$(8<><q*"xxxxWWxxxWWkkxxxa7TechnicalTechnical Document Style(@D i) . a8TechnicalTechnical Document Style(D a) . PleadingHeader for numbered pleading paperP@n   $] X X` hp x (#%'0*,.8135@8:$$$@@$$$$$@$$$@HH$$,,6H$H$4$&66$$@$$@X"HHHH44HHH$4HH$44@@HHH$@@HHH @$HHHHH4,H@4444444444xH$,$($@H4H0$$4 $)48.HH4444444444HHHHH!H4444HHHHHHHHHHHHHHHHHHH44HHHHHH<0,8H4HHH*4444HHHHHH444$44H44HHH444 4444 44444444444444444444444444444444444444444444444444444444444444444,,,(,(0 ,( 4$4 0 0(<(0 0$4 4,,$,$$( ( 0,,(8,,,,,4$4((, ,,,,$$$$,4$$$(((,)$ x?xxx,wx6X@8;X@l@8wC;,[hXw P7XPA7zC;,"sXz_ p^7XlFV"G($,hG P7hPlD3m=6,#{&m P7&P lEOA%!,JA P7JP?xxx,;Ax6Nh ;XHX F($,RohF&_ x$&7hXl3+,+ P7P 5*,RS*&_ x$&7X2p=6,"h&p_ p^7&  XX` ` (#` (a) . NEw@h B VVV^2V2f2Q X-#Xw P7[hXP#  #Xw P7[hXP# #Xw P7[hXP#"Data Bank Contribution" hhCqpp  )  Y-Data set for " Structure of Turbulence in an Incipient-Separating Axisymmetric Flow " by Rakesh K. Singh and Ram S. Azad, J. Fluids Eng.,Vol. 117, September 1995.  yx dddy Note: This document (total 19 pages) has been prepared using WordPerfect for Windows Version 5.1 in CG Times (scalable) font (point size 12) for HP Laserjet III printer.  Yyx ddd&y  Yi-    YR-1. Parameters of 8$ Nominal Total Angle Conical Diffuser Flow  T; -#&m P7#{&P# Y ddx !ddx RRR Y  8     Station  x m/ w  T  RL m /   T  UcL m/s8 P  x,   g h g  P` K  wx,  Pipe w ܩ0.025w 0.0508w 12.90` `   wwx,  1[w 0.046[w 0.053[w 12.27` `  2w 0.156w 0.061w 10.92` ` [ 3w 0.196w 0.063w 10.55` `  4{w 0.236{w 0.066{w 10.27` `  5w 0.316w 0.072w 9.77` ` { 6;w 0.395;w 0.077;w 9.37` `  wwx,  7w 0.507w 0.085w 8.95` ` ; wwx,  8w 0.557w 0.088w 8.75` `  9[w 0.695[w 0.098[w 8.03` H   wvx,  Diffuser exitv 0.745v 0.101v 7.80H  [v Y-#Xw P7[hXP#  Y-Station refers to the station numbers indicated in Fig. 1 of the paper; x is the axial distance  Yufrom the entrance face of the conical diffuser; RL is the local radius at x-station; and UcL is the centerline velocity.    &0*((aa)e '#  .114kk '#  &  Y-Ԍ    Y-2. Mean Velocity Profiles Data for Stations 2, 5, 6, 8 and 9 in the Conical Diffuser  Y- x=0.156 m  ccC x=0.316 mkk x=0.395 m ! 1 ddddddd8ddwhxLky/R SUB L HORZ 300 U/U SUB cL HORZ 375 y/R SUB L HORZ 400 U/U SUB cL HORZ 400 y/R SUB L HORZ 375 U/U SUB cLx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L'_U_U+cL" _y _R +L _U_Ul+cL,_y_R+L_U_UD+cL_/_/ _/w_/_/O_/L$(#(#%"%"(#(#!!%"$ "!%" $!%"  YH-%"%"(#(#H(#(#0.01639 0.209  ccC0.09030.28250.0839ssX0.2081  Y1-0.02459 0.27306ccC0.104170.29990.11613ssX0.24013  Y -0.04918 0.34539ccC0.118060.322420.12903ssX0.24867  Y -0.081967 0.40958ccC0.131940.339820.15484ssX0.28282  Y -0.13115 0.50  ccC0.194440.410440.16774ssX0.29242  Y -0.19672 0.59222ccC0.277780.522010.19355ssX0.32231  Y -0.2623 0.66365ccC0.305560.56090.21935ssX0.34365  Y -0.32787 0.72694ccC0.375q0.648930.24516ssX0.3714  Y-0.40984 0.79024ccC0.513890.792220.25806ssX0.381  Yy-0.52459 0.85533ccC0.652780.894580.30968ssX0.45358  Yb-0.62295 0.89693ccC0.763890.941660.36774ssX0.52295  YK-0.70492 0.9358ccC0.861110.980550.41935ssX0.59765  Y4-0.78689 0.96112ccC1q1kk0.48387ssX0.69157  Y-0.86885 0.98011ccCqkk0.54839ssX0.76521  Y-0.95082 0.99458ccCqkk0.6129ssX0.82711  Y-1[ [  1  ccCqkk0.67742ssX0.88581  Y-[ [    ccCqkk0.74452ssX0.92102  Y-[ [    ccCqkk0.80903ssX0.96051  Y-[ [    ccCqkk0.87355ssX0.97866  Y-[ [    ccCqkk1)ssX1 X#'0*((aaP(3 %" ! h.114kkXԌ  Y- x=0.557 m  ccC x=0.695 mkk  X- !A 1 ddddddd8ddwxDy/R SUB L HORZ 300 U/U SUB cL HORZ 375 y/R SUB L HORZ 400 U/U SUB cLx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L'_U_U+cL" _y _R +L _U_Ul+cL_/_/ _/w_/!$(#(#MM(#(#!AM$  Y-"AM $AM  Yv-MM(#(#v(#(#0.073864 0.1542ccC0.066530.11402  Y_-0.090909 0.16801ccC0.0818830.13079  YH-0.11364 0.18297ccC0.102350.14093  Y1-0.17045 0.22785ccC0.122820.15382  Y -0.28409 0.33602ccC0.153530.17272  Y -0.39773 0.46686ccC0.174q0.18773  Y -0.45455 0.5443ccC0.204710.21402  Y -0.47727 0.56732ccC0.235410.2378  Y -0.56818 0.6847ccC0.255890.24906  Y -0.68182 0.82278ccC0.286590.27972  Y-0.79545 0.9298ccC0.307060.29412  Yy-0.90909 0.97238ccC0.327530.31289  Yb-0.96591 0.9931ccC0.358240.34919  YK-1[ [  1  ccC0.388950.37797  Y4-[ [    ccC0.409420.403  Y-[ [    ccC0.460590.46934  Y-[ [    ccC0.511770.52065  Y-[ [    ccC0.583420.61577  Y-[ [    ccC0.614120.65081  Y-[ [    ccC0.716480.79224  Y-[ [    ccC0.767660.84856  Y-[ [    ccC0.818830.90113  Y|-[ [    ccC0.921190.97622  Ye-[ [    ccC0.972360.99499  YN-[ [    ccC1q1  X7- X#'0*((aaP(3 M< A .114kkXԌ  Y- 3. Data Presented in Figs. 211 of the Paper   Y- 3.1 Data for Fig. 2 Ra 1 ddddddd8ddw8xUx(m) HORZ 400 C SUB p HORZ 375 x(m) HORZ 400 u SUB * HORZ 450 x(m) HORZ 375 chi SUB wx6X@8;X@x6X@8;X@x6X@8;X@_x_m_C+p_x _m _u_x _mZ+w_(z_)E _(5 _)_(_)E+_/R$(#(#v(#(#!a$ "a $a  Y1-(#(#1(#(#0.046[ [  0.135  ccC0.046q0.395kk0.046)ssX0  Y -0.085[ [  0.220  ccC0.156q0.279kk0.156)ssX0.014  Y -0.105[ [  0.308  ccC0.196q0.235kk0.196)ssX0.048  Y -0.156[ [  0.410  ccC0.236q0.207kk0.236)ssX0.063  Y -0.196[ [  0.474  ccC0.316q0.170kk0.316)ssX0.142  Y -0.236[ [  0.516  ccC0.395q0.141kk0.395)ssX0.217  Y -0.275[ [  0.555  ccC0.507q0.114kk0.507)ssX0.265  Y-0.316[ [  0.589  ccC0.557q0.105kk0.557)ssX0.278  Yy-0.356[ [  0.615  ccC0.695q0.086kk0.695)ssX0.3  Yb-0.395[ [  0.636  ccC0.745q0.078  YK-0.427[ [  0.653  ccC0.0250.510  Y4-0.445[ [  0.666  Y-0.507[ [  0.687  Y-0.557[ [  0.706  Y-0.602[ [  0.716  Y-0.657[ [  0.730  Y-0.675[ [  0.737  Y-0.695[ [  0.743  Y-0.715[ [  0.746  Y|-0.735[ [  0.751  Ye-0.745[ [  0.753 X#'0*((aaP(3  a 8.114kkXԌ 3.2 Data for Fig. 3  1" ddddddd8Zddwxk;x(m) HORZ 300 u'/U SUB cL HORZ 350 S SUB u HORZ 425 F SUB ux6X@8;X@x6X@8;X@x6X@8;X@_x_mJ_u_U+cL[ _S +uz _F +u_(z_) _/k$(#(#(#(#!$ " $  Yv-(#(#v(#(#-0.015 0.03658ccC-0.5053.77  Y_-0.046[ [  0.03936ccC-0.4714.1  YH-0.085[ [  0.04221ccC-0.5044.3  Y1-0.156[ [  0.04657ccC-0.46q4.5  Y -0.196[ [  0.04882ccC-0.4634.65  Y -0.236[ [  0.05073ccC-0.4664.76  Y -0.316[ [  0.0541ccC-0.4745.21  Y -0.395[ [  0.05813ccC-0.44q5.24  Y -0.445[ [  0.06115ccC-0.50q5.5  Y -0.507[ [  0.06492ccC-0.55q5.61  Y-0.557[ [  0.07058ccC-0.6875.65  Yy-0.602[ [  0.07958ccC-0.8445.44  Yb-0.657[ [  0.09507ccC-0.9285.07  YK-0.695[ [  0.10617ccC-0.9535.0  Y4-0.73[ [  0.12049ccC-0.95q4.67  Y-0.745[ [  0.13017ccC-0.8934.4 X#'0*((aaP(3 X  .114kkXԌ  0dddddddd#8-ddwJ a=(overline { u sup 2}/{{U sup 2} sub bi}) HORZ 20 x HORZ 20 {10 sup 3} x6X@8;X@x6X@8;X@x6X@8;X@_az_u_U+bi _x__(2^_/j2m_)_103z $(#(#!$  Y-"3.3 Data for Fig. 4     " $  Y-(#(# x=0.025 m  ccC x=0.156 mkk x=0.316ssX [ [  0W dddddddd8ddwp^T y/R SUB L HORZ 400 a HORZ 450 y/R SUB L HORZ 400 a HORZ 500 y/R SUB L HORZ 425 ax6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_a_y _RX +L _a(_y_R+L7_a_/c _/_/ $(#(#v(#(#"$ $  YH-(#(#H(#(#1[ [  1.9538ccC0.00352.339kk1)ssX2.1408  Y1-0.88189 2.1962ccC0.0245912.1530.86111ssX2.6633  Y -0.78346 2.6349ccC0.0491813.0980.65278ssX5.3235  Y -0.58661 3.9003ccC0.0819715.02kk0.51389ssX9.2345  Y -0.38976 5.7829ccC0.1311516.4510.375)ssX14.86  Y -0.29134 6.8235ccC0.1967215.02kk0.30556ssX16.19  Y -0.19291 8.2755ccC0.262312.0870.27778ssX16.646  Y -0.09449 9.7732ccC0.3278710.0050.19444ssX14.643  Y-0.05512 10.735ccC0.409847.69320.09722ssX10.47  Yy-0.02559 13.012ccC0.524595.7299  Yb-0.00984 16.468ccC0.622954.6085  YK-[ [    ccC0.704923.7549  Y4-[ [    ccC0.786893.223  Y-[ [    ccC0.868852.7632  Y-[ [    ccC0.950822.368  Y-[ [    ccC1q2.3388 #'0*((aaP(e@ #.114kk w W p  Y-Ԍ  Y- x=0.395 m  ccC x=0.557 mkk x=0.695ssX [ [  0dddddddd8ddw^T y/R SUB L HORZ 400 a HORZ 450 y/R SUB L HORZ 400 a HORZ 500 y/R SUB L HORZ 425 ax6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_a_y _RX +L _a(_y_R+L7_a_/c _/_/ $(#(#(#(#"$ $  Y-(#(#(#(#1[ [  2.4241ccC0.068187.65kk0.07165ssX7.3  Yv-0.87097 2.9036ccC0.079547.75kk0.10235ssX7.5  Y_-0.74194 4.7386ccC0.113648.2kk0.20471ssX9.2906  YH-0.54839 11.614ccC0.2272711.7430.30706ssX12.369  Y1-0.48387 14.266ccC0.3409115.5060.40942ssX15.506  Y -0.36774 16.999ccC0.4545517.2080.51177ssX17.458  Y -0.22581 14.705ccC0.4772717.9640.56295ssX17.71  Y -0.09677 9.1651ccC0.5795516.4680.57011ssX17.964  Y -[ [    ccC0.6931812.5820.57318ssX18.22  Y -[ [    ccC0.806827.48260.59058ssX17.71  Y -[ [    ccC0.920454.01990.61412ssX17.458  Y-[ [    ccC0.965913.47340.71648ssX14.874  Yy-[ [    ccC1q3.32920.81883ssX11.95  Yb-[ [    ccCqkk0.89765ssX8.1548  YK-[ [    ccCqkk0.92119ssX7.8994  Y4-[ [    ccCqkk0.97236ssX6.7296  Y-[ [    ccCqkk1)ssX6.2398  Y- x=0.745 m  ccC [ [ C 0Bdddddddd8zddw@ ^ y/R SUB L HORZ 400 a x6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_a_/C $(#(# (#(#" $ $   Y|- (#(#|(#(#1[ [  8.0573  Ye-0.90099 10.2  YN-0.75248 15.1  Y7-0.65347 17.248  Y -0.62376 17.91  Y -0.60396 17.807  Y-0.55446 17.248  Y-0.40594 14.424  Y -0.25743 11.5  Y!-0.15842 8.5  Y"-0.064356 7.32 #'0*((aaP(e8 .114kk' @   Y-Ԍ 3.4 Data for Fig. 5  ! 0tdddddddd_8ddw N b=(LINE overline {uv} LINE/{{U sup 2} sub bi}) HORZ 20 x HORZ 20 {10 sup 3} x6X@8;X@x6X@8;X@x6X@8;X@_b_uv_Uy+bi_x_z_ _ _( _/2_)Y_10I3 $(#(#aa(#(#!!&a$ "!&a "!&a $!&a  Yv-aa(#(#v(#(# x=0.025 m  ccC x=0.156 mkk x=0.236ssX [ [ A 0dddddddd8ddw ^T y/R SUB L HORZ 400 b HORZ 450 y/R SUB L HORZ 400 b HORZ 500 y/R SUB L HORZ 425 bx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_b_y _RX +L _b(_y_R+L7_b_/c _/_/ $(#(#1(#(#"A$ $A  Y -(#(# (#(#1[ [  0.0334ccC1q0kk1)ssX0.0031  Y -0.80315 0.4355ccC0.918030.17580.92447ssX0.2046  Y -0.70472 0.6361ccC0.836070.36140.84894ssX0.3899  Y -0.50787 1.0879ccC0.672130.73830.77341ssX0.5977  Y -0.31102 1.5234ccC0.50821.13850.54683ssX1.2934  Y-0.11417 2.0087ccC0.344261.67430.30514ssX2.7482  Yy-0.035433 2.1054ccC0.180332.80110.24471ssX3.1684  Yb-[ [    ccC0.131153.15890.2145ssX3.1729  YK-[ [    ccC0.081972.86170.15408ssX2.9018  Y4-[ [    ccC0.049182.19030.063444ssX1.82  Y-[ [    ccCqkk0.028701ssX1.12  Y- x=0.316 m  ccC x=0.395 mkk x=0.557 [ [ a 0dddddddd8ddwx ^T y/R SUB L HORZ 400 b HORZ 450 y/R SUB L HORZ 400 b HORZ 500 y/R SUB L HORZ 425 bx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_b_y _RX +L _b(_y_R+L7_b_/c _/_/ $(#(#(#(#"a$ $a  Y-(#(#(#(#1[ [  0  ccC1q0kk0.02841ssX0.4301  Y|-0.86111 0.3524ccC0.935480.108430.06818ssX0.6777  Ye-0.65278 0.9623ccC0.870970.326190.11364ssX1.1223  YN-0.51389 1.7918ccC0.806450.560220.22727ssX2.4261  Y7-0.375[ [  2.7288ccC0.677421.10240.34091ssX3.3487  Y -0.31944 3.0135ccC0.483872.55710.47727ssX3.7499  Y -0.29167 3.1806ccC0.367743.3kk0.56818ssX3.4824  Y-0.25[ [  3.1445ccC0.25q2.85kk0.68182ssX2.5183  Y-0.16667 2.6782ccC0.161292.22280.8)ssX1.42  Y -0.09722 1.9608ccC0.058070.903580.82955ssX1.1385  Y!-0.02778 0.7681ccC0.032260.542150.88636ssX0.7364  Y"-[ [    ccCqkk0.94318ssX0.3271  Y#-[ [    ccCqkk1)ssX0 #'0*((aaP(&a2 _!  .114kk 2A   Y->ax    ccC0.Ԍ  Y- x=0.695 m  ccC [ [ C 0Bdddddddd8zddw ^ y/R SUB L HORZ 400 b x6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_b_/C $(#(# (#(#" $ $   Y- (#(#(#(#0.03071 0.2476  Yv-0.04094 0.3524  Y_-0.08188 0.60  YH-0.16377 1.1204  Y1-0.26612 2.0629  Y -0.36847 2.8662  Y -0.47083 3.5601  Y -0.52201 3.6234  Y -0.58342 3.6866  Y -0.67554 3.4065  Y -0.77789 2.6231  Y-0.88025 1.5072  Yy-0.9826 0.2675  Yb-1[ [  0.0  1  dddddddd 8i ddwH 1 h c=LINE overline {uv} line ( PARTIAL U/ PARTIAL y) HORZ 20 x HORZ 20 {10 sup 3} HORZ 50m SUP 2/s SUP 3 x6X@8;X@x6X@8;X@x6X@8;X@8cR8uvj8U8y8x8mr 8s88 B8  8,Z8,R8(8/28)r810bz3z28/ z3ߛ$(#(#4!$ "3.5 Data for Fig. 6 $  Y-(#(# x=0.156 m  ccC x=0.316 mkk x=0.395ssX  0dddddddd8ddw ^T y/R SUB L HORZ 400 c HORZ 450 y/R SUB L HORZ 400 c HORZ 500 y/R SUB L HORZ 425 cx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_c_y _RX +L _c(_y_R+L7_c_/c _/_/$(#(#(#(#!$ " $  Y-(#(#(#(#1[ [  0  ccC1q0kk1)ssX0  Y|-0.91803 0.4851ccC0.861110.55800.93548ssX0.2045  Ye-0.83607 1.7264ccC0.652788.67490.87097ssX1.1452  YN-0.67213 5.8962ccC0.5138920.9770.80645ssX3.1298  Y7-0.5082 11.86  ccC0.375q53.07kk0.67742ssX10.806  Y -0.34426 27.032ccC0.3194463.8910.48387ssX43.816  Y -0.18033 75.051ccC0.2916767.6150.36774ssX61.071  Y-0.13115 100.49ccC0.25q63.6370.16129ssX26.632  Y-0.08197 110.6  ccC0.1666744.5460.05807ssX22.065  Y -0.04918 98.005ccC0.0972242.2630.03226ssX18.544  Y!-[ [    ccC0.0277842.572) #' 0*((aaP(8    .114kk"  H  Y->   ccC0.Ԍ  Y- x=0.557 m  ccC x=0.695 mkk  0dddddddd8Sddw ^57 y/R SUB L HORZ 400 c HORZ 450 y/R SUB L HORZ 400 c x6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_c_y _RX +L _c_/c _/5߲$(#(#(#(#!$ " $  Y-(#(#(#(#0.02841 10.073ccC0.030713.6593  Yv-0.06818 9.0119ccC0.040944.5384  Y_-0.11364 9.5695ccC0.081884.7469  YH-0.22727 24.036ccC0.163776.4046  Y1-0.34091 44.529ccC0.2661216.168  Y -0.47727 52.046ccC0.3684727.971  Y -0.56818 47.149ccC0.4708338.336  Y -0.68182 30.866ccC0.5220140.465  Y -0.8[ [  11.246ccC0.5834242.832  Y -0.82955 6.5135ccC0.6755440.358  Y -0.88636 1.8366ccC0.7778926.783  Y-0.94318 0.5330ccC0.880258.7954  Yy-1[ [  0  ccC0.98260.296  Yb-[ [    ccC1q0  1 SddddddddP 28 ddw 1 d d= overline {v sup 2} ( PARTIAL U/ PARTIAL y) HORZ 20 x HORZ 20 {10 sup 3} HORZ 50m SUP 2/s SUP 3 x6X@8;X@x6X@8;X@x6X@8;X@8d8v8U8y&8xj8m8s8^8,8,z28(68/8)810z3z2N8/Z z3߄$(#(#!;$ ";3.6 Data for Fig. 7 "; $;  Y-(#(# x=0.156 m  ccC x=0.316 mkk x=0.395ssX ! 0tdddddddd8ddw ^T y/R SUB L HORZ 400 d HORZ 450 y/R SUB L HORZ 400 d HORZ 500 y/R SUB L HORZ 425 dx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_d_y _RX +L _d(_y_R+L7_d_/c _/_/$(#(#(#(#!!$ "! $!  Ye-(#(#e(#(#1[ [  0  ccC1q0kk1)ssX0  YN-0.91803 3.6043ccC0.861112.33830.93548ssX2.955  Y7-0.83607 6.7748ccC0.6527820.2840.87097ssX5.9599  Y -0.67213 13.814ccC0.5138937.8670.80645ssX10.887  Y -0.5082 22.811ccC0.375q87.5210.67742ssX26.391  Y-0.34426 45.247ccC0.31944102.230.48387ssX78.833  Y-0.18033 112.34ccC0.29167103.360.36774ssX99.564  Y -0.13115 145.71ccC0.25q99.0030.16129ssX42.004  Y!-0.081967 168.10ccC0.1666766.8310.05807ssX39.984  Y"-0.04918 156.87ccC0.0972265.3880.03226ssX34.016  Y#-[ [    ccC0.0277860.691 #' 0*((aaP(8  .114kk;E2 S  Y- ! t  ccC0.Ԍ  Y- x=0.557 m  ccC x=0.695 mkk A 0 dddddddd8SddwP ^46 y/R SUB L HORZ 400 d HORZ 450 y/R SUB L HORZ 400 dx6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_d_y _RX +L _d_/c _/4߱$(#(#(#(#!A$ "A $A  Yv-(#(#v(#(#[ [    ccC0.030715.9388  Y_-0.06818 14.827ccC0.040946.7919  YH-0.11364 15.761ccC0.081888.0271  Y1-0.22727 35.727ccC0.1637710.45  Y -0.34091 60.11  ccC0.2661225.115  Y -0.47727 84.768ccC0.3684743.624  Y -0.56818 79.563ccC0.4708357.871  Y -0.68182 59.099ccC0.5220166.076  Y -0.8[ [  26.887ccC0.5834270.491  Y -0.82955 18.39  ccC0.6755469.025  Y-0.88636 6.8893ccC0.7778951.796  Yy-0.94318 3.9282ccC0.8802524.503  Yb-1[ [  0  ccC0.98263.9688  YK-[ [    ccC1q0 3.7 Data for Fig. 8 a Pddddddd8ddw P.f=y sub {({overline {u sup 2}}) max}/R sub L x6X@8;X@x6X@8;X@x6X@8;X@bfby+u!bR.Lbz+(dd-Y2i+)+maxb/P$(#(#!aK$ PPddddddd8ddw  PE0e=y sub { line overline {uv} line max}/R sub L x6X@8;X@x6X@8;X@x6X@8;X@_e_y+uv_Ri+L_z+ O+  +maxt_/E,[[!D[!aK, "D["aK $D[$aK [[(#(#n 1  ddddddd8|ddw 1 Jg=y sub {[line {overline {uv} line ( PARTIAL U/ PARTIAL y)]max}}/R sub L x6X@8;X@x6X@8;X@x6X@8;X@_g_y+uvd+UD+y_R+L_+ + $+,+,z+[+(+/+)+]4+max$_/ n$(#(#(#(#!$V 1 l dddddddi8ddw 1 Eh=y sub {[{overline {v sup 2} ( PARTIAL U/ PARTIAL y)]max}}/R sub L x6X@8;X@x6X@8;X@x6X@8;X@bhby+v+U+y1bR.Lb+,+,z+[dd-Y2i+(I+/)+)y+]+maxb/V,(#(#!!", """ $$" e(#(# 1 ddddddd8!ddwX  x0x(m) HORZ 450 e HORZ 500 f HORZ 525 g HORZ 475 hx6X@8;X@x6X@8;X@x6X@8;X@8x8mv8e 8fh8g8h8(z8)ߋ$(#(#eOO(#(#!O$ "O $O  Y -OO(#(# (#(#-0.025 0.00590ccC0.006  Y -0.046[ [  0.05639ccC0.035  Y-0.156[ [  0.13115ccC0.129q0.1kk0.095  Y-0.236[ [  0.19637ccC0.208  Y -0.316[ [  0.27778ccC0.28q0.293kk0.309  Y!-0.395[ [  0.36129ccC0.355q0.40kk0.373  Y"-0.557[ [  0.47727ccC0.476q0.45kk0.50  Y#-0.695[ [  0.57318ccC0.57q0.60kk0.61  Yh$-0.745[ [  0.61386ccC0.603  Y:&- R#' 0*((aaP(-!  A  P.114kkPKsa P  Y-DP[e P   ccC0.    0.557 "  0l Yy-0.356 O" 0. X ccC0.695RԌ 3.8 Data for Fig. 9  Y- x=0.025 m  ccC x=0.236 mkk x=0.316  [ [ a 0W dddddddd8ddw  ^f y/R SUB L HORZ 400 S sub u HORZ 450 y/R SUB L HORZ 400 S sub u HORZ 500 y/R SUB L HORZ 425 S sub ux6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Sl+u@ _y0 _R +L_S+u_y_R?+L_S^+u_/ _/J_/a $(#(#v (#(#" $ $   YH- (#(#H(#(#1[ [  -0.432ccC1q-0.43kk1)ssX-0.443  Y1-0.88189 -0.481ccC0.92366-0.4680.86111ssX-0.503  Y -0.78346 -0.481ccC0.84733-0.4760.65278ssX-0.442  Y -0.58661 -0.382ccC0.69466-0.4270.51389ssX-0.426  Y -0.38976 -0.249ccC0.54198-0.3870.375)ssX-0.223  Y -0.29134 -0.187ccC0.38931-0.33kk0.30556ssX-0.055  Y -0.19291 -0.099ccC0.26718-0.1750.27778ssX0.0  Y -0.09449 -0.013ccC0.23664-0.0650.19444ssX0.238  Y-0.05512 -0.001ccC0.22137-0.0810.09722ssX0.447  Yy-0.02559 0.0404ccC0.20611-0.038)  Yb-0.00984 0.0404ccC0.190840.0166)  YK-[ [    ccC0.11450.248  Y4-[ [    ccC0.053440.3 X#' 0*((aaP(3 w  W .114kkXԌ  Y- x=0.395 m  ccC x=0.557 mkk x=0.695ssX a! 0 ddddddd8ddw(  ^f y/R SUB L HORZ 400 S sub u HORZ 450 y/R SUB L HORZ 400 S sub u HORZ 500 y/R SUB L HORZ 425 S sub ux6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Sl+u@ _y0 _R +L_S+u_y_R?+L_S^+u_/ _/J_/a$(#(# (#(#!! $ "!  $!   Y_- (#(#_(#(#1[ [  -0.46  ccC0.073860.45kk0.06653ssX0.3  YH-0.87097 -0.53  ccC0.113640.51kk0.07165ssX0.31  Y1-0.74194 -0.53  ccC0.227270.55kk0.10235ssX0.36  Y -0.54839 -0.4  ccC0.340910.311kk0.20471ssX0.49  Y -0.48387 -0.31  ccC0.454550.087kk0.30706ssX0.51  Y -0.36774 0.0  ccC0.477270.0kk0.35824ssX0.46  Y -0.22581 0.33  ccC0.57955-0.2160.40942ssX0.356  Y -0.16129 0.48  ccC0.69318-0.5140.51177ssX0.157  Y -0.12258 0.52  ccC0.80682-0.7650.56295ssX0.021  Y-0.08387 0.51  ccC0.92045-0.9060.57011ssX0.0  Yy-[ [    ccC0.96591-0.75kk0.57318ssX0.0  Yb-[ [    ccC1q-0.7kk0.59058ssX-0.05  YK-[ [    ccC1.0341-0.78kk0.61412ssX-0.11  Y4-[ [    ccC1.0795-0.8kk0.71648ssX-0.367  Y-[ [    ccCqkk0.81883ssX-0.687  Y-[ [    ccCqkk0.89765ssX-0.93  Y-[ [    ccCqkk0.92119ssX-0.945  Y-[ [    ccCqkk0.97236ssX-0.96  Y-[ [    ccCqkk1)ssX-0.97  Y-[ [    ccCqkk1.0256ssX-0.96  Y-[ [    ccCqkk1.0768ssX-0.95 X#' 0*((aaP(3 % !  ( .114kkXԌ  Y- x=0.745 m  ccC [ [ YA 0 dddddddd8ddw ^ y/R SUB L HORZ 400 S sub u x6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Sl+u_/Y $(#(# (#(#"A $ $A   Yv- (#(#v(#(#1.099[ [  -0.85  Y_-1.0495 -0.89  YH-1[ [  -0.922  Y1-0.9505 -0.9  Y -0.90099 -0.782  Y -0.75248 -0.351  Y -0.65347 -0.074  Y -0.62376 0.0  Y -0.60396 0.043  Y -0.55446 0.136  Y-0.40594 0.493  Yy-0.25743 0.48  Yb-0.15842 0.44  YK-0.064356 0.40 3.9 Data for Fig. 10  Y- x=0.025 m  ccC x=0.236 mkk x=0.316ssX [ [ aa 0dddddddd8ddw ^f y/R SUB L HORZ 400 F sub u HORZ 450 y/R SUB L HORZ 400 F sub u HORZ 500 y/R SUB L HORZ 425 F sub ux6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Fl+u@ _y0 _R +L_F+u_y_R?+L_F^+u_/ _/J_/a $(#(# (#(#"a $ $a   Y|- (#(#|(#(#1[ [  3.386  ccC1q2.97621)ssX3.3333  Ye-0.88189 3.2223ccC0.923663.29920.86111ssX3.2895  YN-0.78346 3.0992ccC0.847333.178kk0.65278ssX3.352  Y7-0.58661 3.0272ccC0.694663.20860.51389ssX3.0992  Y -0.38976 2.8382ccC0.541983.04260.375)ssX2.7752  Y -0.29134 2.7223ccC0.389312.994kk0.30556ssX2.6316  Y-0.19291 2.6155ccC0.267182.627kk0.27778ssX2.6316  Y-0.09449 2.6858ccC0.236642.63160.19444ssX2.6087  Y -0.05512 2.6572ccC0.221372.62240.09722ssX2.9703  Y!-0.02559 2.6525ccC0.206112.48320.02778ssX3.2328  Y"-[ [    ccC0.190842.584  Y#-[ [    ccC0.11452.6954  Yh$-[ [    ccC0.053442.7298  YQ%-[ [    ccC0.022903.0578 #'0*((aaP(e! A .114kk' a   Y-Ԍ Y-ԙ x=0.395 m  ccC x=0.557 mkk x=0.695  a 03ddddddd8ddw` ^f y/R SUB L HORZ 400 F sub u HORZ 450 y/R SUB L HORZ 400 F sub u HORZ 500 y/R SUB L HORZ 425 F sub ux6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Fl+u@ _y0 _R +L_F+u_y_R?+L_F^+u_/ _/J_/a$(#(# (#(#! $ "  $   Y- (#(#(#(#1[ [  3.3822ccC0.0738643.8kk0.06653ssX3.95  Yv-0.87097 3.4884ccC0.113643.6kk0.07165ssX3.92  Y_-0.74194 3.2967ccC0.227273.1kk0.10235ssX3.85  YH-0.54839 3.125  ccC0.340912.9kk0.20471ssX3.3  Y1-0.48387 2.765  ccC0.454552.6kk0.30706ssX3.0  Y -0.36774 2.5907ccC0.477272.61kk0.35824ssX2.8  Y -0.22581 2.8  ccC0.579552.9kk0.40942ssX2.67  Y -0.16129 3.1  ccC0.693183.2kk0.51177ssX2.45  Y -0.12258 3.12  ccC0.806823.8kk0.56295ssX2.38  Y -0.08387 3.5  ccC0.920454.53kk0.57011ssX2.35  Y -[ [    ccC0.965914.32kk0.59058ssX2.44  Y-[ [    ccC1q4.28kk0.61412ssX2.51  Yy-[ [    ccC1.03414.37kk0.71648ssX2.69  Yb-[ [    ccC1.07954.5kk0.81883ssX3.05  YK-[ [    ccCqkk0.89765ssX3.53  Y4-[ [    ccCqkk0.92119ssX3.80  Y-[ [    ccCqkk0.97236ssX4.50  Y-[ [    ccCqkk1)ssX4.73  Y-[ [    ccCqkk1.0256ssX4.60  Y-[ [    ccCqkk1.0768ssX3.50  Y- x=0.745 m  ccC Y 0ddddddd8ddw ^ y/R SUB L HORZ 400 F sub u x6X@8;X@x6X@8;X@x6X@8;X@_y_R+L_Fl+u_/Y$(#(# (#(#! $  X|-"  $   YN- (#(#N(#(# 1.099[ [  4.0  Y7-1.0495 4.4  Y -1[ [  4.43  Y -0.9505 4.30  Y-0.9010 3.97  Y-0.7525 2.85  Y -0.6535 2.58  Y!-0.6238 2.51  Y"-0.6040 2.63  Y#-0.5545 2.74  Yh$-0.4059 2.87  YQ%-0.2574 3.5  Y:&-0.1584 3.9  Y#'-0.0644 4.2 #'0*((aaP(e3 S 3` .114kk !   Y-Ԍ  Y-   3.10 Data for Fig. 11  Y- aaPipe (x=-0.025 m) qq x=0.236 m  Y-  vPresent data   Nagano and Tagawa (1990)  Present data  Yv-   ii/model  11 ddddddd8iddw0 xy (mm) HORZ 300overline{ v hat u hat v hat} HORZ 300 y (mm) HORZ 400overline{ v hat u hat v hat} HORZ 600 y (mm) HORZ 450overline{ v hat u hat v hat}x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8v8yr 8mm 8vr8u8v8y8mm8vf8u8v8(8)8(b 8)8(8) 8N888888z88ߏ$(#(#_E E (#(#!ME $ "ME  $ME   Y -E E (#(# (#(#50.8  vaa0.2665   50.8ii/]-0.077qq66.5!!yyD-0.24519  Y -40.8 aa0.2892   40.8ii/]-0.18236 qq61.5!!yyD-0.22914  Y -35.8 aa0.2636   25.8ii/]-0.16596 qq56.5!!yyD-0.25844  Y -25.8 aa0.2176   15.8 ii/]-0.11139 51.5 !!yyD-0.23007  Y -15.8 aa0.1467   5.8ii/]-0.04471 41.5!!yyD-0.21244  Y -5.8   vaa-0.07   2 ii/]-0.03 36.5!!yyD-0.19488  Y-2   vaa-0.04   ii/]qq20.5!!yyD-0.14777  Yy-   ii/]qq16.5!!yyD-0.05616  Yb-   ii/]qq14.5!!yyD0.0  YK-   ii/]qq13.5!!yyD0.0663  Y4-   ii/]qq10 !!yyD0.2  Y-   ii/]qq4.5!!yyD0.34318  Y-   ii/]qq2.5!!yyD0.34669  Y-  vx=0.236 m ii/] x=0.557 m  Y-Nagano and Tagawa (1990)   Present data Nagano and Tagawa (1990)  Y-   vmodel qq!!model  11ddddddd8iddw xy (mm) HORZ 300overline{ v hat u hat v hat} HORZ 300 y (mm) HORZ 400overline{ v hat u hat v hat} HORZ 600 y (mm) HORZ 450overline{ v hat u hat v hat}x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8v8yr 8mm 8vr8u8v8y8mm8vf8u8v8(8)8(b 8)8(8) 8N888888z88ߏ$(#(#|E E (#(#!ME $ "ME  $ME   Y7-E E (#(#7(#(#66.5  vaa-0.0899   3 ]0.63426 qq3 yyD0.41768  Y -61.5   vaa-   6 ]0.68077 qq6 yyD -  Y -56.5   vaa-0.1791   10 ]0.65197 qq10 yyD0.4199  Y-51.5   vaa-0.1988   20 ]0.51276 qq20 yyD0.39  Y-41.5   vaa-    30 ]0.349 qq30 !!yyD0.3731  Y -36.5  vaa-0.14546   40 ]- qq40 yyD0.01955  Y!-20.5  vaa-0.11569   42 ]0.005575 qq42 yyD-0.00608  Y"-16.5  vaa-0.04395   50 ]-0.09885 qq50 yyD-0.11579  Y#-14.5  vaa-0.00844   60 ]-0.2704 qq60 yyD-0.3  Yh$-13.5   vaa0.02654   70 ]-0.3732 qq70 yyD-  YQ%-10   vaa0.1   80 ]-0.40178 qq80 yyD-0.37363  Y:&-4.5   vaa0.20668   88 ]-0.27729 qq88 yyD-0.17017  Y#'-2.5   vaa0.16172   #'0*((aaP(eM E  0 .114kkME !   Y-Ԍ Y- X  aa x=0.745 m qq x=-0.025 m  Y- Present data    Nagano and Tagawa (1990)  Present data  Y-   ii/model  1  ddddddd8Addw !xy (mm) HORZ 300overline{ v hat u hat v hat} HORZ 300 y (mm) HORZ 400overline{ v hat u hat v hat} HORZ 600 y (mm) HORZ 450overline{ v hat {u hat} SUP 2 }x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8v8yr 8mm 8vr8u8v8y8mm8vf8u8(8)8(b 8)8(8)z2 @8N888888z8߁$(#(#  (#(#!M $ "M  $M   Y_-  (#(#_(#(#101  vaa-0.47247  101 ii/]-0.18652 qq50.8 yyD0.0  YH-95  vaa-0.44089  95 ii/]-0.22955 40.8 !!yyD0.24117  Y1-89   vaa-0.39503   89 ii/]-0.24903 qq35.8 yyD0.24193  Y -83  vaa-0.30744   83 ii/]-0.22061 qq25.8 yyD0.21458  Y -76   vaa-0.21779   76 ii/]-0.16568 15.8 yyD0.14395  Y -69   vaa-0.11584   69ii/]-0.08329 qq5.8 yyD0.06321  Y -63  vaa-0.02717  63 ii/ ]-0.0108 qq2 yyD0.0364  Y -61  vaa0.027331   61 ii/]0.008342  Y -56  vaa0.099576   56ii/]0.051252  Y-51  vaa0.16318   51 ii/]0.10627  Yy-43  vaa0.2992   43 ii/]0.18667  Yb-35   vaa0.4066  35 ii/]0.25676  YK-28   vaa0.50944   28 ii/]0.31621  Y4-21   vaa0.64589   21ii/ ]0.37566  Y-14   vaa0.6983   14 ii/]0.5126  Y-9   vaa0.65125   9 ii/]0.48037  Y-6  vaa0.71453   6 ii/]0.4887  Y-4  vaa0.72197   4 ii/]0.4633  Y-2  vaa0.62854   2 ii/]0.3952  Y-  vx=-0.025 m   ii/] x=0.236 m  Ye-Nagano and Tagawa (1990)   Present data qq Nagano and Tagawa (1990)  YN-   vmodel qq model f! 1"ddddddd8ddwh "xy (mm) HORZ 300overline{ v hat {u hat} SUP 2} HORZ 325 y (mm) HORZ 400overline{ v hat {{u hat} SUP 2}} HORZ 600 y (mm) HORZ 400overline{ v hat {{u hat} SUP 2}}x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8y| 8mm8v|8u8y8mml8v8u8(8)z2 8(l 8)z2l8(8)\z2@@@l8N88888f$(#(#7(#(#!!M$ "!M $!M  Y-(#(#(#(#50.8   vaa0.13775   66.5ii/]0.03966 qq66.5 !!yyD0.15523  Y-40.8   vaa0.21568   61.5 ii/]0.14324 qq 61.5 !!yyD-  Y -35.8   vaa-   56.5 ii/]0.22734qq56.5 !!yyD0.22011  Y!-25.8   vaa0.18163   51.5 ii/]0.23137 qq51.5!!yyD0.22937  Y"-15.8   vaa0.12305   41.5ii/]0.181 qq41.5!!yyD-  Y#-5.8   vaa0.03958   36.5 ii/]0.18732 qq36.5!!yyD0.16278  Yh$-2   vaa0.03012   20.5ii/]0.11046 qq20.5 !!yyD0.1278  YQ%-    16.5ii/]0.04219 qq16.5 !!yyD0.04412  Y:&- aa   14.5 ii/]0 qq14.5!!yyD0.01325  Y#'-    13.5 ii/]-0.04205 qq13.5 !!yyD-0.02233  Y (-    10ii/]-0.15 qq10!!yyD-0.15  Y(-    4.5 ii/]-0.21902 qq4.5!!yyD-0.22109  Y)-    2.5 ii/]-0.24477qq2.5 !!yyD-0.20799),**aa +eM  6  !!.114kkM"$!"h ""  Y-Ԍ  Y- aa x=0.557 m qq x=0.745 m  Y- Present data   Nagano and Tagawa (1990)  Present data  Y-   ii/model fA 1 ddddddd8ddw #xy (mm) HORZ 300overline{ v hat {u hat} SUP 2} HORZ 325 y (mm) HORZ 400overline{ v hat {{u hat} SUP 2}} HORZ 600 y (mm) HORZ 400overline{ v hat {{u hat} SUP 2}}x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8y| 8mm8v|8u8y8mml8v8u8(8)z2 8(l 8)z2l8(8)\z2@@@l8N88888f$(#(#(#(#!AM$ "AM $AM  YH-(#(#H(#(#3   vaa-0.26624   3 ii/]-0.46245 qq101 yyD0.01929  Y1-6   vaa-0.25867   6 ii/]- qq95 !!yyD0.18228  Y -10   vaa-0.32988  10 ii/]-0.4506 qq89 !!yyD0.26302  Y -20   vaa-0.32335  20 ii/]-0.4 qq83 !! yyD0.24074  Y -30   vaa-0.2033   30 ii/]-0.3 qq76 yyD0.17746  Y -40   vaa-   40 ii/]-0.03018 69 !!yyD0.1028  Y -42   vaa-0.00319  42 ii/]-0.00633 qq63 !!yyD0.01607  Y -50   vaa0.12078   50 ii/]0.10893 61 !!yyD0  Y-60   vaa0.2195   60 ii/]0.28 qq56 yyD-0.06401  Yy-70   vaa0.34919   70 ii/]- qq51 !!yyD-0.11031  Yb-80   vaa0.32569   80 ii/]0.4212qq43 yyD-0.20004  YK-88   vaa0   88 ii/]0.23153 qq35 yyD-0.25094  Y4-   vaa   ii/]qq 28 !!yyD-0.3183  Y-  vaa   ii/] qq21 yyD-0.3922  Y-  vaa   ii/] qq14 yyD-0.3891  Y- ]qq9 yyD-0.3268  Y- ]qq6 yyD-0.32047  Y- ]qq4 yyD-0.30939  Y- ]qq2 yyD-0.28689 X),**aa +3M  A ##.114kkXԌ x=0.745 m Nagano and Tagawa (1990)  Y-   vmodel a  ddddddd8ddw8$/-y (mm) HORZ 300overline{ v hat {u hat} SUP 2}x6X@8;X@x6X@8;X@x6X@8;X@8y8mm8v:8u8(8)z2@8N8/߬$(#(# (#(#!aM $ "aM  $aM   YH- (#(#H(#(#101  vaa0.32559  Y1-95   vaa0.33783  Y -89   vaa0.32598  Y -83   vaa0.26938  Y -76   vaa0.19115  Y -69   vaa0.09819  Y -63   vaa0.01697  Y -61   vaa-0.0069  Y-56   vaa-0.0517  Yy-51   vaa-0.1139  Yb-43   vaa-0.19552  YK-35   vaa0.27689  Y4-28   vaa-0.34077  Y-21   vaa-0.40622  Y-14   vaa-0.52234  Y-9   vaa-0.50765  Y-6   vaa-0.51756  Y-4   vaa-0.51406  Y-2   v aa-0.49168