TECHNISCHE HOGESCHOOL DELFT AFDELING DER MARITIEME TECHNIEK
LABORATORIUM VOOR SCHEEPSHYDROMECHANICA
VERGELIJKING VAN BEREKENDE EN GEMETEN
SCHEEPS-BEWEGINGEN VAN HR MS "TYDEMAN"
Prof. Ir. J. Gerritsma en Ing. A. Versluis
Rapportnr. 593-A
Delft University of Technology
Ship Hydromechanics Laboratory Mekelweg 2
2628 CD DELFT
The Netherlands Phone 015 -786882
7
Vergelijking van berekende enigemeten.schePbsbewpOngen;van-JirAs;ned,emann,34567, 9 0 i 2
In rapport nr 593: Waveand shipmotion measuremants, Hr Ms "Tydemanultrials 1982, zijn uitvoerige metingen van de scheepsbewegingen en van 2-dimensionale golfspectra
gerapPorteerd.
iIn dit rapport worden de bérOPOe.SqbeeP0eYeg-ingen,.gebruik.makend.van.de.gemeten
I
-12-dfmensionale golfspectra; vergeleken met de gemeten scheepsbewegingen.
1Dit;betreft significante maarden van het dompen, stampen, slingeren en verzetten. 1 ,
;Significante
gierbewegingen-zijn-wel-berekend-maar-deze-bewegingen-zijn-niet'ge:-,
imeten:
,
1De,2-dimensionale spectra iijn gemeten met bahulp van een WAVEC golfboei (Datawell)
1
idie.'naast het amplituden spectrum ook de golfrichting en de spreiding daarvan op
I
basis.van de golffrequentie leverde.
DeZé informatie is samengevat in de Figuren 54-87 van rapport nr..593.
In)teband daarmee is aanganomen dat de richtin6en spreiding steeds Voorgesteld
kan'worden door een consinus-kwadraat functie waarvan de spreiding overeenkomt met
deAemeten standaard deviatie.
Indit verband is het golfspectrum als volgt.gedefinieerd:
1-tw )
= S( w) .f(
) (1) ,5,(4)) - het amplitudenspectrum ) - de richtingen spreidingsfunctie :Dan geldt: ) = ,COS2 ( t:11'71 ) 1 1pleze formulering voldoet aan de eis:
; _;,:. +. 3 ! -
f(
11.w ) d 11w =. . .:.rc._ 2 (2)-1-Nu is;
A
Uit de-Tabellen blijkt-dat deterekendevaarden voor het!doMpen;!het stampen en
, . .
!het_verzetten vrij goed.met de metingen overeenkomen: de wortel uit het gemiddeld kwadraat van de verschillen bedraagt respectievelijk: 0,04 meter, -0,2 graden, 0,07 meter.
empJJe_vande_s]j hetgeen .
waarschijnlijk.te_wijten.is aan.een te kleine.berekende slingerdemping.,
- 2
1De)^esultaten van de berekeningen in de vorm van significante waarden voor het dompen het stampen het verzetten het gieren en het slingeren zijn.samengevatrin
! delabellen la, b, c, d.
-Tevens zijn in deze tabellen, ter vergelijking,_ e overeenkomstige geMeten waarden opgenomen. 7)Ù1 2 2 uw_
.cos ()d
uw 4 b 2 IT3 rc 48 -of: b= 1,761,aVoor elk van de gemeten golfspectra is het freqUentiegebied waarover.het
amplitude-spédtrum zich uitstrekt, verdeeld in 2 tot 4!frequentiegebieden waaro.ver de
ge-!middelde richting als cOnstant te beschouwen is. Voor elk van die.gebieden is de
!
!gemiddelde spreiding bepaald, zie Figuur 1 (= Figuur 67 rapport nr 598).
!Voor elk van deze frequentiegebieden zijn de functies f(uw ) volgens.bovenstaande proOedure_bepaald.
-;
1tervolgens zijn met het programma PNTP de bewegingen van het schip in.deze sub-Ispédtra berekend en samengevoegd totderesponsie op het gehele golfspéctrum.
Tabel la
Gemeten en berekende scheeps-responsie
RUN 2 zy3 in aV3
degr.
Y al/3in TaY3degr.
-(17'degr.
aY3Tay 3 m 1
0.35
1.58
0.25
2.03
1.49
20.49
1.15
0.33
0.53
2.88
RUN 3 10.53
1.54
0.36
1.46
1.41
20.45
1.06
0.34
0.52
2.66
RUN 5 10.36
1.68
0.15
0.74
1.33
20.32
1.24
0.14
0.29
1.05
RUN 6 10.43
1.69
0.22
0.77
1.39
20.43
1.27
0.25
0.38
1.45
RUN 7 10.47
1.51
0.32
1.22
1.30
20.48
0.98
0.35
0.45
2.17
RUN 8 10.41
1.45
0.29
1.33
1.32
20.44
0.94
0.34
0.50
2.60
RUN 9 10.39
1.55
0.22
0.97
1.07
20.35
1.14
0.23
0.30
2.01
RUN 10 10.53
1.56
0.36
1.20
1.62
20.50
1.12
0.39
0.60
2.44
Tabel lb
a.73 (WAVEC)
-6al/3 YalA 4).a./3 c71/3
a
za1/3
degr
mdegr.
degr.
RUN 12 1
0.43
1.80
0.20
0.70
1.90
20.44
1.91
0.20
0.44
0.89
RUN 14 10.71
1.73
0.44
1.33
1.93
20.64
1.42
0.43
0.57
3.05
RUN 16 10.47
1.85
0.31
1.61
2.02
20.54
1.44
0.43
0.74
3.79
RUN 17 10.66
2.27
0.30
1.22
2.25
20.62
1.96
0.38
0.58
2.18
RUN 19 10.67
2.53
0.24
1.18
2.01
20.61
2.20
0.29
0.57
1.50
RUN 20 10.51
2.08
0.31
1.91
2.26
20.53
1.80
0.33
0.76
4.02
RUN 21 11.11
2.02
0.82
3.77
2.54
20.97
1.77
0.80
0.75
4.32
RUN 22 10.97
1.81
0.73
3.65
2.38
20.88
1.38
0.73
0.97
4.59
RUN 23 10.60
1.39
0.41
2.95
2.75
20.70
2.15
0.53
1.31
4.98
RUN 24
Tabel lc
za73
-6-a/3 17a1/3 aYi a1/2 cay,
1
0.38
2.41
0.43
2.22
2.56
21.00
2.29
0.57
0.87
2.71
RUN 25 10.85
2.61
0.44
2.10
2.42
20.78
2.40
0.34
0.46
1.77
RUN 26 10.74
2.06
0.30
1.22
1.32
20.72
1.80
0.35
0.65
2.40
RUN 27 10.63
1.52
0.52
3.28
1.98
20.63
1.34
0.54
0.87
4.02
RUN 28 10.64
1.66
0.48
1.52
1.82
20.57
1.22
0.48
0.78
3.60
RUN 31 10.46
1.79
0.26
1.79
1.73
20.50
1.46
0.31
0.58
4.15
RUN 32 10.62
2.28
0.20
0.86
1.93
20.64
1.80
0.35
0.49
2.36
RUN 33 10.53
1.86
0.26
1.00
1.77
20.56
1.50
0.32
0.46
2.05
RUN 34 10.49
1.75
0.29
1.51
1.96
20.59
1.42
0.43
0.65
4.58
1 - gemeten
2 - berekend
Tabel id
RUN 35
zalA a'/3 Ya1/3 a1/3 (i) al/3 a.1/3
1
0.78
1.75
0.50
1.70
1.98
20.63
1.43
0.46
0.59
3.74
RUN 36 10.65
1.68
0.41
1.63
1.87
20.52
1.33
0.38
0.49
3.74
RUN 37 10.55
1.77
0.32
1.28
1.91
20.46
1.67
0.21
0.42
1.25
8.0E+04 cn am.÷04 o-s I-- 4. 0E+04 1-4 41 >-02 PE+04 a., -la 60
NRVDMP V1.0
WAVECHNMS Tyd.
82-05-15 12:37
RUN 17 SO .1 . 2 .3 .4 .5 FREllUENCY IN HZ 5 .2 .3 ...4 .5 - FREQUENCY IN HZWAJ\1\
50
.2 .3 .4 .57
FULL RANGE
Hs =237
CMTs
=6.2 SEC
Th0
= 233
DEGSObh =
43
DEG US= U
Figuur 1
2m
20
-3.1 = + 1800
-w 0
launching of buoys '----"""41114 30o 21 -30o 1 1 direction waves
Figure 4a. Typical seakeeping manoeuvre Vs;t 4 knots.
Idirection of predominant waves
of predominant
Figure 6. Wavec wave orbital following buoy.
aetm
2 3
-II IIir
0.1m NNW OMNIo 1.0 1.5
rad/s
2.0 0.8 0.8 174 0.6 0.6 E 0.2 0.2 O O 0.5 1.0 1.5rad/s
2.0
T44/3 m 71-,sec secTi,
D W E RUN 1 Tio rn 71:, sec 'I', Sec 1.37 8.56 9.85 W 1146 7.71 9.85 180 7.32 9.85
t
. . 1 , tI 11 V 4 1 1 I i , 1 1 1 \ i , \ \ , \ i I ..,V
--... 0.4 0.4o 0.5 1.0 1.5 2.0 o 0.8 0.8 17 ro
Z
0.6 0.6 E 0.4 0.2 0.4 0.2 RUN 2 1:1+13 m 7r, sec secTp D 145 7.17 7.10 W 1.36 6.49 7.53 E 149 6.45 674 A wI/I
ttii
.1,_ D ./\\
I/\ /
., .\\,. --... , ..6. RUN 3 m sec Tp sec D 1.42 6.98 7.10 w 140 6.22 610 E 141 6.38 7.10 E Iii, IN %7\
_ -It 1\ .,.\
,-..
..
\\
i 1- ,
0.5 1.0 1.52.0
rad/s
rad/s
o 0.5 '1.0 1.5
rad/s
2.0 0.8 0.8 ru 0.6 ,Nu) 0.6 E O 0.5 1.0 1.5rad
2.0
RUN 4 Fiq m T sec 're sec D 1.31 6.94 7.50 W 143 636 6.74 E 129 6.44 7.11 / / r` 6 w \ 1 k ii\ D I E ..- % ... \ \ RUN 5 1-71,/3 m T, Sec Tp sec 1.25 7.18 7.10 W 133 6.22 7.12 E 1.35 6.55 6.73\
-.. -, ", \. . 0.2 0.2 0.4 0.40.4 0.4 o RUN 7 1740 m Y. sec Tp sec D 1.30 7.46 7.10 W 1.30 6.35 7.53 E 1.22 6.64 7.11 , , n
./N\
--"I _,-_----_, ---/,'/
w -...._.. .1. RUN 6 H4/3 m 7fi sec Tp sec D 1.30 7.01 7.10 w 1.39 6.48 7.53 E 1.17 637 7.53 I, i \ w¡A
----./.-\
D li i i\
E 4 o 0.5 1.0 1.5 2.0 0.5 1.0 1.52.0
0.2 0.2 0.8 0.8rod/ s
rad/s
0.8 0.8 0.6 cNin 0.6 E RUN 8 P413 m 1, sec Tp sec D 1.14 7.15 6.40 W 132 6.36 6.74 E 1.14 6.34 7.11 4, w
I'
\/
/,, D , % , , , E . t % t 1 % . ---.., --. ---RUN 9 Po m t, sec Tp sec D 1.19 7.10 10.6 W 1.07 6.33 7.12 E 1.15 6.30 6.73 ,, I% ./\
\.
i ,i i , 1 \ ' w 1 ,..,, ,-....,, 0.5 1.0 1.5 2.0 O 0.5 1.0 1.5 2.00.2
0.2 0.4 0.4rad/s
rad/s
0.8 0.8 0.6 ru 0.6 E
ti)
0.2 0.2 RUN 12 Tio m T sec Tp sec D 1.76 6.87 8.00 W 1.90 6.21 7.53 E 1.54 634 660 4 /1 I 1 /I'
1 ' / / I I I I. 1 , w 0 I %-.
\/I
\
\
I b-1/
./.\. / /-\
\
/ / i / iI
\. E,l'`
N , ., s---,, .. , RUN 10 1448 m Ti sec TF sec D 1.72 7.55 6.73 W 1.62 6.02 6.74 E 154 5.97 6.40i\
!\
i / I i / i ,1 , II \ 1 6 t w D I I I II
.." _J//
/ I . V . I , .\\ \ . .> .\ X C. . -...,
.. ... \ \
,\
s, ...\ O 0.5 1.0 1.52.0
0.5 1.0 1.5 2.0 0.4 0.4w
ra d / s
rad /s
0.8 0.8 0.6 0.4 0.4 O RUN 16 ' R,3 m 7-1-, sec Tp sec D 2.12 7.31 8.00 I\ W 2,02 6.32 7.53 . 1 \ E 1.85 6.35 7.53 I \ D i
il
\i:
; pt,L E 1 \ '1 t I: t I 7 tt I;1 I\\t t . I 1 I I PI 1 //
.\
1/
. I / / \ . i\
\
\/ i
/7 '\ i 1 \ _._7 RUN 14 R413 m sec Tp sec D 1.82 7.00 8.00 w 1.93 6.26 7.53 E 1.66 6.11 673 A \,14, W ./7 11 Dii
T-.t 1 tE .1 b11 A / \ ill / \ \ \ \ / \i
.\
,
.... \ \._: / O 0.5 1.0 1.52.0
o 0.5 1.0 1.5 2.0 0.2 0.2rad / s
rad/s
1.0 1.5
rad/s
2.0 0.8 0.8 17 ni 0.6 (Nu' 0.6 E O 0.5 1.0 1.5rad/s
2.0
RUN 17 17-41/3 m T sec T p sec 2.36 7.68 8.00 W 2.25 645 7.12 1.96 6.47 8.54 /1. I ,.., /I't
I , / 1 , 1 , , w 1 iii --1) i', 1 ) 1 ; f'"
1 i \t
i\1
1\
i ' 1\
II.II
\ I I I I 1 1 I » I IV
1i I / I 1 I I I i I 'II ./. I \ li . I I i 1 . , I/ \/
//
\.../ I 1 i I 1 \\
.
-1-710 Ill T Sec Tp sec D248
8.30 8.00RUNfr
At W 2.23 6.45 8.00iI
i 1 Ìii i 1 ill, Ill E 2.01 6.57 8.00 I rl I I I 1 I I I I . I I I I I I \ D I I 1 t i I ; I w 9--1'E
1, 1 (ti i i 1¡/\.\
% % 1. l 1 1 i \ i. /,/,V\
/ \
\\/
.1 1 \ \'t
.\
t l 1 . \ \ "s % \ %-A / ... 5 \\
0.2 0.2 0.4 0.40.8 0.8 0.2 <-0.6 0.6 E RUN 22 TI, m T sec T, s ec 2.65 7.91 8.54
r
-1 1 1 i 1 i W 2.38 6.87 8.00 E 2.38 7.14 8.00 I 1 1 w i 1 \./E\./\
i i 1 i 1 11\
1 \ i\
/ 1 HI 1 i\ i .1 '1 \ `, .1 t. I I 1 . , , I i;
, \ \ \ i i \ \ -...:.,... \.,.. RUN 21 iN i \ j 1 Pq m 1-, sec Tp sec D 2.62 7.64 8.54 W 2.51. 6.87 8.50 ,//r' .J,, 2.09 6.7810.67 \\,i/
,,,,A, .s. \ ; i il ., VI ',i 1 0 \ I\
» \ 11i \
A I. I\ I \' 1 1 1 i I . 1 1 1 I . ...-, o 0.5 1.0 1.5 2.0 0.5 1.0 1.52.0
0.4 0.4Dv- rod/ s
rad/s
08
0.6 0.2 o 33 RUN 23li
i \11 I i T.14,3 m --i-, sec Tp secil
I 11 D 2.80 7.71 8.54 ' i 1 1 W 2.75 6.81 8.00 I./ii
I\
,' E 2.83 7.53 8.00 1 ' 10
1/ W 1 i i I ' E a) J' ilj \ I \ I I \ \ 1 i I I\
I I 1 \ .\/
\ \ I / / \*\/\ ' I li I--/\
.
/1\
,
/
\
o 0.5 1.0 1.5 2.0rad/s
0 8
ro 0.6 E 0.4 0.2 O34
-rad/s
ii I 1 1711 m sert
Tp sec RUN 24 16 D 2.86 8.08 8.00 I 1 i 1 N/ 2.56 7.02 8.00 E 4.00 6.89 9.15 I \ IA I i . ; \ i f /`1)--D i \ . . \41 ' 11 1. i ¡ o A \i/V
...l
. \ 1\
i i W--4?\ ! I\ 1 I\\
IA I 1 . i . i\ \
V
i
/..,1 ` ... /1 -\\.).... 0 0.5 1.0 1.5 2.008
0.8-o
rotni-0.6
"
0.6
E
O RUN 25 , .4
/
Tiv.3 m T sec T, sec D258 769 753
W 242 702 915 E 232 711 8.00 I : . .1 \L. i .1\ 1 V 1 1 1 i I: % . % ,/,
% ' V , %\\
,
N A. t t 1\ ' . I \ i ' i .,'!
, A . %\
,
N_. RUN 26 L., m T sec T, sec D 1.89 7.66 9.85 W 1.91 7.23 9.15, 9.85 E 182 7.36 II \1 \ '» w 1 1, l'% 1 1 1. I 1E I 11 I I , , 1 I 1 \' \ , I ; ,\. , \s ...-\\ o 0.5 1.0 1.5 2.0 O 0.5 1.0 1.52.0
0.2
0.2 0.4 0.4rod/ s
rad/s
36
-rad s RUN 27 T.1V3 m TI sec TP sec D 2.26 9.03 9.85 W 1.98 7.03 9.85 1.73 6.95 9.15 D I .1 . i\ i I1--, 1 1 , 1;,,v
\ ' 1 , i \ .1 l: ., .,
1 1 \ Il " . I\\
i .; II \\
\ . \ \ \ I i 1 ,--,, ....\ .---0.8 77 <-0.6 E 0.4 1.1)0.2
O o 0.5 1.0 1.5 2.00.8 0.8 0.4 0 0 1.0 1.5 2.0 RUN 28 . I\ I-4g m Tt sec T, sec D 1.89 7.77 9.85 W 1.82 6.91 9.15 E 1.69 7.18 915 !
' c,
! i w1 iir,
'f E 11 1 I : k.III
I 1 1 . 1 , t I I r I i 1 ..-\ \ 1 ./ \
...\/
.;/
Ii-..-.i
I1: . I .,... ._ . . -RUN 30 110 m T., sec Tp sec D 1.68 7.83 9.85 W 1.70 7.71 9.85 E 1.48 7.46 9.85 fi it I; I 1 icikD -61-II 1 g,-I 't I. ',1 li !I 1, III il i I! i II L t 1 t t i. II E\ s jr/
./2/
I 1 / .--Nf
\
f`.).--`N
o 0.5 0.2 0.2 O 0.5 1.0 1.5 2.0rad / s
rad/s
"'CA RUN 31 I D 114/3 m Ti sec T, sec D 1.89 7.96 9.85 W 1.73 6.66 9.85 E 1,77 7.47 9.15 \ \ i ' 1 I 1 i li e E . W 1 1 1 1
i\
1. 1 I i I 11 II I I , il II 1 !\
\ \
/
/i
-
(4111\
\/
IlI 'I \..
s .__/
% -.--. RUN 32 I.II , I 1, Fio rn -f, SeC Tp 5 ec D 1.71 7.68 8.54 I I I I I , , 1 I i I i ; w 1.93 6.76 9.15 E 1.80 8.10 9.15 : i, i ; w 1 1 I , , , i E 1 ''t
; . ' I I, 1 1 \ 1 I I; D i, 11 Ii i,/
, , ,iì.
-.
,\
o 0.5 1.0 1.5 2.0 O 0.5 1.0 1.52.0
O O 0.8 0.8 0.6 0.6 E 0.4 0.40.2
0.2rad/s
rad/s
0.8 0.8 17 0.6 (NI') 0.6 E "CA RUN 33 il413 m T1 sec T p sec D 1.84 7.72 9.15 w 1.77 6.37 9.15 E 173 657 9.15
/r
A
1 \ % ,/;
..,, , , \ RUN 34 il4/3 m T., sec Tp sec D 2.17 7.65 9.85 ti W 1.96 661 915 E 176 4.90 915 ii , i : . 1 i . i Ì , . , I tli i , 1 1itD
1 , 1 , I. 1 1 i \ I. \I..
1 i 1 ri 1i 1\
Ell, I 1 i\
1'11 1 I I 1/\
4 . i \ .1 \ I, , I \ I\t
.4\t i . i, i i / ' i\ 1
1 1 1\
/ \ \ V . 'N. ....,"
0.5 1.0 1.5 2.0 O 0.5 1.0 1.52.0
0.4 0.4 0.2 0.2rod/ s
rad/s
o 0.5 1.0 1.5
rad/s
2.0 0.8 0.8 13 L. 0.6 ,,,u) 0.6 E O 0.5 1.0 1.5rad/s
2.0
RUN 35 Fiv.i m T sec Tp sec 2.19 7.68 9.15 W 1.98 6.12 9.15 2.00 6.56 9.15 4 h He Il/ II I 1 ' I LI) (1 I. 1 ¡fi I 0 I .i
1. I \ f i IN 1 1 \ 1 1 i 1 1 i , 1\
iI/
¡ .% 1 I i l s i i . .-RUN 36 Ho m sect
secTp 2.18 7.99 5.82 W 1.89 6.29 915 E 1.83 625 5.57 Ai
ptI2
I i ¡ 1 ., ¡I.1¡4
I! . 1 ilI,
I i \ i \. . ti/I
. iv
, 1 . --.._.\\ 0.2 0.2 0.4 0.40.8 0.8 13
:;
0.6 c,'n 0.6 E O RUN 37 T:lin m 7rt sec Tf sec D 2.21 7.97 5.82 1.91 6.23 6.10 E 2.29 7.22 9.15Pril
E if; w , , , \ i. \I.
I \ , 1 \ . C\ II 1 ! 1.
1 11 1 \ % ' ...-.1 II 1 i 1 , ,,..i I '' \ \ ., -\-- ..
.. . RUN 38 17:L3 m T sec secTP D 1.49 6.83 9.15 W 1.60 6.46 8.54 E 141 621 9,15 ( A I I ; 1 1 % A tti/1 1 v % k,_v\i_ ,/N.
4 Il . V A * .--4<., ...,
b\
o 0.5 1 0 1.5 2.0 O 0.5 1.0 1.5 2.0 0.2 0.2 0.4 0.4rad / s
rad/s
o 1.0 1.5
rad/s
2.0 0.4 0.4 0.2 0.2 O o O 0.5 1.0 1.5rad/s
2.0
RUN 39 1-7i4/3 m Ti sec Tp sec D 0.97 7.39 8.54 W 1.00 7.23 8.54 E 103 7.31 9.10 , D ,., RUN 40 1 I 1 i I . VI .il I t 1:11/3 m 7f, sec Tp sec 2.17 7.13 7.53 W 2.14 61.4 8.00 E 1.98 6.32 7.50'I;.
1 ttitI.
I. 1 t I I I 1 II t 1 I . 1 1 I 1 I ti I j , A% As ,./
, / ,/\
'\
..s. * 1 i --11/ / 4 1 1 1 I 1 li .\
AI\
. I\
1.\ .4\1 ..\---,\
0.8 0.8 -0 P2,,
`" 0.6 0.6 E2.5- 2.0-E 1.-11 tj 1.0- 0.5-o 5-CD 2-o 1.0 0.4 0. O 0.5 1 25 RUN 2 T-/3 TI sec. z 0.35m 9.787
-- --
-e 1.58° 8.299 zF 0.73m 9.46 k t, i 1 I I I 1 I I i I 1 I i I i I I 1 I I I A I, / 1 / i . 1 \ \ \ % i \ %\
' --, ________ RUN 2 T3 71 sec. (1) 2.08° 11.12-0.25m 10.36 1 I\
I'
\ ... O 05 1.0 15 0.5 1.0 15 we rad/s we rad/s 0.8 1 NJ 0.2- 1.0 0.1- 5E 1 0.4 0. O 0.5 0.4 -0 0 E kJ) Cn 0.2-0.1 O 25 1.0 5 O RUN 3 sec. (i) 1.46° 10.51
-Y 0.36m875 A,
r -/-
/ / / / / / \ \\
\\
1\
_______________ RUN 3 /3 1 sec. z 0.53m 7.79 - --e 1.54° 7285 zF 0.85m7.17 I I\
\ i I i ' 1 1,
._/
\
s \\
---\ ...1._. 1.0- 2 0.5- 1 O o 0.5 1.0 1.5 o 0.5 1.0 15 o CD V1 (J1 25- 5 - 102.5-LL N 1.// 1.0- 0.55 -CD 2-0_. 0 10 0.8 S-11 NJ 0.4 0. o 0.5 0.4 E 25 RUN 5
7
/3 TI sec. z 0.36m 7.56 e 1.68° 6.36 --zF 0.94m 6.83 -- ---A I \ I I I I I I I I I III'
1 I i . I 1 \ t, , . I / I. / \ 1 / / \ II.
. \ /I.
. \ / \ \ - \/ /
-..../ \
\ \ ..- - \ \ N / . ---.:-.--,,
RUN 5 l'y T1 sec. cp 0.74° 9.45 Y 0.15m 9.03--,
---._:_r---___ 0.2 1.0 0.1 5 o O we rad/s w e rad/s o 05 1.0 15 o 0.5 1.0 152.0-E tal a, -o 0.5- 25 0.4--0 o E VI 20 -0 o a, RUN 6 173- Ti sec. (1) 0.77° 9.12
-Y 0.22m 8.28
/
/
,,.. f \ \\ ---- - -- .... RUN 6 1-/3 T1 sec. z 0.43m 7.25- -
--e 1.69° 6.43 ZF 097m 6.91 1(t
1 I 1 I r A \ II \ 1 \ / / r / / ,. /j
/ .1 _./.1\._
__. - \ \ \ \-
\ \ \ \ \ `...\ '... -0.2- 1.0 0.1-W 5 O o L/1 LO- 2- 0.4 0.5- 1- 0.2 O 0_ 0 2.5- 5- 10 O 05 1.0 15 o 0.5 LO 15 0.8 o N. 12.52.0 -E 1.0 05-5
o
2-0_ 0 1.0 if) 0.4 0.2 o 0.5 25 RU N 9 T1 sec z 0.39m 7.69 e 1.55 6.18 ZF 0.88m 6.75 . A I I I\ I \ I i i i s 1 1 t i 1 p t I i;\
\ \ , i I 1 1 i i 1 \, \ . ./\.
,, RU N 9 173 TI sec. 1) 0.97° 10.06 Y 0.28m 9.46 -//71--AI'
/ / \ .- -- - - -- '--O 05 1.0 15 o 0.5 1.0 1.5 rad/s we rad/s 02 - 1.0 0 1-O o-0 1 0.4 0.2 0 we rad/s. 0.5 a4-E 0.20.1 -0_ 25 1.0 5 O w e rad/s PUNJO 1/3 Ti sec. (0 1.20° 9.42 Y 036m8.62 - 1--/ / / / A 1/ ,/ N
\
\ \ \\
- , RUN 10 i3 _ Ti sec z 0.56m 7.60- --
---1.56° 6.93 zF 0.82m 7.61 A / I r1 I 1 1I'
1 1 I i 1 \I.
Ii
I.II
i .K 4 11 , % \ \ I \ \ \ .\
., 1.0 - 2-0.5- 1-O 0_ 25- 5 10 2.0-*B 4 0.8 -o cl Z. E cu (11 E o 05 1.0 15 o 0.5 1.0 152.5 5- LO 2.0 -o E 1 k_J1 Li N VI 1.0- 0.5-0_ 0 N E 0.8 -13 O. 0.5 -0.4- 20 -o 25 RUN 12 173 Ti sec. (1) 0.70° 9.88 Y 0.20m 8.41 RUN 12 173 T sec z 0.43m 6.64 e 1.80° 6.30
--ZF 1.23m 6.62 . ---/ / i/ ,,, , \/,-x'N . \ / \, / / /1 i 4 1;1 1) I v i 1 11. 1\ e ,, _ 0.2 - 1.0 0.1 5 0_ 0 -0 c44 .5) E cn a, rad/s rad/s 05 1.0 15 o 0.5 1.0 1.5 O. kr1 N (,)2-2.5 5- 1.0 2.0-1-J1 LL NJ 1.0- 0.5-1-11 CD L/1 2-0.8 k..!) (J1 0.4 0.2 0_ 0_ 0 0.5- 25 RUN 14 Ti sec. (1) 1330 9.26 0.44m8.41 / / --, / \ \...
,
/ / / / / i , \ \ \ \ \ N, RUN 14 73 "l'i sec z 0.71m 7.31 e 1730 6.03zF 115m 6.76 .
---/--. i 1 1 1 i / / 1 f I \ , 1 , \ 1 "t ._ / --" \ \ \ \ \ .. \ --0.2- 1.0 0.1- 5 o_ O O 05 1.0 15 O 0.5 1.0 15 We rad/s we rad/s2.5 2.0 13 E kJ) U_ N V.) 5 (-.1 E 1.0 0.8 -0 N 0_ 0 0.5- 25 0.2-0 1-o 1.0 5 O RUN 16 T1 sec. z 0.47m 8.84
--
---e 1.85° 8.02 zF 0.95m 8.72 1 1, I I I I I i 1 1 1 I 1 I I I I/
1 1 i \ I I " .1 / I . 1 / I 1i!
I I \ / i / i II \ \ \ \ \ \ \ \ \\.... \\
--
__
RUN 16 73 Ti sec. (1) 1.61° 975 Y 031m 9.63 .z,, / \ \ \ , \ o 05 LO 15 O 0.5 1.0 1.5 we rad/s we rad/s 2- 0.4 0.2 1.0- 0.5-O2.5 5 10 1.J1 LL. N LO- 0.5-1-J)
o
2-0_ 0_ N 0.4 0.2 0.5- 2 RUN 17 73 -T1 sec. (1) 1.220 933 Y 0.30m 8.62 / / /,.,
/ \ \ \\
._ RUN 17 173 T., sec. z 0.66m 7.34 O 2.27°6.39 --zF 153m 6.84--
---, 1
I A I II \ Ii .1 I i j! I I I! I/ lj i t I 0 \ 1 li ./ h .1 v\ 1 1 .1 P .1 \I It .\\ 1 /o
. \ \ \ // \. \ ,:-_----. i,.
A., ,..., 0.2- 1.0 0 1- 5 0_ O 05 1.0 15 o 0.5 1.0 15 rad/s2.0-E kJ) CD 1 0.8 rs6 0.4 0.2 0 O 1 '43 V1 O RUN 19 773 Ti sec. CP 1.18° 10.41
-Y 0.24m 7.65 _,..,- ---
_,
_-
----RUN 19 I"11 \ Il\.1 173' f1 sec. z 0.67m 6.77 14 \\. e 2.58° 6.39-i li zF 1.87m 6.72
-.
-) -/ I O. ; 1 \\1 II \. I. \ I I . P 1\ ii I. Il LI il li I. il 11 11 1 Í\ 1. li ii 11 Í\ I 1 . 1 /1 \'1 \ 1\ o \ ii \\ i/ \ %. /7\
,
1.0- 2-0.5- 1-O 0_ 02 - 1.0 0 1- 5 O O we rad/s we rad/s 05 1.0 15 0.5 2 2.5- 5 - LO 0.5 1.0 152.5- 5- 1.0 2.0- 1.0- 0.5-1-11 2-1 0_ 0 0.8 (.6 L_J) NJ 0.4 0.2 0.5- 2 0.4 c1 (.1 E RUN 2 0 -T sec. (I) 1.91 10.60 Y 0.31m 9.50 / , RUN20 / , 73 TI sec. Z 0.51m 7.93
.
---e 2.08° 8.03 zF 118m 8.69 , / 1 1 1 1 i ' 1 t 1 I 1 1 1 1 t t 1 1 1 I \ 1/
1 1 I . , 1 i I 10
, 'I , I 1 I. i I I 1 't I I, ! . \ I! I Id I'\
Ì \ . _ \_._ N - ,.-... 0.2 - 1.0 0 1- 5 o_ O 05 1.0 15 o 0.5 1.0 152.52.0 -la E 5 2-0_ 0 0.8 cl -4 1.0 E 0.5 0.2-0 1-2 5 RUN 21 17 sec z 1.11m 7.99
.
--O 2.02°6.01 ZF 1.64m 7.27 !\ i \ J I i r 11 / I II ii
i 1 i I---\ I i /\-,
N/ IN i \ , \ 1 \\
1 \ 1 \ \\ \
\.\ RUN 21 1 '1 1 I 1 1 11 li 1/3I
sec. I) 3.77° 10.76 Y 0.82m10.31 I 1I I I I I 1 \ 1 I I Li 1 1 I I 1 I 1 t t t t 1 1 L ) 1 I I I I I 1 1 i I 1 1 I \ \ 1 ....-/ I 1 I I Ir-'
) /\
,i, I \ \ \ _.
....__ O 05 1.0 15 o 0.5 1.0 15 rad/s e rad/s o_ O 1,J) IJ N tri 1.0- 0.5-0.4 0.2 o2.5- 5 2.0 (-4 E 1.0 08 -13 (-4 E 0.5- 25 II I I I RUN22 173 TI sec z 0.97m 8.42
--e un° 8.04
zF 1.31m 8.81 1 Ii!'
II Iil
ii
I 0, ii I'--II \ I. ',
I 'ic
1 i k , 0 , ,r.cmAkailii , i \4 \ i '\ _\
.,
RUN 22 1I i 1 1 I 1 73 Ti sec. 1 I 14) 3.65° 10.03 1 I Y 0.73m9.63 1 I 1 I 1 i 1 1 1 1 1 1 i t t 1 1 1 1 i 1 1 I t t 1 1 i I i 1 1 I 1 1 1 t 1 i 1 t 1 i i t 1 1 t 1 I 1 1 i k 1 \ \ / \\ / sl ._ 02- 1.0 0 1 - 5 o O o 05 1.0 15 O 0.5 1.0 1.5 1.0- 0.4 0.5- 1 0.2 0_ 0 O2.5 2.0 c-s4 Ii E 1.-J1 CD kJ) N 0_ 0 0.5 25 tr) I RUN 23 11 II I 1 I1 1 i pi I 173 71 sec z 0.60m 9.25
.
--e 1.89° 9.66 zF 118m 10.58 1 1 i 1,1 III.' Iill I i I:I I, 11 II .11 Ij II I I ill II II I I ! 1; h I I I II I i Ii I I 1.1 I II I .. I I II\\
\\/\\
',---, \,
--,'"/N
.:-
.-s....-. N RUN 23 173 Ti sec. 4) 2.95° 11.53 Y 041m10.86 / \ \ / / / / / ,/I
i 11 o 1I ! 1 ---, - --.._----02 1.0 01- 5 o O O 05 1.0 '5 O 0.5 1.0 15 rad/s we radis 2- 0.4 0. 1.0- 0.5-o 5 102.5- 5 U-N 1.0- 0.5-0_ kfl 2-o_ 1.0 0.8 CN6 1-11 0.4 0.2 o 0.5- 2 kJ) V) RUN 24 173' TI sec. z 0.88m 7.03
--
---e 2.41 6.43 zF 1.70m 6.90 1 I t, . A t1
1 . iI 1 , // i rJ i t I .t I .1 \ \ II .1 I I II . I 1 . 1 I \ I; \ "C 11 I A ... --.-,,.... _ / / ' i ,. A\
"-----,
- , --.... RUN 24 Ti sec. (I) 2.22 10.05 0.48m 8.57 1r-\/
A i\ \ / i---, / A \)
/ / / / i ,.
\-o 05 1.0 15 O 0.5 1.0 15 rad/s rad/s 0.2- 1.0 0 1- 5 o_ O2.5-1 NJ 1.0- 0.5-o 5 kJ) 2-O 08 -0 eV 1.0 E 1-11 (..r) 0.4 0.2 O 0 1-1.0 5 RUN 25 N 73 T, sec ir1 0.85m 727' ---P, 2.61° 5.91 4 1.85m 6.36 i 'III
II
1 1 if , 0 o li ,1I ; ;1 li I ' 1 II I. \\ \'
ILL,'
)
.1 A'\\\
RUN 25 73 -T-, sec. (1) 2.10° 10.65 Y 0.44m 9.90 i i i /---) / 1 1 1 A / \ 1 \ , _ _ ...-l \ \\
\ \, , \ O 05 1.0 15 O 0.5 1.0 15we --..rad/s
rad/s O 0_2.5- 5 10 0_ 0 0.5- 25 20 -0 RUN 26 T1 sec. (I) 1.22 9.72 030m7.92 '--/ / A
I'
\\\
\_.
RUN 26 173 "I'l sec z 0.74m 6.71--.
e 2.06° 5.98 zF 1.46m 6.07 h ,\I\
NI A \lji
¡I
1
i / I I I \ \ \ 1, A
\ , 1,..,
i 1 i \,
., k ....,.. 05 1.0 15 o 0.5 LO 15 0.2- 1.0 5 O o 1-11 IL N 1.0- 0.5-o N 0.4 2-0.22.5- 20--8 kv7; E 1.-f) (r) 1.0- 0.55 -1-f) 0.) 2-0_ 0 1.0 NJ 0.4 0.2 O 49-RUN 27 173 1-.1 sec Z 0.63m 946
- -
--e 1.52e 8.99 ZF 0.93m 9.08 r I I I --\\
A 7 I . i,' \ I \..
RUN 27 73 T1 sec. (1) 3.28° 10.77-Y 0.52m 10.32 A / \ i I I 1 / I Iv 1 I I i 1 / / i //
/
,
/
, / / \ \ \ \ \ \\
.
-0.5 25 0.4 20 16) 1:1 /c'S; 02 - 1.0 0.1- 5 O O We rad/s We
rad/s
E -o O 0.5 1.0 15 O 0.5 1.0 1.52.5 5 2.0 -, E Lj N 1.0- 0.5-O -al 1.0 0.8 V) Li) N 0.4 0.2 0_ kJ, 0.2-o_ 1.0 RU N 28 173 T-1 sec. 1.52° 9.85 Y 0.48m10.41 I' , I % I i I ; I I I 1 I I 1 I 1 I I 1\ \ I 1 / / --1 1 \ 1 1 \ ---.. 1 1 \ - - _ "..
/:///-RUN 28 73 7f1 sec z 0.64m 9.92 e 1.66 9.20 --ZF 1.03m 9.38 --A 1 i 1 I 1 I I 1 1 1 I I I ' i i \1.
I 1\ I I 1, %\ I v i / / \ Ii ' \ \ \ i 1 0.5- 2 0.4 - 20 -0 cl O 05 1.0 15 0.5 1.0 1.5 ci *CS-V) E (4" cn cu 50.1- 2.5- ao-13 E 1 kJ) IL N 1.0 0.5 O 5
-o
2-1 o 1.0 0.8 ci 1 N 0.4 0. 0.5 25 LA LA V) VI o RUN 31 73 T1 sec. cI 1.79° 10.84-Y 026m 9.26
.
\ \N.__
RUN 31 7. TI sec. z 0.46m 9.48- -
.
--e 1.79° 9.41 ZF 0.91m 9.16 A I) i 1 1 t i I I 1 I I I I 1 I I I I 1 I I I I I I I I I 1 1i,
I A 1 / . 1 ' t 1 , I 1 1 1 \ 1 \ 1 I. I 1____/1
\ 1 1 \ \ \ NN - N 0.2 1.0 0.1 5 0J 0 rad/s rad/s 0.5 1.0 1.5 05 1.0 152.5- 5 2.0-cJ -o E 0.54 -la Crl 171 1 0 0.8 0.4 0.2 0_ 0_ 0 0.1 O 2 1.0 5 RUN 32 i I II 1 1 ii A I I 1 Al '' 11 T sec. z 062m 7.91
- -
--- ----e 2.28° 7.30 zF 1.51m 742 li II ( 1 I. . I j I, . 11 .1, \ 1 \ 1 I \ I I \ 1 I 11 \ 1 I \ I 1 !I 1 .1 .1 , .1 !I II, li .\ II i, ,__,,,.._:)
i . \\\ \ \ --.\ \. \\..
... _.... RUN 32 73 T1 sec. 0.86° 10.07-Y 020m 8.41
_
,- -- - ,
,___
O 05 1.0 15 0.5 1.0 15 0.5 0.4 --o I t7) E >._11 ti) 0.22.5- 2.0-E Lt. N 1.0- 0.5-o 5
o
2-In 1.0 0.8 1-1-1 N 0.4 0.2 0_ 0 RUN33 173t
sec. z 0.53m 7.89--e
1.86 7.25 ZF 1.11m 7.39 1 IIII
, 1 1 1 1 1 1 1 1 1 4 I .1 / I! li 1! .1 0 \t I I 11 'I \I Ii \. 1 ili 1 \ k _ i / / \ , \\ \
\N\
RUN 337
3 T, sec. (I) 1.000 918 Y 0.26m 8.28 / ---/ / , r -\ \\
\ ____ O 05 15 o 0.5 1.0 15 we---..rad/s
Werad/s
0.5 25 20 E 43' V) 1.0 0 2 -5 0.1-o o2.5-E 1-11 Ij N
t
1.0- 0.5-5 4 13 QJ 1-0o
2-1 0_ 0 1.0 0.8 ros. LJ1 N 0.4 0.5- 25 RUN 34 173. TI sec. z 0.49m 8.54. 0 1.75° 7.84.- -
--zF 0.97m 8.01--A r 1 1 i I I I I I I I 1 i 1 i 1 , i 1 1i\, 1 \ . Ii 1 1, . 11 t/ 1 \ II ' ' I. \ II \ \ _ -\ -\ % 1
\.
... . ---- ...---.. -
----7 ----
._. - -.. N.
RUN 34 T1 sec. (I) 151e 10.37-0.29m 8.94 A / o 05 1.0 15 O 0.5 1.0 15 0.2 o 0.2- 1.0 0.1- 5 o_ o
2.5 5- 1.0 U_ N 1.0- 0.5-)-11 CD 2- 0.4 0.2 0_ 0_ 0 0.5 2 RUN 35 TI sec z 0.78m 6.99 e 1.75 5.78
--ZF 1.25m6.15--
---N / i',--' \\ / 1 .,\ i \ i % \ . i \ir
,
1 \\ 1 N.'\
\\ / r. .1/
\\ /\
//
\ RUN 357
3 T1 sec. (1) 1.70° 9.62 Y 050m 7 86 1 II /I I I I 1 I t i 1 1 1 i I I i I I I I 1 I 1 1 1 I 1 I...,
i / i i i / I I 1 1 \ \ ,----,/
\ , \ ,.,
._,
O 05 1.0 15 O 0.5 1.0 1.5 we rad/s we rad/s 0.2 - 1.0 0.1- 5 o_ o2.5- 5 2.0 -LL N L/1 1.0- 0.5-4 rsi cu -o OD (z) 2-0_. 0 1.0 N 0.4 0.2 O RUN36 73 TI sec. z 0.65m 737
- -
----
-0 1.68° 5.86 zF 1.22m 6.42 , I iN \ I ( 'VI I / \ ( 1 hi (ild_--,---4
\\ \ \ \ \__, / \j/ j / / \ /I!
- 3 \ 0 \ \`.
.,
-,
1 RUN 36 73 . T1 sec. (4) 1.63° 9.94-Y 041m 8.79 I I r 1 1 \ i 1 1 I \ x ---/ / I 1 / / I 1 \ I \
.
\... .- --_... _ 0.2- 1.0 O. 1- 5 O O 0.5 2 0.4 --121 20 -0ci cs, E C11 "ID O 05 1.0 15 o 0.5 1.0 15 r ad/s rad/s2.5
2.0-E
E N 0 5 LMo
1.0 NJ (J) 0.4 0.2 0_, 0 0.5- 25 0.4 -0 0 E RUN 37 73. T1 sec z 055m 7.62--
---e 1.77° 6.97 ZF 1.11m 730 /,\i
I A i \ 11 4 III \ , \ 1---% \ ) I \ ' \ 1 I\\
\ \I,A\ t \ %. \ \ ... .\
\ \ RUN 377
/3 TI sec (i) 1.28° 8.89 Y 0.32m8.17 I' I 1 , 1 1 1 J r \ I , , , \ \ \ \ \ ---, %. 0.2- 1.0 0 1- 5 O O O 0.5 1.0 15 O 0.5 ' 0 15 We rad/s We rad/s 1.0- 2-0.5-4.0E+04 Cu * *3.0E+04 u LI 2 . 0E+04 t .2E+04 Li Lil 3132 BO
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-13 15:44
RUN 1 soL ._J__
j I L .1 .2 .3 .4 .5 FREQUENCY IN HZ L_ UB= U
: .1 .2 .3 .4 .5 FREQUENCY IN HZ-
70
-FULL RANGE
Hs=
144
CMTs
=
6.8 SEC
Th0
= 246
DECSObh =
52
DEC4.0E+04 Cu *3.ØE+24 E i-2.0E+04
)
I PE+04 ce 360 60 40 20WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 14:28
RUN 2 FREQUENCY IN HZ 90-
71
-.2 .3 .4 .5 FREQUENCY IN HZ 6.0 .2 .3 ,4 .5FULL RANGE
Hs=
154
CMTs
=
5.9 SEC
Th0
= 222
DEGSObh =
40
DEG UB= U
Figure 55
*2.5E+04 N °2.0E+04 /--1.5E+04 1.0E+04 u >-Id
z
5000 3.0E+04 320 270..
.
. ..
180 ... .
90 60 40 2072
-WAVDMP V1.0
WAVECHNMS Tyd.
6.0 .1 .2 .3 FREQUENCY IN HZ 6.0 .1L___ FREQUENCY IN HZ82-05-14 15:24
RUN 3FULL RANGE
Hs=
154
CMTs
=5.8 SEC
Th0
= 223
DEGSObh =
41
DEG UB= U
t L______ / .4 1.5 .2 . 3*2.5E+04 u2.0E+04 )-1.5E+04 11.0E+04 z 5000 3.0E+04 GO 40 20 Se .1 .2 .3 .4 .5 FREQUENCY IN HZ 380 270 .
".
.
...-190 90 6.0 .1 .2 .4 .5 FREQUENCY IN HZ 80 -
73
-WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 16:01
RUN 4FULL RANGE
Hs152
CMTs
5.8 SEC
Th0
= 226
DEGSObh =
40
DEG UB= U
Figure 573.0E+04 * 2.5E+04 E ° 2.0E+04 >-1-1.5E+04 va 1.0E+04 Z 5000 300 270 180 80 43 23 S.0
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 16:38
RUN 5 I " I L._ .0 .1 .2 .3 .4 .5 FREQUENCY IN HZ FREQUENCY IN HZ 80 GO74
-FULL RANGE
Hs145
CMTs
5.7 SEC
Th0
224
DEGSObh
41
DEG UB UL._ 1
1 1 1 .1 .2 .3 .4 .5* 2.5E+04 Ql ° 2.0E+04 w I. 5E+34 liiw :31.0E+04 u ce z 5000 3.0E+04 Id N 40 20 L__
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 17:14
RUN 6 O Lt. 0 .2 .3Ui
75 Itho1
.2 .3 . 4 .5 FWQUENCY IN HZ 80FULL RANGE
Hs
=
146
CMTs
=
519 SEC
Th0
= 228
DEGSObh =
43
DEG UB=U
Figure 59
FREQUENCY IN HZ cri 360 270 z 0 .0 o 120 Lt '111 SCu * 1.5E+04 0 )-4 I-- 1. 0E+04 5000 2.0E+04 SO SO 40
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 17:51
RUN 7 S 0 .1 .a .3 .4 . FREQUENCY IN HZ 3S0 _L._ I 1 . .2 .3,4
.5 FREQUENCY IN HZ76
-FULL RANGE
UB= U
Hs =135
CMTs
=5.7 SEC
Th0
=225
DEGSOloh =
41
DEG... .
3.0E+04 *2.5E+04 * t)2.0E+04 1.5E+04 V.3 0E+04 rx z 5000 Li! GO
10
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-14 18:27
RUN 8 . .2 .3 .4 .5 FREQUENCY IN HZ S.0 .1 .2 .3 .4 .5 FREGUENCY IN HZ 3077
-\tiv\v\-/
_I_
_...1FULL RANGE
Hs=
139
CMIs
=
5.8 SEC
Th0
= 231
DEGSObh =
41
DEG UB= U
Figure 61
380 o 270 o re 180 I-r.) S2/-1 3.2E+04 F-1.5E+04 ii 1-1 1. 0E+04 Lt.1 z 5020 42 20
WAVDMA VI.0
WAVECHNMS Tyd.
82-05-14 19:05
RUN 9 .2 .3 .4 .5 FREGUENCY IN HZ.
.. ..
..
L 11_1
.0 .1 .2 .3 .4 .5 FRECiUENCY IN HZ78
-FULL RANGE
Hs =134
CMTs
=
5.7 SEC
Th0
= 224
DEGSObh =
43
DEG UB= U
350
Ld o 270 oho 1-1 190le 2.5E+04 ru r. u2 . 2E+04 1.5E+04 3-4 1.0E+04 )-Z 5220 3.0E+04 60 60 LI 40 '65 20
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 08:21
RUN 1079
-FULL RANGE
Hs =168
CMTs
=
5.5 SEC
Th0
= 231
DEGSObh =
45.
DEC UB= U
s
_L._ L.__Figure 63
le
FREQUENCY IN HZ .4 .5 360 tri (t$ *. o 5-4 o ISO...
. t-s 30 L ; t I .1 .2 .3 .4 .5 FREQUENCY IN HZISO-80 sei-4
-
80
-NAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 09:29
RUN 12 /-3.2E+04 Hs=
197
CM 2.2E+04Ts
=
5.9 SEC
Th0
= 241
DEG Z E+24SObh =
40
DEG g 0I .2 .3 .4 . 5 UB .1= U
FREQUENCY /N HZ 2CP.. 1 L__ 1 b.a .1 .3 .4 .5 FR:.WEMCY IN HZ[t
ri\v,
jk\t/V
FULL RANGE
I s.eE-1-o4 *5.2E+04 u4.0E+04.43.0E+04 0 1.4 ,--2.0E+04 / 0E+04 m 4.0E+04
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 10:11
RUN 14 SO SO 40 20 S 0 .1.__.1.2"..'"-"'"-.1.mr..srsJ
L____ .3 - .4 .5 FREQUENCY IN HZ 36081
-0
SO S.0 .1 .2 .3 .4 .5 FREQUENCY IN HZFULL RANGE
Hs=
198
CMTs
6 SEC
Th0
= 241
DEGSObh =
44
DEG UB= U
Figure 65
270 ISOFULL RANGE
-i >--2. esi-o4 Hs=
203
CM 1-t 1,1Ts
=
5.9 SEC
>. 1 V17+04Th0
= 235
DEG Lt1SObh =
45
DEG 11
UB= U
.1 .2 .3 .4 .5 FREQUE-2.1CY IN HZ E.0 .1 FREQUENCY IN HZ 60 40 20WAVDMP VI.0
WAVECHNMS Tyd.
82-05-15 10:59
RUN 1682
-00.
1 .2 1 .3 1 .4 1.5 ct) .1.13 o !-4 360 270 160 92 e7 o LAI 1 L._ .1 .-.) ' .3 FREENCY IN HZ 9.0E+04 L
e.o
."
.3 GC CO-4 i3HAVDMP V1.0
HAVECHNMS Tyd.
82-05-15 12:37
RUN 17 V-FR,,glUENCY IN HZ L.__,
Figure 67
FULL RANGE
Hs
23?
CMTs
6.2 SEC
Th0
233
EEG
SE/3h
43
DEG -.4 .5 UB L_ 1,4
- .5 1.1 re. L-1 1E40 5 C3...
*5.0E+04 Cu (14.0E+04 P-3.0E+04 t.1 1:712 . et,-444 0 z t. 0E+04
80-4 0.WAVDMP V1.0
NAVECHNMS Tyd.
82-05-15 13:19
RUN 19 .2 .3 FREQUENCY IN HZ_L._ L.
.1 .2 FREQUENCY IN HZ 84FULL RANGE
Hs=
227
CMTs
=
6.2 SEC
Th0
= 233
DEGSObh =
46
DEC UB=U
.4 .5 .4 .5 NA 320 tt 270 0.01 o 190GO 40 20
WAVDMP V1.0
WAVECHNMS Tyd.
62-05-15 13:55
RUN 20 6.0E+04 0* 5.0E+04 ru )-cl 2.0E+04 ;---3.0E+04 i-I (ri ZZ 1-LaTs
=6.2 SEC
*FULL RANGE
Q4.0E+04 xTh0
= 236
DEC Hs=
227
CM LA Z 1. OE +04 LiSObh =
43
DEC UB= U
6 0 .2 .3 .4 .5 FREQUENCY IN HZ L0.a
.1 .2 .3 .4 .5 FREQUENCY IN HZ 60 . s.85
-Figure 69
360 270.
160 90e.0E+04 ic6.ØE+04 E 1.) >-!-- 4 .0E+04 -1 02 0,7+04 360 130 90 5.0 .1 .2 .3 .4 FREQUENCY IN HZ 80
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 15:52
RUN 21 .1 .2 .3 .4 .5 FREQUENCY IN HZ V_86
-FULL RANGE
Hs
=
263
CMTs
=
6.6 SEC
Th0
= 238
DECSObh =
40
DEG UB= U
270 % . 60 40 20:,
S.0E+04 90 .1 .2 .3 .4 .5 B.0 L._ I 1 .2 .3 .4 .5 FREQUENCY IN HZ 62 30 4 0 2287
-WAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 16:2?
RUN 22tiN\V`
FULL RANGE
Hs =249
CMTs
=
6.4 SEC
Th0
= 233
DEGSObh =
42
DEG UB= U
Figure 71
o t. o (.) ts1 H 330 270 ISO s. FREQUENCY IN HZ..,,...
S. 0E+24 o a-4.0E+04 02 UF+P4 a: 8.0E+04 130
-
88
-WAVDMP V1.0
WAVECHNMS Tyd.
)11Ì\11 8 0 . __L__ 1 1 .2 .3 .4 .5 FREQUENCY IN HZ 3S0 270 11 .11 1 1 8.0 .2 .3 .4 FREQUENCY IN HZ (30 SO82-05-15 17:01
RUN 23FULL RANGE
Hs
=270
CMTs
=6.5 SEC
TI-i0
= 233
DEGSObh =
41
DEG UB=U
40 208.e.E.fe4 Cn S. ØE+24 1-4 F. 4 . 0E+04 F-1 Cn t52ZEKMLai' 7 '6(71?
89
-NAVDMP V1.0
NAVECHNMS Tyd.
.
1-____ 1 ---...4---1 .3 .4 .5 FREQUENCY IN HZ s. .00. o.
.0 0 O. S 0 1 .1 .2 .3 .4 .5 FREQUENCY IN HZ82-05-15 17:37
RUN 24FULL RRNGE
Hs=
257
CMIs
=
6.7 SEC
Th0
= 239
DEGSObh =
42
DEG UB= U
Figure 73
*5.0E+04 Q4.0E4-24 I-3 u LE n2.0E+04 z1.0E+04 6.2E+04 3S2 P70 t a3 BO .1 .2 .3 .4 .5 FREQUENCY IN HZ 80 20 42 20
HAVDMP V1.0
WAVECHNMS Tyd.
82-05-15 18:12
RUN 2590
-..
es.. L I I .1 2 . .2 .3 ..4 .5 FREQUENCY IN HZFULL RANGE
Hs=
251
CMis
=
6.6 SEC
Th0
= 239
DEGSObh =
43
DEG UB= U
S.0E+o4 *5.0E+04 "4.0E+04 )--2.eE+04 " 2. 0;7+04 Iii Li a.' 1 . 0E+04
360-40 20HAVDMP V1.0
WAVECHNMS Tyd.
82-05-16 09:11
RUN 26 L_____J .1 .2 .3 .4 .5 FREQUENCY IN HZSO-
60 91 60
-' ..:4. .. . "S ... . . L -1 .2 .3 .4 .5 FREQUENCY IN HZFULL RANGE
Hs=
204
CMTs
=
6.8 SEC
Th0
= 274
DEGSObh =
48
DEG UB= U
Figure 75
4.0E+04 3S0 SO 40 20 8.0
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-16 09:53
RUN 27I.
92
-S 0 1 .2 .3_J
.4 .5 FREQUENCY IN HZ SOFULL RANGE
Hs=
204
CMTs
=
6.6 SEC
Th0
= 268
DEGSOloh =
48
DEC UB= U
.2 .3 .4 .5 FREQUENCY IN HZ*5.0E+04 °4.0E+04 --3.0E+04 1-1 2.0E+04 Ld I 0E+04 360 270 o 180 30
HAVDMP V1.0
WRVECHNMS Tyd.
82-05-16 11:30
RUN 28 a .1 .2 .3 .4 .5 FREQUENCY IN HZ . s. *00-
93 S.0 .1 .2 .3 L_____J. 4 . 5 FREQUENCY IN HZ BO L__FULL RANGE
Hs=
192
CMIs
=
6.6 SEC
Th0
= 278
DEGSObh =
50
DEG US= U
Figure 77
S.0E+04 3 . 0E+04 (71
°2. 0E+04J I
Z t cE+o4 .1 2 .3 FRYQUENCY /N HZ 333 r 33 SOL 40 20.NAVDMP V1.0
WAVECHNMS Tyd.
82-05-17 07:47
RUN 30.
.
..
,) .?.. .3 FREQUECY IN HZ\A./vA
94
-FULL RANGE
s174
CMTs
7.4 SEC
Th0 =313
DEGSObh
38
DEG UB U .4 .5 L_ __A .4 .5*5.0E+04 o4.0E+04 1-4 1-3.M:+04 2.0E+04 :41.0E+04 6.0E+04 SO 40 20
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-18 07:55
RUN 3195
-.2 .3 . FREQUENCY IN HZ FREQUENCY IN HZFULL RRNGE
Hs=
178
CMTs
=
6.2 SEC
Th0
= 312
DEGSObh =
63
DEG UB=B
Figure 79
2.0E+04 *5.0E+04 Q4.0E+04 hi 3.0E+04 " 2.2E+04 IX IA Z 1.0E+04 o 320-1.4 180 o 1-80 GO 40 20
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-18 08:30
RUN 32 L 8 e .1 .2 .3 FREQUENCY IN HZ *.96
-.60..110... .2 .3 FREQUENCY IN HZFULL RANGE
Hs
=
195
CMTs
=
6.3 SEC
Th0
= 316
DEGSOloh =
64
DEG UB=B
.4 .5 L._ _1 .4 .5S.8E+24 *5.0E+04 04.0E+04 I-3.0E+04 )-4 2.0E+04 z ! .2E+04 3C0
\\
Lo
.1 .2J .3 .4 .5 FREQUt.NCY IN HZ 80WAVDMA VI.0
WAVECHNMS Tyd.
82-05-18 09:22
RUN 3397
-e
0. L__ .2 .3,4
.5 FREGI.JENCY IN HZFULL RANGE
Hs=
178
CMTs
=
6 SEC
Th0
= 289
DEGSObh =
71
DEG UB=B
Figure 81
S. 2E+24 * 5 .0E+04 ° 4 .P3E+04 3.0E+04 Ill 142.2E+04 >-1.7 X z I .0E+04
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-18 09:59
RUN 34 8.0 . .2 .3 .4 .5 FREQUENCY IN HZ B.o _1.1 .2 .3J
.5 FREQUENCY IN HZSO 93 SO
-.% 's o. .FULL RANGE
Hs196
CMTs
5.9 SEC
Th0
= 242
DEGSOloh =
75
DEG UB= B
380 270 1-4 o z 180 cc 90*5.0E+04 5tc 04.0E+04 1-4 1-.3.0E+04 Cf) C3 0E+04 >-t.9 tz I . etF.-1-04 LI
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-18 10:57
RUN 35 S.0 .1 . .3 FREQUENCY IN HZ L IJ
0.0 .1 .2 .3 .4 .5 FREQUENCY IN HZ Be 99FULL RANGE
Hs=
203
CMTs
=
5.8 SEC
Th0
= 216
DEGSObh =
71
DEG UB=B
Figure 83
363
L I 270 1-1 o 130*2.5E+04 ° 2. 0E+04 1 . 3E+04 ct cl 1. 0E+04 z 3000 3.0E+04 80
r
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-18 12:11
RUN 36100
-Hs=
191
CMFULL RANGE
Ts
=
5.9 SEC
Th0
= 219
DEGSOloh =
68
DEG UB= B
1 .2 .3 .4 .5 FREQUENCY IN HZ.
_L./
.2 .3 .4 .5 FREQUENCY IN HZ 330 o 2?0 P.! o tt.1 /BO 504.0E+04 LA GO 40
WAVDMP V1.0
WAVECHNMS Tyd.
82-05-19 13:07
RUN 38 I -_L "---6---1 . 1 .2 .3 FREQUENCY IN HZ .2 .3 FRrQUP-NCY IN HZ 101....
FULL RANGE
Hs =171
CMTs
=6 SEC
Th0
= 282
DEGSao h =
41
DEG UB= U
Figure 85
.4 .5 .4 .5 300 P e-t o 270 tzi 182 90102
-Cu I.5E+04 4.) 1-4 f"-- 1 CE+ 04 1-4 )-(7 5ZCZ 4CWAVDMP V1.0
WAVECHNMS Tyd.
82-05-20 12:41
RUN 39 2.2E+04 -S.471 1 1 .1 .4 .5 FREQUENCY IN HZFULL RANGE
Hs=
102
CMTs
=7 SEC
Th0
= 297
DEGSObh =
40
DEG UB= U
01 7 6 C. 36'0 27/C 180 1 0 .1 4 : .2 .3 FREQUENCY IN HZ . .4 .536'0 270 132 .