The examination of maneuvering qualities of a ship is necessary to ensure its navigational safety and prediction of trajectory. The study of maneuverability of a ship is a three-step process, which involves selection of a suitable mathematical model, estimation of the hydrodynamic derivatives occurring in the equation of motion, and simulation of the standard maneuvering tests to determine its maneuvering qualities. This paper reports the maneuvering studies made on a container ship model (S175). The mathematical model proposed by Son and Nomoto (1981, “On Coupled Motion of Steering and Rolling of a High Speed Container Ship,” J. Soc. Nav. Arch. Jpn., 150, pp. 73–83) suitable for the nonlinear roll-coupled steering model for high-speed container ships is considered here. The hydrodynamic derivatives are determined by numerically simulating the planar motion mechanism (PMM) tests in pure yaw and combined sway–yaw mode using an Reynolds-Averaged Navier–Stokes Equations (RANSE)-based computational fluid dynamics (CFD) solver. The tests are repeated with the model inclined at different heel angles to obtain the roll-coupled derivatives. Standard definitive maneuvers like turning tests at rudder angle, 35 deg and 20 deg/20 deg zig-zag maneuvers are simulated using the numerically obtained derivatives and are compared with those obtained using experimental values.

References

1.
IMO
,
2002
, “
Explanatory Notes to the Standard for Ship Manoeuvrability
,” International Maritime Organization, London, Resolution MSC.137(76).
2.
Xing-Kaeding
,
Y.
, and
Jensen
,
A. G.
,
2006
, “
Simulation of Ship Motions During Maneuvers
,”
Ship Technol. Res.
,
53
(
4
), pp.
14
28
.
3.
Carrica
,
P. M.
,
Ismail
,
F.
,
Hyman
,
M.
,
Bhushan
,
S.
, and
Stern
,
F.
,
2013
, “
Turn and Zig-Zag Maneuvers of Surface Combatant Using URANS Approach With Dynamic Overset Grids
,”
J. Mar. Sci. Technol.
,
18
(
2
), pp.
166
181
.
4.
Dubbioso
,
G.
,
Durante
,
D.
, and
Broglia
,
R.
,
2013
, “
Zig-Zag Maneuver Simulation by CFD for Tanker Like Vessel
,”
5th International Conference on Computational Methods in Marine Engineering
, Hamburg, Germany, May 29–31.
5.
Ohmori
,
T.
,
1998
, “
Finite Volume Simulation of Flows About a Ship in Maneuvering Motion
,”
J. Mar. Sci. Technol.
,
3
(
2
), pp.
82
93
.
6.
Nonaka
,
K. H.
,
Miyazaki
,
H.
,
Nimura
,
T.
,
Ueno
,
M.
,
Hino
,
T.
, and
Kodama
,
Y.
,
2000
, “
Calculation of Hydrodynamic Forces Acting on a Ship in Maneuvering Motion
,”
International Conference on Marine Simulation and Ship Maneuvering (MARSIM)
, Orlando, FL, May 8–12.
7.
Simonsen
,
C. D.
,
Otzen
,
J. F.
,
Klimt
,
C.
,
Larsen
,
N. L.
, and
Stern
,
F.
,
2012
, “
Maneuvering Predictions in the Early Design Phase Using CFD Generated PMM Data
,”
29th Symposium on Naval Hydrodynamics
, Gothenburg, Sweden, Aug. 26–31.
8.
Cura-Hochbaum
,
A.
,
2011
, “
On the Numerical Prediction of the Ship's Manoeuvring Behaviour
,”
Ship Sci. Technol.
,
5
(
9
), pp.
27
39
.
9.
Stern
,
F.
,
Agdrup
,
K.
,
Kim
,
S. Y.
,
Hochbaum
,
A. C.
,
Rhee
,
K.
,
Quadvleig
,
F.
,
Perdon
,
P.
,
Hino
,
T.
,
Broglia
,
R.
, and
Gorski
,
J.
,
2011
, “
Experience From SIMMAN 2008—The First Workshop on Verification and Validation of Ship Maneuvering Simulation Methods
,”
J. Ship Res.
,
55
(
2
), pp.
135
147
.
10.
Di Mascio
,
A.
,
Dubbioso
,
G.
,
Notaro
,
C.
, and
Vivan
,
M.
,
2011
, “
Investigation of Twin-Screw Naval Ships Maneuverability Behaviour
,”
J. Ship Res.
,
55
(
4
), pp.
221
248
.
11.
Sakamoto
,
N.
,
Carrica
,
P. M.
, and
Stern
,
F.
,
2012
, “
URANS Simulations of Static and Dynamic Maneuvering for Surface Combatant: Part 1 Verification and Validation for Forces, Moments and Hydrodynamic Derivatives
,”
J. Mar. Sci. Technol.
,
17
(
4
), pp.
422
445
.
12.
Eda
,
H.
,
1980
, “
Maneuvering Performance of High Speed Ships With Effects of Roll Motion
,”
Ocean Eng.
,
7
(
3
), pp.
379
397
.
13.
Son
,
K.
, and
Nomoto
,
K.
,
1981
, “
On Coupled Motion of Steering and Rolling of a High Speed Container Ship
,”
J. Soc. Nav. Arch. Jpn.
,
150
, pp.
73
83
.
14.
Yoon
,
H. K.
,
Son
,
N. S.
, and
Lee
,
C. M.
,
2004
, “
Estimation of Roll Related Hydrodynamic Coefficients Through the Free Running Model Tests
,”
MTTS/IEEE/TECHNO-OCEAN’04
,
Kobe
,
Japan
, Nov. 9–12, pp. 1086–1092.
15.
Banerjee
,
N.
,
Rao
,
C. S.
,
Raju
,
M. S. P.
, and
Hughes
,
P.
,
2006
, “
Determination of Manoeuvrability of Ship Model Using Large Amplitude Horizontal Planar Motion Mechanism
,”
International Conference in Marine Hydrodynamics (MAHY-2006)
, SNAME, Visakhapatnam, India, Jan. 5–7.
16.
Kim
,
Y.-G.
,
Kim
,
S.-Y.
,
Kim
,
H.-T.
,
Lee
,
S.-W.
, and
Yu
,
B.-S.
,
2007
, “
Prediction of the Maneuverability of a Large Container Ship With Twin Propellers and Twin Rudders
,”
J. Mar. Sci. Technol.
,
12
(
3
), pp.
130
138
.
17.
SNAME
,
1952
, “
Nomenclature for Treating the Motion of a Submerged Body Through a Fluid
,”
Society of Naval Architects and Marine Engineers, Tech. Res. Bull.
, 1–5.
18.
Shenoi
,
R. R.
,
Krishnankutty
,
P.
,
Selvam
,
R. P.
, and
Kulsreshtha
,
A.
,
2013
, “
Prediction of Maneuvering Coefficients of a Container Ship by Numerically Simulating HPMM Using RANSE Based Solver
,”
Third International Conference on Ship Manoeuvring in Shallow and Confined Water
, Jun. 3–5, Ghent, Belgium.
19.
Crane
,
C. L.
,
Eda
,
H.
, and
Landsburg
,
A.
,
1989
, “
Principles of Naval Architecture
,”
Controllability
,
SNAME
,
Jersey City, NJ
, pp.
200
258
.
20.
Shenoi
,
R. R.
,
Krishnankutty
,
P.
, and
Selvam
,
R. P.
,
2015
, “
Sensitivity Study of Hydrodynamic Derivative Variations on the Maneuverability Prediction of a Container Ship
,”
ASME
Paper No. OMAE2015-41490.
21.
Shenoi
,
R. R.
,
Krishnankutty
,
P.
, and
Selvam
,
R. P.
,
2014
, “
Study of Maneuverability of Container Ship by Static and Dynamic Simulations Using RANSE Based Solver
,”
Ships Offshore Struct.
(published online).
22.
ITCC
,
2011
, “
Practical Guidelines for Ship CFD Application
,”
ITTC Recommended Procedures and Guidelines
, 7.5-03-02-03.
23.
Vantorre
,
M.
,
2000
, “
Captive Manoeuvring Tests With Ship Models: A Review of Actual Practice Based on 22nd ITTC Maneuvering Committee Questionnaire
,”
International Conference on Marine Simulation and Ship Manoeuvrability (MARSIM 2000)
, Orlando, FL, May 8–12.
24.
Abkowitz
,
M. A.
,
1964
, “
Lectures on Ship Hydrodynamics—Steering and Maneuverability
,” Hydro-Og Aero-Dynamisk Laboratorium, Report No. Hy-5, Lyngby, Denmark.
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