Contents
Programme ···········································································································( P-1)
S1. Session: Intelligent Ship Design & Marine Regulations
1. Ship Hull Design for Fuel Efficiency - A Description of Design Parameters ······ Jóannes Gullaksen ( 1)
2. Research on the Key Control Strategies of Shipboard AC Intelligent Power Distribution Equipment
··························································································· Jianfeng ZHANG, et al. ( 2)
3. Artificial Intelligence in the Maritime Industry ······································· Erik Stensrud, et al. ( 3)
4. A Study on the Methodologies of Technical Justification for CSR GBS Compliances ····· Ying HONG ( 4)
5. Main Dimensions of LNG Carrier Entering in River Area in China ············ Shuntaro Egawa, et al. ( 5)
6. Sea-Going Ships Comply with IMO Goal Based Standards ······················· Qiuming LUO, et al. ( 6)
7. The MBED (Maturity Based Evidence Dependent) Regulatory Framework for Highly Autonomous Systems ·························································································· Joseph Morelos ( 7)
S2. Session: Hydrodynamics & CFD
1. Investigation of Air Lubrication System (ALS) on Drag Reduction of Ship ···· Sudhir Sindagi, et al. ( 8)
2. Drag Reduction in Turbulent Flow through Spanwise Wall Oscillations ········ Avijit Sharma, et al. ( 9)
3. Analysis of Quadratic Roll Damping Based on Hilbert Transform ················ Jaehoon LEE, et al. (10)
4. Application of CFD for Ship in Drift Condition ········································ Zhang ZHU, et al. (11)
5. Feasibility Study on Numerical Predictions of Resistance and Self-Propulsion Performances for a Full Scale Ship ················································································ Kwangsoo KIM, et al. (12)
S3. Session: FPSO, FSRU, FLNG
1. Gas Solution at Remote Areas (High Light of FLNG and FSRU) ······················· Guangli YANG (13)
2. Hull Strength Analysis for a 230000m3 FLNG ······································ Yukui ZHANG, et al. (14)
3. Global Performance of FSRU/FLNG in Shallow Water ······························· Sue WANG, et al. (15)
4. A Thermal Field Analysis Technology for Membrane Tank LNG Carrier Based on FEM
········································································································· Junsong HE (16)
5. Minimizing Energy Consumption of LNG Carrier for Short Distance Trade
··························································································· Youhei Takimoto, et al. (17)
6. Standardization of FPSO Design ··························································· Qipeng ZHANG (18)
7. OFFSHORE LNG: A Technical Safety Perspective ······································ G.rdin JOHAN (19)
S4. Session: Containership Safety
1. Analysis of Large-Scale Container Ship’s Mooring Load Based on Time Domain Method
································································································· Chen CHEN, et al. (20)
2. New Balance of Safety and Efficiency for Container Securing of Large Container Ship
····································································································· Yong XU, et al. (21)
3. A Research on Lashing Patterns for Ultra Large Container Vessels ············ Haiying ZHANG, et al. (22)
4. Container Stack Nonlinear Analysis Procedure and Impacts of Corner Separations
···································································································· Geng XIE, et al. (23)
5. Ultimate Strength Assessment of Large Containerships Considering the Whipping Effects
·································································································· Hui WANG, et al. (24)
6. Overview and Design Study of Lashing System for Ultra-Large Container Ships
······························································································· Jianwei XIAO, et al. (25)
7. Containership Safety: Hydroelasticity and Lashing ································· Maximilien Basquin (26)
S5. Session: Ballast Water Treatment/Inspection & Maintenance
1. Retrofit Experiences ··············································································· Birgir Nilsen (27)
2. How Treatment Technology Affects Compliance, Peace of Mind and Operating Expenditures
·································································································· Marcus Sannholm(28)
3. Evaluation of BWMS for Cost-Effective Compliance ····································· Evon LI, et al. (29)
4. Research and Development of Ballast Water Treatment System and Case Analysis on Retrofitting Vessels
·································································································· Zhaohui ZHANG (30)
5. Unique BWTS Retrofit: A Steering Gear Room Installation ····························· Pete Thompson (31)
6. Time-Series Data Analysis by Pattern Recognition and Classification for Fault Diagnosis of Plant Equipment
····························································································· Seyun HWANG, et al. (32)
7. A Roadmap to an Advanced Suite for Ship Inspection Integrating Innovative Robotics and Software Technology ······················································································· Enrico Carrara (33)
S6. Session: Intelligent Shipbuilding
1. Research and Application of Hull Surface Plate Measurement Technology for Intelligent Manufacturing
·································································································· Yanjun MA, et al. (34)
2. Research on the CPS for the Implementation of Smart Shipyard ················· Jonghun WOO, et al. (35)
3. Research and Application Trend of Laser Technology in Ships and Marine Engineering
···································································································· Hua HAN, et al. (36)
4. TOFD/PAUT Nondestructive Testing Technology and Its Application on Thick Plate
···································································································· Ming HEI, et al. (37)
5. Development of Shipbuilding Management System: Integrated Production Planning and Simulation-Based Management ············································································· Jonghun WOO, et al. (38)
6. Research on Intelligent Production and Centralized Control System of Ship Coating Equipment
································································································· Haoran QIN, et al. (39)
S7. Session: New Concept Ship Design
1. Preliminary Feasibility Study of an Innovative Surface and Undersea Vehicle
································································································· Yipeng PAN, et al. (40)
2. The Challenge for Twin-Shaft Slant Design Applied to LNG Carrier ··············· Bin DUAN, et al. (41)
3. A New Concept Design of VLFS with Hydraulic Out-Shell of Floater ·············· Chengjun LI, et al. (42)
4. CEDI Sustainability-Ranking in Fishing Vessel Design Process ·················· F. A. Veenstra, et al. (43)
5. The Application of LNG READY in Design of ULCS ······························ Shaowei CHU, et al. (44)
6. Human Factor in Shipping ······································································ N.M.C NAIR (45)
S8. Session: Hydrodynamics & CFD
1. Hull Form Variation for Next-Generation Fishing Vessels ···························· Jinwon YU, et al. (46)
2. A Computational Study of High-Speed Planing Hull Performance by a RANS Based CFD Tool
···························································································· Chengjie WANG, et al. (47)
3. New Results in the Theory of Underwater and Wave Gliders ··················· Kirill Rozhdestvensky (48)
4. Numerical Study of a Pre-Duct on a Bulk Carrier ····································· Yunlong DU, et al. (49)
5. CFD Analysis of Rudder Bulb Performance in Ship Manoeuvring ··········· Keun-Woo SHIN, et al. (50)
6. Research on the Optimization of VLGC Shoulder Profile and Model Test Validation
······························································································ Yongxu JIANG, et al. (51)
7. Progress and Application of China Numerical Tank Technology ······················ Wenyang DUAN (52)
S9. Session: Arctic Technology
1. Problems of the Oil Spill Combating in the Arctic Seas ··························· Vadim K. Goncharov (53)
2. Hull Line Development of a High Ice Class Bulk Carrier ·························· Chenliang LU, et al. (54)
3. Study and Practice on Methods of “Polar Water Operation Manual” ······· Chenkang ZHONG, et al. (55)
4. Developing Status and Trend of Arctic Ships and Offshore Units ································ Yuan LI (56)
5. Hybrid Laser-Arc Welding High-Strength, Cold Resistance and Nanostructured Steels
································································································ Gleb A. Turichin, et al.(57)
6. Development of Arctic Technologies at Krylov State Research Centre ······· V.O. Borusevich, et al. (58)
7. Direct Laser Deposition of High-Strength Cold-Resistant Steel ············· Rudolf S. Korsmik, et.al. (59)
S10. Session: Fatigue
1. Fatigue Crack Propagation under Intermittent Superimposed Stress Histories
··························································································· Yoshifumi Takaki, et al. (60)
2. Application of Spectral Analysis for Fatigue Assessment of Ultra Large Container Ships ········ Min XU(61)
3. Numerical Simulation of Fatigue Surface Crack Propagation under Biaxial Tensile Loadings with Phase Differences ············································································ Mizuki Morishita, et al. (62)
4. Fatigue Strength Design Evaluation of the Main Bearing Block Weld Seam of Two-Stroke Low Speed Diesel Engine ················································································ Kui WANG, et al. (63)
5. Fatigue Life Prediction Method of Single Point Mooring (SPM)’s Mooring Hawser, Case Study: Tuban Fuel Terminal's SPM ··················································· Ferdi Raditya Effendy, et al. (64)
S11. Session: EEDI, Emission & Fuels
1. Analysis on the EEDI Requirements for large Bulk Carriers and Tankers ················· Lu LI, et al. (65)
2. Hull Roughness Effects on Lifetime Fuel Consumption and Voyages ·········· John C. Daidola, et al. (66)
3. The Feasibility Study of LNG as a Marine Fuel ·················································· Xihua FU (67)
4. Analysis of EEDI Rules and Solutions ······················································ Bin GAO, et al. (68)
5. Feasibility Study on the Use of LNG as a Fuel for a 20000TEU Ultra-Large Container Vessel
····························································································· Ainian ZHANG, et al. (69)
6. Research of Dual-Loop Control Method for HP Pump in HP LNG Gas Supply System for Dual Fuel Main Engine ··············································································· Huiyan TANG, et al. (70)
S12. Session: Big Data & Cyber Security
1. Intelligent and Environmental Ships Are Electric, Digital and Connected
·························································································· Alf K.re .dnanes, et al. (71)
2. Research on Distributed Data Network of Intelligent Ship ······························· Jinhui LU, et al.(72)
3. How to Improve Offshore Units Operations through Asset Integrity Management?
························································································· Arnaud GERTHOFFERT(73)
4. Design and Implementation of Ship Data Fusion Layer ···································· Lu CAI, et al. (74)
5. Cyber Security in Marine Industry ································································ Elisa Cassi (75)
6. Research on Shore Based Ship Data Monitoring Platform ······························ Jian GUO, et al. (76)
7. Applications of Distributed Ledger and Blockchain Technologies in Maritime
····························································································· Gary R. Pogson, et al. (77)
S13. Session: New Concept Ship Design & Specific System
1. New Concept of Anti-Sediment Designs for VLCC ·········································· Li LIN, et al. (78)
2. Innovation and Development of LNG Power Supply Vessel ·························· Bin DUAN, et al. (79)
3. A Rational Approach to Simulate Hull Girder Still Water Shear Force for Container Ships
································································································ Jiameng WU, et al. (80)
4. Analysis on the Dynamic Positioning Ability of a DP3 Deep-Water Drillship
···································································································· Jinhui HE, et al. (81)
5. MissionEase Boat Handling System for Multi-Role Ships and Expedition Vessels
······················································································ Rolf Andreas Wigand, et al. (82)
6. Preliminary Study on the Scientific Winch System Configuration of Multipurpose Research Vessels
······························································································ Qingzhi TANG, et al. (83)
S14. Session: Hydrodynamics & CFD
1. To the Problem of Dynamics of a Cavitation Bubble Near the Rounded Leading Edge of a Hydrofoil
···························································································· Kirill Rozhdestvensky (84)
2. Numerical Simulation of Unsteady Cavitation on the Propeller and Rudder behind the Hull
································································································ Wei ZHANG, et al. (85)
3. Numerical Study of Cavitation Shedding around NACA66 Hydrofoil Based on OpenFOAM
······································································································ Yong LI, et al. (86)
4. Prediction of Hydrodynamic Derivatives of Ship Manoeuvering by Virtual CMT
········································································································ Yi LIU, et al. (87)
5. Numerical and Experimental PMM Tests of ONR Hull ······················ Chenliang ZHANG, et al. (88)
6. Numerical Study on the Self-Propulsion Performance of KVLCC2 Model Ship in Regular Head Waves
··························································································· Hyun-Woo SHIN, et al. (89)
7. Numerical Tank Study on the Stern of a Ship in Shallow Water ························· Hongjian CAO (90)
S15. Session: Vibration & Noise
1. Study of Vibration Control Design Technology for Large-Scale Cutter Suction Dredgers
······························································································· Xuerong SUN, et al. (91)
2. Low Noise Design Technology and Development Trend of Marine Diesel Engine
····························································································· Zhigang WANG, et al. (92)
3. Modal Analysis and Optimization of the Lashing Bridge for 21000TEU Container Ship
··································································································· Bo YUAN, et al. (93)
4. Vibration Research and Optimization of Liquid Compressor for Ships ··········· Jiaping WAN, et al. (94)
5. Research on Non-Synchronization Vibration Beating Phenomenon of Large LNG Carrier with Two Propellers ················································································· Jiaying WANG, et al. (95)
6. Under Water Noise Control for Chinese Research Vessel “JIA GENG” ·················· Ningning QU (96)
S16. Session: Marine Engineering
1. Numerical Simulation and Optimization of Marine Engine Room Thermal Environment
··································································································· Jun YANG, et al.(97)
2. Modeling and Simulation of Single Phase Grounding Fault in MV Ship Grid
······························································································ Wei ZHUANG, et al. (98)
3. Analysis of Damping Type Tail Bearing Based on the Finite Element ··············· Liang LIU, et al. (99)
4. Research on the Dynamic Positioning Capability of a Semi-Submersible Engineering Vessel
······························································································· Yuefeng WEI, et al.(100)
5. Flow Field and Resistance Characteristics Analysis of Special Eccentric Butterfly Valve Based on CFX
································································································ Yunhui YOU, et al.(101)
6. Analysis and Outlooks of Marine Thermal Oil Heating System ····························· Yuling WU(102)
S17. Session: Advanced Ship Technology
1. Object Detection Algorithm for Unmanned Surface Vehicle Using Faster R-CNN
·································································································· Heesu Kim, et al.(103)
2. Simulation Research of Rainfall Air Conditioning System in Wheelhouse onboard Ship
······································································································· Xuanyu CHANG(104)
3. Development Fuzzy Inference Track Keeping Algorithm Using Realistic Operational Scenarios
··································································································· Bora Choe, et al.(105)
4. A Procedure to Design Ship Anchor System Based on 3D Printing ··············· Ding ZHANG, et al.(106)
5. Man Overboard Detection System Using RFID ··································· Prabhjit Virmani, et al.(107)
6. Theoretical and Experimental Study on the Motion of Air Cushion Vehicle after Sideslip with High Speed
··································································································· Zongke ZHANG(108)
S18. Session: Ship Design Methods
1. Parametric 3-D Modeling and Unwrapping of Skirt of Air Cushion Vehicle by Application Development in CATIA ··············································································· Zongke ZHANG, et al.(109)
2. Shape Optimization of Ships’ Local Structure with the Partition and Generalization Kriging Approximation Model ··················································································· Ganfeng ZHANG, et al.(110)
3. CAD Rule-Based Design as a Methodology to Help Ship Designers ············· Guangwu LIU, et al.(111)
4. A Solution of 3D Design Delivery for Piping Spool Fabrication Based on CATIA Composer Application
·········································································································· Ji LI, et al.(112)
5. A Research on Optimization of Exhaust System of Marine Diesel Engine Based on FLOWMASTER
····································································································· Xiaodong WEI(113)
S19. Session: Hydrodynamics & CFD
1. Simulations of Moored Wave Energy Converters Using OpenFOAM: Implementation and Applications
····························································································· Claes Eskilsson, et al.(114)
2. Numerical Study on the Interaction between the Internal and Surface Waves by a Sphere Moving in a Two-Layer Stratified Fluid ························································ Kwan-Woo KIM, et al.(115)
3. An Experimental Study on Large Amplitude Rolling of a Vessel in Regular and Group Head Waves
···································································································· Zhen LIU, et al.(116)
4. Physical Mechanisms and Characteristics of a Stern Slamming Using Particle Based Method
····························································································· Taiga Kanehira, et al.(117)
5. A Time-Domain Green-Function Method for Ship Hydroelastic Problem with Forward Speed
·························································································· Takuya Taniguchi, et al.(118)
6. Numerical Study of the Green Water Slamming Force on the Elastic Structure Based on MPS-FEM Coupled Method ·········································································· Yanzhang XU, et al.(119)
S20. Session: Underwater/Deep Sea/Subsea Technology
1. An Improved Spectral Fatigue Analysis Approach Applied for the Jacket Platform Design in East China Sea
·········································································································· Qin FENG(120)
2. A Study on Acoustic Radiation Efficiency of Simply Supported One Side-Wetted Rectangular Plate Based on Mindlin Plate Theory ··································································· Jongho LEE, et al.(121)
3. Design and Development of Track-Keeping Device for Underwater Production Equipment of Semi-Submersible Platform ····························································· Ruijia ZHOU, et al.(122)
4. Key Technologies of Manned Cabin Used in Deep-Sea Manned Submersibles
································································································ Fang WANG, et al.(123)
5. A Comparative Study on Application of Deep-Sea Mooring Line (Polyester-Steel Wire Rope) for Offshore Plant ······································································· Chun-Sik Shim, et al.(124)
6. Development of a Numerical Model for Analysis of Unbounded Flexible Riser under Torsion and Tensile
······································································································· Yadong ZUO(125)
S21. Session: Green Technology
1. Design of HVSC System and Its Application on Container Vessel CSCL Uranus ···· Ning LU, et al.(126)
2. Seawater for Propeller Shaft Lubrication in Merchant Ships - Environmental, Operational, Legal and Shipbuilding Considerations ·································································· Craig D. Carter(127)
3. A Research on Diesel Generator Variable Speed Control Strategy of Marine DC Grids
······························································································ Zhaoyu YANG, et al.(128)
4. Fuel and Emission Reduction in Shipping Industry Based on Low Carbon Economy by the Use of Flexible Solar Panels and Rotor Sails ···························································· Avishek Ankit, et al.(129)
5. Design and Optimization of a Cold Energy Recover System for LNG-Fuelled Ship ····· Tao WANG(130)
6. A Method for Wave Energy Converter System Performance Assessment ·········· Jóannes Gullaksen(131)
S22. Session: Intelligent & Autonomous Ship
1. Cybersecurity Challenges for Intelligent Shipping: Where is the Maritime Industry Headed?
································································································· Michael D. Taylor(132)
2. A Research on Intelligent Ship Video Awareness System ··························· Hang ZHOU, et al.(133)
3. A Research on Development and Demonstration Project of Intelligent Ship in China
··································································································· Bing HAN, et al.(134)
4. A Millennia Step Forward: The Smart Marine Ecosystem ······························ John Hatley PE(135)
5. Intelligent Management System for Ship Operation and Maintenance ··········· Songyan MAI, et al.(136)
6. Functional and Design Requirements for Autonomous Ship Situation Awareness ··············· Ci HE(137)
S23. Session: Hydrodynamics & CFD
1. Development of Blade-Rotating Body Force Propeller Model in RANS Code for Open Water and Behind-Hull Condition ····························································· Hikaru Hasegawa, et al.(138)
2. Numerical Prediction of Hydrodynamic Performance of Contra-Rotating Rudder Propeller Based on IDDES
···························································································· Zhiyong WANG, et al.(139)
3. A Head Correction Method in Model Experiment of Water-Jet Propulsion Axial-Flow Pump with Front Guide Vane ····················································································· Guorui JI, et al.(140)
4. Towing Tank Model Tests on Water-Jet Propulsive Performance ·············· Hoeseong Jeong, et al.(141)
5. Study on the Hydrodynamic Force Acting on Hull and Rudder of A Drifting and Turning Ship in Shallow Water ················································································· Tien Thua Nguyen, et al.(142)
6. Estimation of Absorption Performance of Perforated Panel in Flow Environment
·························································································· Seung-Jin JEONG, et al.(143)
S24. Session: Collision & Grounding
1. The Large Deflection Dynamic Plastic Response Analysis of Stiffened Square Plates Subjected to Blast Load ··················································································· Xiao SONG, et al.(144)
2. Experimental and Numerical Analysis of a Laterally Impacted Square Steel Plate ··· Kun LIU, et al.(145)
3. Optimized Design of Crashworthiness of FPSO Side Structure Based on Improved BP-GA Algorithm
····························································································· Mingxing GAO, et al.(146)
4. A New Method in Evaluating the Rupture of Materials in Ship Collision and Grounding Simulations
······························································································ Zeping WANG, et al.(147)
5. Study on Dynamic Response of Ship Structures during Ship-Ice Collision ····· Tongqiang YU, et al.(148)
S25. Session: Risk, Safety & Reliability
1. Analysis of Fuel Gas Pipe Leakage of Dual-Fuel Low Speed Engine in Large LNG Carrier Engine Room
····································································································· Tao LIU, et al.(149)
2. Structural Design for Higher Design Vapor Pressure of SPB. Tank for LNG Bunkering Vessel
·························································································· Takahiko Ohmori, et al.(150)
3. Dynamic Response of Corrugated-Core Sandwich Plates Subject to Impact Patch Load
······························································································· Yamin TANG, et al.(151)
4. A Research on Moments Caused by Longitudinal Forces in CSR ······················ Tao HAN, et al.(152)
5. Analysis of the Correlation between Accidents and Anti-Sink Property of Passenger (or Ro-Ro) Ship
······································································································ Ping LU, et al.(153)
6. Research of Safety Technology Standard for Regional Tourism Ships ············· Bichun XIE, et al.(154)
S26. Session: Green Technology/Coating & Corrosion
1. Application of AMP System on a 400000t Ore Carrier ··························· Kechen YUAN, et al.(155)
2. Development and Application of Marine Diesel-Electric Propulsion System in China and Design of the First Domestic Hybrid Tugboat Propulsion System ······································ Kun TAN, et al.(156)
3. Structural Design of Advanced Spar Type Structure in Fukushima FORWARD
······························································································ Ryo Matsuoka, et al.(157)
4. Dynamic Response Analysis of a Floating Offshore Wind Turbine ·············· Taiki Horiuchi, et al.(158)
5. In-Service Performance Estimation of Low Frictional AF Coating ·················· Inwon LEE, et al.(159)
6. Paint Systems of Increased Reliability ··················································· V. I. Trusov, et al.(160)
S27. Session: Monitoring & Measurement
1. Health Prediction of Lithium-Ion Batteries Using Novel Indicator and Optimized Gaussian Process Regression ······················································································· Jian LIU, et al.(161)
2. Thermal Strain Based Accurate Prediction of Thermal Deformation Generated by Flame Bending and Line Heating ············································································ Jang-Hyun LEE, et al.(162)
3. A Research on Configuration Management for Application Software of Monitoring and Control System
················································································································ Yu XI(163)
4. Compensation and Digital Simulation for Measurement of Wind Speed and Direction with Ships Motion
······························································································· Wanqiang TU, et al.(164)
5. Onboard Measurement and Analysis for Powering Performance of Ship in Operation
·········································································································· Ho KIM, et al.(165)
6. Research on the Extended Application of CCTV in Ship Design ···················· Xin YANG, et al.(166)
Exhibiting Companies ·································································································(E-1)