Practical
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Practical Design
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Practical Design
of
Ships and
Other Floating Structures
Proceedings
of
the Eighth International Symposium on
Practical Design
of
Ships and Other Floating Structures
16
-
21 September 2001
Shanghai, China
Edited
by
You-Sheng Wu
China Ship Scient@ Research Center,
Wuxi, Jiangsu, China
Wei-Cheng Cui
School
of
Naval Architecture
&
Ocean Engineering,
Shanghai Jiao Tong University,
Shanghai, China
and
Guo-Jun Zhou
China Ship Scientijk Research Center,
Wuxi, Jiangsu, China
Volume
I
2001
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First edition
2001
British Library Cataloguing in Publication Data
International Symposium on Practical Design of Ships and
other Floating
Structures
(8th
:
2001
:
Shanghai, China)
Practical design
of
ships and other floating structures
proceedings
of
the Eighth International Symposium on
Practical Design
of
Ships and other Floating Structures
16-21
September
2001,
Shanghai, China
1.Naval architecture
-
Congresses 2.Shipbuilding
-
Congresses
1.Title II.Wu, You-Sheng III.Cui, Wei-Cheng 1V.Zhou.
Guo-Jun
623.8
ISBN
0080439500
Library of Congress Cataloging in Publication Data
A
catalog record from the Library
of
Congress has
been
applied for.
ISBN:
0-08-043950-0 (2
Volume set)
@I
The paper used in this publication meets the requirements of ANSIiNISO
239.48-1992
(Permanence of Paper).
Printed in The Netherlands.
V
PREFACE
During the last century the science and technology
of
ships and marine structures experienced
extremely great progress, and thus created the modem shipbuilding, shipping and ocean industries.
The relevant achievements were a part of the driving sources, which changed the whole world and the
society. Among the efforts towards these achievements was the creation of “The First International
Symposium on Practical Design in Shipbuilding” in 1977 in Tokyo. Later on it became a series of
symposia, PRADS as the abbreviation. Last century seven PRADS symposia were held in Tokyo
(’77
and
’83),
Seoul
(’83
and
’99,
Trondheim (’87), Varna
(’89),
Newcastle (’92) and The Hague
(’98).
This proceedings contains
the
papers presented at “The 8th International Symposium on Practical
Design of Ships and Other Floating Structures” held at Shanghai Everbright Convention
&
Exhibition
Center, China on 16-2
1
September
2001.
This is the first of the PRADS Symposia in the 21 st century.
The overall aim of
PXADS
symposia is to advance the design of ships and other floating structures
as
a
professional discipline and science by exchanging knowledge and promoting discussion of
relevant topics in the fields of naval architecture and marine and offshore engineering. Inline with the
aim, in welcoming the new era this Symposium is particularly for an increase in international
cooperation and giving
a
momentum for the new development of design and production technology
of
ships and other floating structures for efficiency, economy, safety, and environmental production.
The main themes of this Symposium are Design Synthesis, Production, Hydrodynamics.
Structures and Materials of Ships and Floating Systems. Proposals for over 270 papers
from
26
countries and regions within the themes were received for PRADS’2001, and about 170 papers were
accepted
for
presentation at the symposium. With the high quality
of
thc proposed papers the Local
Organizing Committee had a difficult
task
to make a balanced selection and to control the total number
of
papers for fitting into the allocated time schedule approved by the Standing Committee of PRADS.
Volume
I
of the proceedings covers the subjects about design synthesis, production and part of
hydrodynamics. Volume
I1
contains the subjects for the rest of hydrodynamics, structures and
materials.
On behalf of the Standing Committee
of
PRADS and
the
Local Organizing Committee
of
PRADS’2001, we would like
to
thank all the participants
for
their great contributions to the successful
symposium. The full support from
the
sponsors, Mechanical and Vehicle Engineering Division of
Chinese Academy
of
Engineering, Chinese Society of Naval Architects and Marine Engineers, and
Chinese Institute of Navigation are greatly acknowledged. Sincere gratitude is also extended to China
Ship Scientific Research Center, Shanghai Jiao Tong University and other institutes and shipyards in
China. who have helped the preparation of this Symposium.
You-Sheng
Wu
Wei-Cheng Cui
Guo-Jun Zhou
vii
These Proceedings
of
Volumes
I
and
I1
contain papers presented at the
8Ih
International
Symposium on Practical Design
of
Ships and Other Floating Structures. The Symposium
was
held at
the Shanghai Everbright Convention
&
Exhibition Center in Shanghai, China, on
16-21
September
2001,
and organized by:
CAE Chinese Academy
of
Engineering, Mechanical and Vehicle Engineering Division
CSNAME Chinese Society
of
Naval Architects and Marine Engineers
CIN China Institution
of
Navigation
These organizations are represented in the Local Organizing Committee.
The Local Organizing Committee organized the Symposium under supervision
of
the PRADS’s
Standing Committee. The Symposium gained the generous support of many
sponsors.
They are listed
together with the membership of the committees in the following.
HONORARY ADVISORY COMMITTEE
Mr. Uong-Sheng Wang,
President, Chinese Society
of
Naval Architects and Marine Engineers
Mr. Xiao-Jin Chen,
President, China State Shipbuilding Corporation
Mr. Shan-Xiang Hong,
fice Ministec MinisQ
of
Communications
Mr. Ping-Tao Huang,
President, China Shipbuilding Industrial Corporation
Mr. Zai-Kuan Jin,
vice President, China State Shipbuilding Corporation
Mr. Ke-Jun Li,
President, China Classification Society
Mr. Zu-Yi
Lin,
President, China Institute
of
Navigation
Prof. Dian-Zuo Wang,
Vice President, Chinese Academy
of
Engineering
Mr. Hui Wang,
vice President, China Shipbuilding Industrial Corporation
Mr. Guang-Qin, Zhang,
vice President
of
Commission
of
Science.
Technology and Industry for National Defence
PRADS STANDING COMMITTEE
Prof.
S.
Motora (Honorary Chairman),
Previously,
Ship
and Ocean Foundation, Japan
Prof. You-Sheng
Wu
(Chairman),
China Ship Scientific Research Center, China
Prof.
T.
Borzecki,
Technical University ofGdansk, Poland
Dr.
L.L.
Buxton,
University OfNewcastle,
UK
Prof. O.M. Faltinsen,
The Norwegian Institute
of
Technology, Norway
Dr.
R.
Porcari,
Italian Ship Research Centec Italy
Prof.
J.
J.
Jensen.
Technical University
of
Denmark, Denmark
Prof.
H.
Kim,
Seoul National University, Korea
Dr. D. Liu,
American Bureau
of
Shipping U.S.A.
Prof.
H.
Ohtsubo,
University
ofTokyo,
Japan
Dr. M.
W.C.
Osterveld (Ex-officio),
MARIN,
The Netherlands
Prof. H. Petershagen,
University
of
Hamburg, Germany
Dr.
S.
0.
Tan.
MARIN, The Netherlands
Prof.
Wei-Cheng, Cui (Secretary),
Shanghai Jiao
Tong
University, China
viii
PRADS LOCAL ORGANIZING COMMITTEE
Prof.
You-Sheng Wu (Chairman), China Ship Scientific Research Center
Prof.
Jian-Xun Lu (Co-Chairman), China Ship Research and Development Academy
Prof.
Ze-Liang Chang, Counselor
k
Ofjice Shanghai Municipality
Mr.
Tian-Zu Cheng, Chinese Society
of
Naval Architects and Marine Engineering
Prof.
Wei-Cheng Cui (Secretary), Shanghai Jiao Tong University
Prof.
Shi-Tang Dong, China Ship Scientific Research Center
Prof
Xiao-Hong Gao, Wuhan University
of
Technology
Prof.
Ri-Xiu Guo, Naval Engineering University
Prof.
You-Sheng He, Shanghai Jiao Tong Universily
Prof.
Bing-Han Hsu, China Ship Scientific Research Center
Mr.
Ke-Yi Hu, Shanghai Jiang Nan Shipyard
Prof.
Sheng Huang, Harbin Engineering University
Prof.
Zhuo-Shang Ji, Dalian University
of
Science and Technology
Mr.
Qi-Kang Liang, Marine Design and Research Institute of China
Mr.
Zhi-Ping Lu, Shanghai Merchant Ship Design and Research Institute
Mr.
Wen-Sun Shen, Dalian New Shipyard
Prof.
Zi-Ying Sheng, Shanghai Academy
of
Science
Mr.
Heng-Yuan Wang, Shanghai
Hu
Dong Shipyard
Prof.
Xiu-Heng Wu, Wuhan University
of
Technology
Prof.
Xue-Yan Xu, Marine Design and Research Institute
of
China
Mr.
Heng-Yi Zeng, China Ocean Petroleum Co.
Prof.
Bing-Yan Zhang, Marine Design and Research Institute
of
China
Prof.
Sheng-Kun Zhang, Shanghai Jiao Tong University
Prof.
Guo-Jun
Zhou (Secretary), China Ship Scientific Research Center
Mr.
Zhen-Bo Zhou, Shanghai Corporation
of
Shipbuilding Industry
Prof.
Ying-Fu Zhu, Wuhan Ship Design Institute
PROGRAMME COMMITTEE
Prof.
Xng-Qiu Chen, China Classification Society
Prof.
Zhu-Shun Dong, Naval Engineering University
Prof.
Yan-Liang Guo, Marine Design and Research Institute of China
Prd.
Xiang-Lu Huang, Shanghai Jim
Tong
Universify
Prof.
Run-Pei Li, Shanghai Jiao
Tong
University
Prof.
Guo-Ping Miao, Shanghai Jiao Tong University
Prof.
Hong-Cui Shen, China Ship Scientific Research Center
Prof.
Zhong-Kun Shi, Hua Zhong Universiry
of
Science and Technology
Prof.
Guo-Qiang Wang, Shanghai Jiao Tong University
Prof.
Chang-Jian Weng, Wuhan University
of
Technology
Prof.
Fei Xia, Wuhan Ship Design Institute
Prof.
Zuo-Shui Xie,
Hua
Dong Shipbuilding Institute
Prof.
Zao-Jian Zou, Wuhan University
of
Technology
ix
SPONSORS
Chinese Academy
of
Engineering, Mechanical and Vehicle Engineering Division
Chinese Society
of
Naval Architects and Marine Engineers
China Institution
of
Navigation
Ship Mechanics Committee, CSNAME
China Ship Scientific Research Center
Shanghai Jiao Tong University
Marine Design and Research Institute
of
China
Wuhan University
of
Technology
STAFF MEMBERS
OF
THE SECRETARIAT
Prof.
Guo-Jun
Zhou,
China Ship Scientific Research Center
Mr.
Bo-Ling
Kang,
China Ship Scientific Research Center
Mr. Zhen-Ping Weng, China Ship Scienrific Research Center
Mr. Ren-Han
Li,
Chinese Academy
of
Engineering
Ms. Wen-Ji Li, China Ship Scientific Research Center
Mr.
Xue-Wen Yin, China Ship Scientijic Research Center
Ms. Jie Xu, China Ship Scientijic Research Center
Ms. Qi-Hua Li, China Ship Scientific Research Center
Ms. Jia-Yu Qian, China Ship Scientific Research Center
Mr.
Zheng-Yu Song, China Ship Scientific Research Center
xi
CONTENTS
VOLUME
I
Preface
PLENARY LECTURES
Maritime Safety Culture and Development of Ship and Offshore Installations Design Standards
in the 2
1
st Century
Ke-Jun
Li
Structural Safety of Ships
D.
Liu
Shipping Industry in the 21st Century
Jia-Fu Wei
1.
DESIGN SYNTHESIS
FOR
SHIPS AND FLOATING SYSTEMS
LIFE CYCLE
COST
AND SHIPPING SYSTEM
A
Consideration
of
Life Cycle Cost
of
a
Ship
Yasushi Kumakura and Hiroshi Sasajima
The Experiment
of
River-Sea-Going
Ore
Barge Fleet and Renovation of Existing Integrated Barge
Shun-Huai Chen, Wei Zhang, Jwt-Ming Li and Cheng-Fang Wang
DESIGN OPTIMISATION
Optimization
of
a Wave Cancellation Multihull Ship Using CFD Tools
C.
Yang R. Lohner and
0.
Soto
A
Module-Oriented Optimization
Tool
Ph.
Rigo
The Fine Optimization
of
Ship
Hull
Lines in Resistance Performance by Using CFD Approach
L.
Xu
and
XY
Wang
HULL
FORM
DESIGN
Parametric Hull Form Design
-
A
Step Towards One
Week
Ship Design
C.
Ab[,
SD. Bade,
L.
Birk and
S.
Harries
Mission Based Hydrodynamic Design of a Hydrographic Survey Vessel
S.
L.
Toxopeus,
IY.'
van Tenvisga and C.H.
Thill
Hull Form Design of a Passenger Catamaran for Operation in the Yellow
Sea
Region
Seung-Hee Lee, Young-GilI Lee and Jae Wook Lee
V
3
13
21
29
37
43
51
59
67
75
83
xii
Hull Form Design
of
Cargo Ship in Shallow and Strong Current Waterways
Li-Zheng Wmg and Long-Fei Xi
NOVEL SHIP CONCEPTS
-
HIGH SPEED VESSELS
The
Impact Load
of
Wing-in-Ground-Effect Craft in Waves and Application
of
Hydro-Ski
Zu-Shun Dong, Xiao-Peng Gao and Wei
Sun
Conceptual Design
of
Very Large-Size Super-High-speed Foil Catamaran Containership
Keh-Sik Min, Seon-Hyung Kang
and
Oi-Hyun Kim
A Practical Application
of
Air Lubrication on a Small High Speed Boat
Jinho Jmg,
II
Jun Ahn, Jaesung Kim, Jung-Chun Suh, Hyochul Kim, Seung-Hee Lee and Museok
Song
The Hybrid Hydrofoil Stepped Hull
B. Duff? and C.D. Barry
NOVEL SHIP CONCEPTS
-
TRIMARAN
The Design
of
Trimaran Ships: General Review and Practical Structural Analysis
T.
Coppola and
M.
Mandarin0
Calm Water Experimental Research on Geosims
of
High Speed Trimaran: Hydrodynamic Characteristics
and Model-Ship Correlation
E.
Begovic, C. Bertorello and
I!
Cassella
Trimaran Model Test Results and Comparison with Different High Speed Craft
C.
Bertorello, D. Bruzzone.
I!
Cassella and
I.
Zotli
Hull
Form Development and Powering Performance Characteristics
for
a
2,500
Ton Class Trimaran
Kuk-Jin Kang, Chun-Ju Lee and Do-Hyun Kim
FLOATING PRODUCTION SYSTEMS
Design Recommendations from the FPSO
-
Fatigue Capacity
JIP
I.
Lotsberg
Design
of
FPSOs Based on Maneuvering Stability
G.B.
Mattec
J.S.
Sales Jc andS.H. Sphaier
Extreme Response and Fatigue Damage
of
ShipShaped FPSO
Chun-Tian Zhao, Yong Bai and Yung Shin
91
97
105
113
119
127
135
143
151
159
167
175
VERY LARGE FLOATING STRUCTURES
(I)
An Investigation into Wave Induced Drift Forces and Motions
of
Very Large Floating Structures
N.
Ma,
Z
Hirayama and
K.
Ishikawa
187
A Study on the Horizontally Dynamic Behavior
of
a VLFS Supported with Dolphins
Ha0 Liu, Hiroo Okada, Takashi Eubogo and Koji Masaoka
197
Expcrimental Study on the Hydroelastic Response Characteristics
of
a Pontoon
Type
Floating Structure
T.
Y
Chung
J.
H. Chung,
S.
L
Hong and LJ.
Ji
205
VERY LARGE FLOATING STRUCTURES
(11)
Simulation Study on Coastal Ecosystem Around
a
Very Large Floating Structure in
Tokyo
Bay
D. Kitazawa,
M
Fujino and
S.
Tabeta
213
Effects
of
a Draft on Hydroelastic Responses of a Pontoon
Type
Very Large Floating Structure
H
Maeda, T. Ikoma, C.K. Rheem and
M
Arita
A
Study on Deck Wetness and Slamming
of
Very Large Floating Structures
Hvunkyoung Shin,
Ho-Young
Lee, Choon-Gyu Lim, Jeom-Moon Kang,
Oi-Hyun
Kim and
Mwng-Cheol Yoon
SAFETY ASSESSMENT
Probabilistic Analysis Tools for Surface Ships Under Seaway and Extreme Dynamic
Loads
I!J
Lua
andPE.
Hess
Comprehensive Fuzzy Approach in Hazard Identification
of
Formal Safety Assessment (FSA)
Kng-Qiu
Chen and Shao-Fen Lin
Estimating the Risk
of
Cargo Shifting in Waves
-
Methodology and Results
A.
Ryrfeldt and
T.
Kallstam
DESIGN PRINCIPLE AND CRITERIA
Ship Design Using Probabilistic Damage Stability Rules
-
A
Sensitivity Study
P.H.
Lawidsen.
J.1
Jensen andJ Baatrup
Integration
of
First-Principle Approaches to Design
for
Damage Survivability
D. Konovessis and
D.
Vassalos
Rational Design Criteria
and
Their Application to
Hull
Form Optimisation of Floating Systems in
Random Seas
L.
Birk and
G.F:
Clauss
DESIGN METHODS
The Application
of
a Decomposition and Reuse Approach in Marine Design
K.
G.
Tan and
P.
Sen
Evaluating Design for Upgradeability: A Simulation Based Approach for Ships and Marine Products
I.
L. Burton and
G.
H. Stephenson
Model-Based Simulation
for
Container Loading
/
Unloading
Soon-Sup
Lee, Jong-Kap Lee and Hong-Tae Kim
Research
on
3D-Layout Design
of
Ship Compartment
Based
on CBR
Jun-Hua Li, Kng-Fu Zhu, Wen-Ye
Kng
and Jun Lu
Development of
a
Sophisticated
Hull
Form CAD System ‘EzHULL‘ Based on aNon-Manifold Model
and ‘X-topology’
Kyu-Yeul Lee, Joong-Hyun Rhim. Sang-Uk Lee, Doo-Yeoun Cho
and
Young-Bok Choi
MARINE STRUCTURAL DESIGN
A Design Modification
of
VLCC with Wide Web Frame Space
.Jae-Hying
Park, Chang-Hwan Jang and Joo-Ho He0
Optimization of the Design
of
Ship Structures Using Response Surface Methodology
M. Arai and
T.
Shimizu
Xlll
22
1
229
237
245
253
261
269
215
285
293
301
309
315
323
33
1
xiv
APPLICATION
OF
INFORMATION TECHNOLOGY
A Study on
an
Information System of Damages
of
Ship Structures
E
Kawamura,
I:
Seki,
I:
Sakuragi and
L
Sumi
Bayesian and Neural Networks for Preliminary Ship Design
H.B.
Clamen, M. Lutzen,
A.
Friis-Hansen and
N.
Bjerneboe
2.
PRODUCTION
DEVELOPMENT IN PRODUCTION
TECHNOLOGY
Innovation
in
Ship Production: What Can We Expect
?
H.
Wckens
New Production System for Vessels of Composite Materials Using an Adjustable Mould
Jong Oh Kwon, Jaesung Kim, Jung Chun Suh, Hyochul Kim, Seung Hee Lee, Young Gill Lee,
Kisung Kim, Joe
Wook
Lee, Jae Moon Lew, Sanghong Lee, Jae Kyu Lee,
Due
Sun Kang and
Duk
So0
Chung
Mobile Agent Based Supply Chain Management in Shipbuilding Industry
Jing-Yun Cheng, Bei Lu and Sheng-Kun Zhang
Energy and Environment Dimension in Ship Manufacturing Processes
M.A.
Shama
FABRICATION MECHANICS
Study on Heat Transfer Between
Gas
Flame and Plate During Line-Heating Process
Y:
Tomita,
N.
Osawa, K. Hashimoto,
h?
Shinhi,
J.
Sawamura and
K.
Maisuoka
Study on the Process Technology of Line Heat Forming of Hull Fabrication
Yujun
Liu.
Zhuoshang Ji, Dong Wang
and
Yanping Deng
Numerical Simulation of Welding Distortions in Large Steel Structures
L.
F.
Andersen
3.
HYDROMECHANICS
COMPUTATIONAL FLUID DYNAMICS
-
FLOW SIMULATION
Simulation
of
Viscous Flow
of
Modem Surface Ships Using the FINFLO RANS Solver
Zing-Qiu Li and
J.
Matusiak
Viscous Flow Around Rotating Ships
C. Levi and
.I
E.
J!
Wanderley
Numerical Simulation
of
Flows over Underwater Axisymmetric Bodies with Full Appendages
Zhcn-Yu Huang and
Lian-Di
Zhou
Viscous Flow Calculations Used for Dredger Design
M. Hoekstra,
A.
de Jager and
H.H.
Valkhof
Fully
Non-linear Wave Computations for Arbitrary Floating Bodies Using the DELTA Method
Tzung-Hang
Lee
and Chang-Lung Chen
341
349
3
59
367
373
381
389
397
403
413
42
1
429
437
445
xv
COMPUTATIONAL FLUID DYNAMICS
-
ENVIRONMENT
Flow Behavior Around Tandem Oil Fences
Dong Gi
Hm,
Choung
M
Lee and Sang
J
Lee
A
CFD-Based Parametric Study
on
the
Smoke Behaviour of a Typical Merchant Ship
Eunseok Jin, Jaedon
Yoon
and
Yongsoo
Kim
Application of CFD to Assessment and Design of the Air-Ventilation System
in
the Reefer Container
Holds of Container Carriers
Bong .run Chang
RESISTANCE
Wash and Wave Resistance of Ships in Finite Water Depth
Qinzheng Yang,
0.M
Faltinsen and Rang Zhao
On
Scale Effect of the Resistance Due to
Stem
Waves Including Forward-Oriented Wave Breaking
Just Behind a Transom
Stem
T.
Yamano, Y. Kusunoki,
F.
Kuratani,
T.
Ikebuchi andl Funeno
Numerical and Experimental Evaluation
of
the Hull Characteristics
of
Two-Semi-Displacement
Fast
Monohulls
C.MP
Sampaio,
K.
Nishimofo, C.H. Miyagi,
K.
Hirafa and
I.
Miwa
Empirical Prediction of Ship Rcsistance and Wetted Surface Area Using Artificial Neural Networks
K.
Koushan
A
New Method for Resistance and Propulsion Prediction of Ship Performance in Shallow Water
T.
Jiang
Lower Frictional Resistance Characteristics of Foul Release Systems
M.
Candries, M Atlac A. Guerrero and
C.
D.
Anderson
PERFORMANCE
45
1
459
467
475
485
493
50
1
509
517
Evaluation and Computer Program
on
the Speed Trial Analysis Method
of
the Ongoing Work in lSOfTC8
Eun-Chan Kim, Uyun-Se
Yoon,
Sa-Young Hong and Yoon-Rak Choi
525
A
Test Procedure and Evaluation Method for Seakeeping Trials with Address
to
Broaching-To
533
0.
Lundback
Experimental Investigation of Bank Effects under Extreme Conditions
D Q.
Li,
M.
Leer-Andersen,
P.
Ottosson
and
P
Tragdrdh
SEAKEEPING AND RINGING
54
1
Effects
of
Different Three Dimensional Formulations
on
the Seakeeping Computations of High Speed
Hulls
D.
Bruzzone,
I?
Gualeni and L. Sehastiani
547
Measurement
of
Ship Motion During Model Tests and Full Scale Seakeeping Trials
Nan Xie, Guo-Liang Qian, Huan-Qiu Gao and No-Xin Wei
Developing Seakeeping Performance Criteria for a Helicopter Pilot Training
Vessel
I?
Crossland and
M.
C.
Johnson
555
563
xvi
Dynamic Behaviour of Rigid Mono- and Multi-Hulled Vessels in Waves, Incorporating Non-Linear
Excitation 57
1
PA. Bailey,
E.J.
Ballard and
I!
Emarel
Time-Domain Simulations and Measurements of Loads and Motions of Planning High-speed Craft
in Waves 579
K.
Ganne
Analysis of Ringing by Continuous Wavelet Transform
S.H.
Kwon,
H.S. Lee,
JS.
Park,
M.K. Ha
and
rJ.
Kim
DECK WETNESS AND IMPACT
Green Sea and Water Impact on FPSO in Steep Random Waves
C.
I:
Stansberg and
S.1
Karlsen
Long Term Prediction Method of Shipping Water Load for Assessment of the Bow Height
Y
Ogawa3 H, Taguchi,
I.
Watanabe and
S.
Ishida
A
Practical Design Tool for Wave Impact on Bow and Deck Structures
0.
Hellan,
JR.
Hoffand
C.T.
Stansberg
SLAMMING AND SLOSHING
Wave Impact on Decks of Floating Platforms
R.
Baarholm,
O.M.
Faltinsen and
K.
Her&ord
587
593
603
61
1
62
1
Impact Pressure Analysis on High-speed Craft in Waves, through FE-Analysis on Full-Scale and Model
Measurement Data
A.
Rosin
629
Assessment
of
Sloshing Loads for Tankers
P.C.
Sames and
T.E.
Schellin
637
MANOEUVRABILITY
-
COMPUTATION AND SIMULATION
Prediction of Hydrodynamic Forces Acting on Ship Hull in Oblique and Turning Motions by
a
Simple
Surface Panel Method 645
K. Nakatake,
2:
Sekiphi and
J
Ando
A Numerical Study on Viscous Flow About a Ship in Manoeuvring Motion
Xie-Dong Zhang andXiu-Heng
Wu
Simulation
of
the Propulsion System Behaviour During Ship Standard Manoeuvres
G.
Benvenuto,
S.
Brizzolara and
M
Figari
MANOEUVRABILITY
Experimental Study on the Maneuverability for a Wide Beam New Suezmax
Class
Tanker
Heung- Won Seo, Tae-I1 Lee and Seung-Myun Hwangbo
65
1
657
665
On Steady Horizontal
Forces
and Moment Due to Short Waves Acting on Ships in Manoeuvring Motion
M.
Ueno.
Z
Nimura,
H.
Miyazaki
and
K.
Nonaka
671
An Empirical Formula for Steering Gear Torque
of
Tankers with a Horn Rudder
D.
I.
Son,
J.
H. Ahn and K.P. Rhee
619
VOLUME
I1
Preface
xvii
V
3.
HYDROMECHANICS(coniinued)
PROPULSOR AND PROPULSION
Propeller Design and Analysis System Using an Object-Oriented Database in Windows Environment
Chang-Sup Lee and Chung-Ho Cho
A
Propeller Design Method with New Blade Section
for
Improving Cavitation Inception Under
Unsteady Condition 693
Wci-Xin Zhou, Km-Hua Wu and Shi-Tang
Dong
An Optimisation Method Based on Hilbert Space Theory for Design
of
Marine Propellers and Hull Form
T.S. .Jang, T. Kinoshita and
T.
Hino
685
699
Numerical Analysis
of
Cavitating Propellers Including Viscous Flow Effects
E
Salvatore
and
RG.
Esposito
Propeller Design Based on Surface Panel Method by Prescribed Pressure Distribution
7Fng-Shou Tan
705
713
CFD-Based Optimization
of
Tanker
Stem
Form
-
Minimization of Delivered Horsepower Using
Self-Propulsion Simulator 719
L
Tuharu.
J:
Ando and
E
Himeno
Numerical and Experimental Studies of Ducted Propeller
R.
Zhao
Design
of
Cavitating Propellers by Lifting Surface Theory
tiuo-Qiang
Wang and Chen-Jun Yang
Prediction of Transient Loading on a Propeller from an Approaching Ice Block
P.
Liu,
B.
Cotbourne and Chin Shin
PODDED DRIVES
Investigations of Podded Drives in a Large Cavitation Tunnel
J:
Friesch
Triple Pod Propulsion in the World's Largest Ever Cruise Liner
R.
Hamalainen and
J
van Heed
Hydrodynamic Trends in
Hull
Lines
of
Podded Driven Large Cruise Vessels
R.
Lepeix
HULL-PROPULSOR-APPENDAGES
INTERACTION
Simulating the Self-Propulsion Test by a Coupled Viscous/Potential Flow Computation
S
K.
Chou.
C.
Y
Hsin,
S.
K
Chau
and
KC.
Chen
Numerical Computation
of
Ship's Effective Wake and Its Validation in Large Cavitation Tunnel
.I.
W
Park,
JJ:
Kim,
D.S.
Kong andJM.
Lew
125
733
74
1
749
751
767
777
785
xviii
Wake Fields Prediction on the Propeller Plane by Neural Network
H.J Shin andS.M Hwangbo
79
1
Effect
of
Vertical Pre-Swirl Stator Vanes on the Propulsion Performance of a
300K
Class VLCC
799
Jimun Yang, Kihyun Purk, Kwang Kim, Jungchun Suh, Hyochul Kim, Seunghee Lee, Jungjoong Kim and
Hyoungtue Kim
Development and Experimental Study of a Novel Submarine Guide Vane Propeller System
Hui-Zhi Yuo
and
Hong-Cui Shen
807
EXPERIMENTAL TECHNIQUES
Development and Application of a High Speed Video System in HSVA's Large Cavitation Tunnel HYKAT
C. Johannsen
81 5
Uncertainty Analysis of Towing Test
Mo-Qin He, Hong-Cui Shen and Shu-Long He
Transient Flooding in a Damaged Ferry
J.M. Riola undJ. Vulle
4.
STRUCTURES AND MATERIALS
WAVE INDUCED
LOADS
AND RESPONSES
Prediction
of
Wave-Induced Rolling Responses by a Time-domain Strip Theory
Zhao-Hui Wung,
J.J.
Jensen andJin-ZhuXia
823
83
1
839
Methods to Reduce the Effects of Irregular Frequencies in Hydrodynamic Analysis
of
Vessels with
Forward Speed
847
S.X.
Du,
D.A.
Huakon.
WG.
Price and
E!
Temarel
The Effects
of
Forward Speed on Hydrodynamic Pressure and Structural Response
of
Ships in Waves
Chih-Chung Fang, Hua-Tung Wu, Hoi-Sung Chan and Chung-Yung Lu
857
Ship Motions and Sea Loads by a
3D
Rankin Panel Method
Li Xu, Wei-Xing Zhang, Chen-Bi Zhao, Fa-Ym Xu and You-Fang Chen
EXTREME WAVE LOADS
Experiment
on
Extreme Wave Loads
of
a Flexible Ship Model
Rui-Zhung Chen. Shuang-Xing
Du,
You-Sheng Wu, Ji-Ru Lin. Jiu-Jun Hu and Ya-Lin Yue
Estimation of Nonlinear Long-Term Extremes of the Vertical Bending Moments in Ships
G.S.
Baurholm and
T.
Moan
A Direct Calculation Approach
of
Determining Extreme Combined Bending Moments for Fast Fine
Form Ships
Xue-Kang
Gu
and
Jin-
Wei Shen
HYDROELASTICITY
Flutter of Hydrofoil in Viscous Field
Can Sima, Xiuo-Ci Zhang and You-Sheng
Wu
Symmetric and Antisymmetric Hydroelastic Analysis
of
a Bulker in Waves
S.
E.
Hirdaris,
KG.
Price and
E!
Temarel
865
87
1
879
887
895
903
Hydroelastic Model
for
Bottom Slamming
A.
Bereznitski and
K
Posfnov
Hydrodynamic Impulsive Loads Acting on Ship-Hull Plates
Gang Wang
RELIABILITY
Risk Analysis Applied
to
Occurrence of Maximum Wave Bending Moment
E.A. DahZe, D. Myrhaug and
H.T.
FEst
Fuuy Reliability Analysis
of
a Ship Longitudinal Strength
J.M.
rang
and
J.
E
Huang
Reliability-Based Requalification
of
Existing Offshore Platforms
T. Moan and
0.T.
Vdrdal
Deterministic and Probabilistic Assessment
of
FPSO Hull Girder Strength
A.
Incecik and
IT
Pu
Consistent Code Formulation
for
Ship Structural Design
.4.E.
Mansour:
J.S.
Spencer;
PH.
wirschdng,
J.E.
McGovney
and
D.D. Tarman
Reliability of Stiffened Ship Decks
K.
Rajagoparan
ULTIMATE STRENGTH
-
SENSITIVITY
Total
Analysis System for Ship Structural Strength
T.
Yoneya,
H.
Kobayashi,
M
Abdul Rahim,
E
Sasaki and M. Irisawa
Uncertainty and Sensitivity Analyses in the Predicted Critical Buckling Strength
of
a Longitudinally
Stiffened Sub-Panel
Wei-Cheng
Cui,
Li-Juan Shi and Jin-Fei Zhang
Sensitivity Analysis on Ultimate Hull Bending Moment
Ph. Rigo,
C.
Toderan and
T.
Yao
ULTIMATE STRENGTH
-
HULL GIRDER
Assessment
of
Ultimate Longitudinal Strength
of
Aged Tankers
A.
Ikeda,
T.
Yao,
0.
Kitamura,
N.
Ymamoto,
M
Yoneda
and
H.
Ohtsubo
Ultimate Strength and Reliability Assessment
for
the Ship Hull Girders Used in
ISSC-2000
Benchmark Study
Hai-Hong
Sun
and
Yong
Bai
An
Assessment
of
the Ultimate Plastic Strength
of
the Ship's Aged Hulls
G.
K
Egorov and
V.
K
Kozlyakov
ULTIMATE STRENGTH
-
STIFFENED PLATES AND SHELLS
A
New Design Model for Ultimate and Buckling Strength Assessment
of
Stiffened Plates
E. Sleen. T.K. 0stvold and
S.
Valsgdrd
Ultimate Strength
of
Longitudinally Stiffened Panels: Multi-Criteria Comparative Analysis
.I.
E
Pradillon.
7:
QuesneI,
C.
Toderan and Ph.
Rig0
xix
91
1
919
925
93
1
939
947
955
965
97
1
979
987
997
I005
1013
1021
1029
Ultimate Strength
of
Submersible Structures
I.?
Pasqualino and
S.R
Estefen
FATIGUE ASSESSMENT AND DESIGN
1037
A Report on Fatigue Failure
of
a Highly Skewed Fixed Pitch Propeller
Hochung Kim, Keunjae Kim,
Sungpyo
Kim
and Moonchan Kim
Fatigue Analysis
of
Aluminium Box-Stiffener Lap Joints
by
Nominal, Structural and Notch Stress
Range Approaches
Naiquan Ye, T. Moan and B.
R
Tveiten
Fatigue Strength Assessment of Cruciform Joints
W.
Fricke and
R.
Wernicke
Fatigue Strength Assessment
of
Hull
Details for an FPSO
S.
Berge,
A.
Johansen
and
L.G. Bjorheim
Evaluation
of
Simplified Prediction Method
of
Stress Response Function From the Viewpoint
of
Fatigue Strength Analysis
of
a Ship
T. Fukasawa,
K.
Hashimoto and Y. Tomita
Combination
of
Fatigue Damages Produced by Several Wave-Induced Loads Based on Correlation
Coefficient Method
H. Kawabe and K. Shibazaki
Fatigue Analysis
of
an
Aged Jack-up Platform Structure Refitted to Cantilever-Beam Type
Wu Nie, Yu-
Wu
Sun and Li-Ping
Sun
FATIGUE STRENGTH
-
VARIOUS FACTORS
Analysis
of
Three-Dimensional Cracks in Ship Structures Subjected to an Arbitrary Loading by
Numerical Weight Function Method
Y.
Sumi
Effect
of
Mean Stress Changes on the Fatigue Strength
of
Spectrum Loaded Welds
G.B. Marquis and T2.I Mikkola
A New Look at the Effect
of
Bandwidth and Non-Normality on Fatigue Damage
Lei
Yu,
?K. Das and N.D.P Barltrop
FATIGUE TESTS
An Experimental Investigation on Fatigue Behavior
of
Inverted Angle and T-Type Side Longitudinals
in Tankers
Jinsoo Park, Kuk Bin Kim, Wha
So0
Kim and Doe Hyun Kim
Fatigue Behaviour
of
Different Bracket Connections
H. Paetzold,
0.
Doerk and H. Kierkegamd
Fatigue Tests on Large Scale Knuckle Specimens
OB. D$-stra,
G.TM
Janss.cn andJ.KL. Ludolphy
FATIGUE CONTROL
The Pre-Fabricated
Hull
Details
for
Application in Design and Repair
S.
K
Pefinov
I045
1053
1061
1071
1081
1089
1097
1105
1113
1121
1129
1137
1145
1
IS3
Fatigue Strength
of
Load-Carrying Box Fillet Weldment in Ship Structure
Wha
So0
Kim, Doe Hyun Kim, Sang Gab Lee and
Yoon
Ki Lee
VIBRATION AND NOISE
A VBAR Model to Identify the Dynamic Characteristics
of
Marine Structures
C.
F
Hung,
L
T
Peng and
WJ.
KO
Vibration Analysis Method
of
Ship Structures in the Medium Frequency Domain
F. Besnier;
G.
Beehepay.
Y.
Mavrahkis
and
M
Feny
A New Method
for
Determining Acoustic Added
Mass
and Damping Coefficients
of
Fluid-Structure
Interaction
Q.
Zhou,
W
Zhang and
PI?
Joseph
Vibration Prediction
of
Rectangular Tank Structures
Y
Takeda
Influence
of
Journal Bearing Modelling Method on Shaft Line Alignment and Whirling Vibrations
L.
Murawski
VIBRATION CONTROL
Experimental Studies on Resistance Reduction and Vibration Reduction by Bubbly Layer
Wen-Cai
Dong
Fan
Wu.
Yun-Xiang Zhu and Ri-Xiu
Guo
Application
of
Higher Order Balancer to Control the Superstructure Vibration
of
a
Container Ship
Soo-Mok Lee,
Won-Hyun
Kim and Kyoon-Yang Chwg
NON-LINEAR DYNAMICS
xxi
1161
1169
1177
1185
1197
I205
1213
1221
Nonlinear Dynamics
of
Towed Underwater Vehicles -Numerical Modelling and Experimental Validation
G.F
Clams and
M.
Vannahme
1227
Vortex-Induced Vibration
of
Two Dimensional Wing-Spring Coupled System
Zhi-Xing Yu, Eng-Zhong Liu and Guo-Ping Mia0
FIRE AND BLAST
Fire Risk Analysis and Its Application to Ships
M
Dogliani
and
A.
Vergine
The Characteristic Analysis
of
Marine Fire Spread Phenomena with Multi-Equations System
for
Fire
Safety Design
Nohuyoshi Fukuchi and Changhong
Hu
Application
of
Computational Fluid Dynamics in the Fire Safety Design of Marine Systems
C’hanghong Hu and Nohuyoshi Fukuchi
An
Examination
of
Some Structural Limit States
for
Hydrocarbon Explosions
PA.
Frieze,
R.
B.
Cow,
R.
0.
Snell and KH.
L
Tam
COLLISION AND GROUNDING
Design Against Minor Impacts
M.
Lutzen and
P.
T.
Pedersen
Experimental Study on the Buffer Bow Structures
H
Endo.
L
Yamada and
0.
Kifamura
1237
1243
I253
1261
I269
I277
1285
xxii
Calculation
of
Collisions with the Aid
of
Linear FE Models
E.
Lehmann,
E.D.
Egge,
M.
Scharrer and L. Zhang
COLLISION
AND
EXPLOSION
A Simplified Internal
and
External Mechanics Model
for
Ships’ Collision
K.
Smki,
H.
Ohtsubo
and K.S. Sajit
Numerical Simulation
of
Ship-Submarine Collisions
R.
Donne<
R
Besnier and
H.
Le Sourne
Fluid Mesh Modeling on Surface Ship Shock Response Under Underwater Explosion
Sang-Gab
Lee,
Jeong-I1 Kwon and
Jung-Hoon
Chung
APPLICATION
OF
COMPOSITE MATERIALS
Weight Reduction in Sandwich Structures
by
Use
of
Curved Panels
C.
Berggreen and
B.C.
Simonsen
Use
of
Large-Deflection Theories
for
Design
of
FRP Panels
B. Hayman.
MJ.
Larsen,
D.
McGeorge and
P.
Nouiy
Design
of
Tee Connections in FRP Ships Using an Analytical Approach
R.A.
Shenoi and
W
Wang
MISCELLANEOUS
History
of
PRADS
M
Mano
1293
1301
1309
1315
1323
1331
1339
1345
AUTHOR INDEX
KEYWORD INDEX
JI
17