Instructions to participants
Detailed Overview of cases

Table 2: detailed description of the test cases

CaseTest caseHullWater depth to draughtCorresponding full scale Speed [knots]Froude numberPropeller
RPM
Rudder angle protocolValidation Variables Range of kinematic conditionsFacility
1.1Case 1.1.1KVLCC2Wd/T=13.415.50.142Self propulsion for 15.5 knots0X,Y,Nr'=0.0; β=0, 4, 8, 12, 16HMRI
Case 1.1.2KVLCC2Wd/T=13.4X,Y,Nr'=0.3; β=0, 4, 8, 12, 16
r'=0.6; β=0, 4, 8, 12, 16
HMRI
1.2Case 1.2.1KVLCC2Wd/T=11.015.50.142Self propulsion for 15.5 knots20°/20° PS
35° PS
time traces of rudder, rate of turn, drift angle, speed loss; bird-eye views of x, y and heading; and derived characteristics
RPM, T, Q and neutral rudder angle for CFD’s
Marin
Case 1.2.2KVLCC2Wd/T=11.015.50.142Marin
2.1Case 2.1.1KVLCC2Wd/T=1.25.60.0514Self propulsion for 7 knots0X,Y,Nβ=-4, -2, 0, 2, 4, 6, 8, 10 ; r'=0.0BSHC
Case 2.1.2KVLCC2Wd/T=1.25.60.05140X,Y,Nr'=0.1, 0.2, 0.3; β=0
r'=0.1, 0.2, 0.3; β=4
r'=0.1, 0.2, 0.3; β= -4
BSHC
2.2Case 2.2.1KVLCC2Wd/T=1.27.00.064Self propulsion for 7 knots20°/5° PS
35° PS
time traces of rudder, rate of turn, drift angle, speed loss; bird-eye views of x, y and heading; and derived characteristics
RPM, T, Q and neutral rudder angle for CFD’s
Marin
Case 2.2.2KVLCC2Wd/T=1.27.00.064Marin
3.1Case 3.1.1KCSWd/T=26.819.90.216No propeller0X’, Y’, K’, N’r'=0.0; β=0, 3, 6, 9, 12, 18JMU
Case 3.1.2KCSWd/T=26.819.90.216No propeller0X’, Y’, K’, N’r'=0.2; β=0, 3, 6, 9, 12, 18
r'=0.4; β=0, 3, 6, 9, 12, 18
r'=0.6; β=0, 3, 6, 9, 12, 18
JMU
3.2Case 3.2.1KCSWd/T=17.5240.260Self propulsion for 24 knots20°/20° PS
10°/10° PS
35° PS
20°/20° SB
time traces of rudder, rate of turn, drift angle, heel angle, speed loss; bird-eye views of x, y and heading; and derived characteristics
RPM, T, Q and neutral rudder angle for CFD’s
Marin
Case 3.2.2KCSWd/T=17.5240.260Marin
Case 3.2.3KCSWd/T=17.5240.260Marin
Case 3.2.4KCSWd/T=17.5240.260Marin
3.3Case 3.3.1KCSWd/T=20.914.50.157Self propulsion for 14.5 knots0X, Y, K, NCalm water
Head wave: λ/L=1.0, h/λ=1/60
HU
Case 3.3.2KCSWd/T=20.914.50.1570X, Y, K, NHU
4.1Case 4.1.1KCSWd/T=1.28.750.095Self propulsion for 8.75 knots0X, Y, K, Nr'=0.0; β=0, 2, 4, 6, 8, 10Kriso
Case 4.1.2KCSWd/T=1.28.750.0950X, Y, K, Nr'=0.0; β=0, 2, 4, 6, 8, 10Kriso
4.2Case 4.2.1KCSWd/T=1.28.750.095Self propulsion for 8.75 knots20°/5° PS
35° PS
time traces of rudder, rate of turn, drift angle, speed loss; bird-eye views of x, y and heading; and derived characteristics
RPM, T, Q and neutral rudder angle for CFD’s
-Marin
Case 4.2.2KCSWd/T=1.28.750.095-Marin
5.1Case 5.1.1ONRTInfinity15.10.200X, Y, K, Nr'=0.0; β=0, 4, 8, 12
r'=0.31; β=0, 4, 8, 12
r'=0.48; β=0, 4, 8, 12
SNU
Case 4.1.2ONRTInfinity15.10.200X, Y, K, N
5.2Case 5.2.1ONRTWd/T=2915.10.2020°/20° PS
35° PS
time traces of rudder, rate of turn, drift angle, speed loss; bird-eye views of x, y and heading; and derived characteristics-IIHR
Case 5.2.2ONRTWd/T=2915.10.20-IIHR
5.3Case 5.3.1ONRTWd/T=2915.10.2035° PStime traces and derived characteristicswave λ/L=xx, h/L=xxIIHR

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