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王超

Wang Chao

Department： Shipbuilding Eng.

Discipline： Ship and Ocean Eng.

Duty： Associate Dean

Prof. Title： Professor

Tutor： PhD&Master Tutor

Tel： 18745125245

Fax： 0451-82568486

E-Mail： wangchao0104@hrbeu.edu.cn

Postcode： 150001

Add：船海楼201

Profile

Wang Chao, male, born in 1981, native of Dangshan County, Anhui Province. Holds a Ph.D. degree and is a professor and doctoral supervisor. Is affiliated with College of Shipbuilding Engineering at Harbin Engineering University, where he leads the team for cross-scale testing and analysis of naval vessel overall performance. In July 2010, Wang Chao obtained his doctoral degree in the field of "Ship and Offshore Structure Design and Manufacturing," under the guidance of Professor Huang Sheng. Joined Harbin Engineering University as a faculty member in September 2010. In February 2014, Wang Chao completed his postdoctoral research at the Naval Engineering University in Ship and Ocean Engineering. From October 2015 to January 2016, engaged in engineering practice at the National Key Laboratory of Vibration, Shock, and Noise (702 Institute) for a period of three months.
Main research interests include ship propulsion performance and energy-saving technology, prediction and analysis of ship navigation performance in ice-covered waters, wing profile and propeller design and optimization, theoretical prediction of hydrodynamic performance, pulsating pressure characteristics, cavitation performance, and noise performance of propellers. He also conducts accurate prediction of the flow field around ship hulls in viscous flow, numerical simulation of ship-propeller interactions, and analysis of scale effects on relevant performance. Furthermore, his research covers theoretical prediction and analysis of ship resistance, propulsion, and maneuvering performance in ice-covered waters.
Has led three projects funded by the Natural Science Foundation, one key basic research project, and has been in charge of three projects for technical enhancement. Additionally, he has led one project for fundamental technological innovation products, one project funded by a specific field fund, four sub-contracted projects from the Ministry of Industry and Information Technology's high-tech ship research project, and more than ten other horizontal projects. He has authored and co-authored four professional books, holds over 50 authorized patents and software copyrights, and has published more than 100 academic journal papers, including over 70 indexed in SCI/EI. He has been honored with a first prize for Marine Engineering Science and Technology Invention, a second prize for Technological Progress from the China Association of Shipbuilding Industry, and a third prize for provincial and national defense technological inventions.
Serves as an editorial board member for Ship Engineering and Chinese Ship Research journals, a member of the China Society of Naval Architects and Marine Engineers, a peer-review expert for the National Natural Science Foundation, a review expert for the Ministry of Education's Degree Center, and the deputy leader of the Fast Ship and Propulsion Group of the Ship Mechanics Committee.

Education

2001.09-2005.07: Bachelor's degree in Naval Architecture and Ocean Engineering from Harbin Engineering University.
2005.09-2008.03: Master's degree in Ship and Offshore Structure Design and Manufacturing from Harbin Engineering University. (Advisor: Professor Huang Sheng)
2007.09-2010.07: Doctoral degree in Ship and Offshore Structure Design and Manufacturing from Harbin Engineering University. (Advisor: Professor Huang Sheng)
2012.02-2014.03: Postdoctoral research in Ship and Ocean Engineering from Naval Engineering University. (Collaborating Advisor: Professor Xiong Ying)

Experience

2022.07 - Present: Professor, Doctoral and Master's Supervisor, School of Naval Architecture and Ship Engineering, Harbin Engineering University.
2018.06 - 2022.06: Associate Professor, Doctoral and Master's Supervisor, School of Naval Architecture and Ship Engineering, Harbin Engineering University.
2015.09 - 2018.05: Associate Professor, Master's Supervisor, School of Naval Architecture and Ship Engineering, Harbin Engineering University.
2010.09 - 2015.08: Lecturer, School of Naval Architecture and Ship Engineering, Harbin Engineering University.
2015.10 - 2016.01: Engineering Practice, National Key Laboratory of Vibration, Shock, and Noise, No. 702 Research Institute of China Shipbuilding Industry Corporation.

Research Fields

Ship Propulsion and Energy-saving Technology
Ship Propulsion Technology in Ice-covered Areas
Prediction and Control of Propeller-induced Excitation Forces and Radiated Noise

Projects

(25) Research on Nonlinear Dynamic Coupling Mechanism between Ice Body and Propeller, National Natural Science Foundation Project, January 2022 - December 2025.
(24) Research on Strongly Nonlinear Dynamic Load Prediction Method of Ice-Water-Propeller Multi-Medium Coupling, Special Project for Technical Enhancement, January 2021 - December 2024.
(23) Simulation Calculation of Propeller Strength, Horizontal Scientific Research Project, September 2020 - June 2021.
(22) Simulation Calculation of Propeller Hydrodynamic Performance, Horizontal Scientific Research Project, September 2020 - June 2021.
(21) Study on Simulation and Optimization Analysis of Whole Ship Aerodynamics, Horizontal Scientific Research Project, December 2019 - December 2020.
(20) Simulation Calculation of Propeller Strength, Horizontal Scientific Research Project, October 2019 - December 2019.
(19) Simulation Calculation of Propeller Cavitation, Pulsating Pressure, and Noise, Horizontal Scientific Research Project, October 2019 - December 2019.
(18) Test Technology for Separation Vortices and Excitation Characteristics of Maneuvering Hull Model, Basic Product Innovation Project, January 2019 - December 2020.
(17) Development of High-Ice-Class Polar Ship's High-Power Podded Propulsion Device, High-Tech Ship Research Project, January 2019 - December 2021.
(16) Research on Prediction Method of Hydrodynamic Performance of Straight-Wing Propulsor, Domain Fund Project, January 2019 - December 2020.
(15) Research on Fast Prediction of Waterjet Propulsion Platform, General Key Laboratory Fund Project, January 2019 - December 2020.
(14) Study on Dynamic Response Mechanism of Ship Propeller-Ice Contact, Heilongjiang Provincial Science Fund Project, July 2018 - July 2021.
(13) Numerical Simulation of Load and Radiated Noise of Ducted Propeller under Ice-Water Interaction, Horizontal Scientific Research Project, June 2018 - October 2019.
(12) Analysis of Ice Maneuvering Performance and Ice Load, Special Project for Technical Enhancement, January 2018 - December 2022.
(11) Research on Polar Ship's Navigation Performance and Structural Safety Prediction, Ministry of Industry and Information Technology High-Tech Ship Research Project, January 2018 - December 2020.
(10) Research on Hydrodynamic Performance and Evaluation of Multi-Alternative Supply Ship Hull Forms, Horizontal Scientific Research Project, April 2017 - November 2018.
(9) Theoretical and Experimental Study on Propeller Load Prediction under Propeller-Ice Flow Interaction, National Natural Science Foundation Project, January 2017 - December 2020.
(8) Study on Propeller Hydrodynamic Performance under Propeller-Ice Flow Interaction Conditions, Key Basic Research Program, January 2017 - December 2019.
(7) Research on Hull Form Performance of Frontline Supply Base Platform Ship, Horizontal Scientific Research Project, January 2017 - December 2017.
(6) Research on Hydrodynamic Performance Simulation and Noise Reduction Technology, Horizontal Scientific Research Project, April 2016 - March 2017.
(5) Hydrodynamic Layout of Ship Stern and Low-Noise Propeller Adapted Flow Design Technology, Preliminary Research Project, January 2016 - December 2020.
(4) Adaptive Flow Design for Inland Ship Propellers, Postdoctoral Researcher Settlement Support Project in Heilongjiang, January 2016 - December 2017.
(3) Numerical Prediction and Analysis of Propeller Noise, Outsourced Project, April 2015 - October 2015.
(2) Effective Flow Field Solution Method Based on Coupling of Viscous and Potential Flows, National Natural Science Foundation Young Scientist Project, January 2014 - December 2016.
(1) Rapid Prediction Method for Performance and Maneuverability of Ships in Polar and Surrounding Regions, Ministry of Industry and Information Technology High-Tech Ship Research Project, January 2014 - December 2016.

Academic Communication

(1) 2019 Polar Ships and Ocean Engineering Academic Seminar
On December 21, 2019, the 2019 Polar Ships and Ocean Engineering Academic Seminar, jointly organized by Harbin Engineering University, Dalian University of Technology, Dalian Maritime University, and Dalian Build Smart Technology Co., Ltd., was officially held at the International Exchange Center of Dalian University of Technology.

(2) Academic Exchange Meeting between Harbin Engineering University Ship Overall Performance Cross-Scale Testing and Analysis Team and Zhejiang University Special Fluid Machinery Team
The academic exchange meeting between Harbin Engineering University's Ship Overall Performance Cross-Scale Testing and Analysis Team and Zhejiang University's Special Fluid Machinery Team was successfully held on December 14, 2019, in Room 1501 of the Shipbuilding and Ocean Engineering Building at Harbin Engineering University.

(3) 2nd "Talking about the Sea and Discussing Ice" Academic Exchange Seminar
In June 2021, the team, in collaboration with Dalian University of Technology, Dalian Maritime University, Harbin Institute of Technology, National Marine Environmental Forecasting Center, Dalian Build Smart Technology Co., Ltd., and other units, successfully held the 2nd "Talking about the Sea and Discussing Ice" Academic Exchange Seminar in Harbin. The seminar reached a consensus of "strengthening cooperation, sharing resources, and regular communication" among experts and scholars from various teams.

(4) Underwater Propulsion Technology Workshop
In July 2021, the team, in collaboration with Zhejiang University, China Ship Scientific Research Center, Northwestern Polytechnical University, Naval Engineering University, Shanghai Institute of Ship and Ocean Technology, Shandong Academy of Sciences Institute of Marine Instruments and Apparatus, and Qingdao Submarine Institute, successfully organized the 2021 Underwater Propulsion Technology Academic Workshop in Qingdao. The workshop aimed to promote the development of underwater propulsion technology, consolidate technical innovation methods, improve the theoretical framework, experimental testing techniques, comprehensive design, and evaluation capabilities in this field.

Admissions

Doctoral Students: Naval Architecture and Ocean Structure Design and Manufacturing Up to 1 student per year
Master's Students: Naval Architecture and Ocean Structure Design and Manufacturing or Mechanics Up to 5 students per year

Course For Undergraduate

Core Course:
"Ship Maneuverability"

Course For Postgraduate

Elective Courses:
"Theory and Applications of Ship Propellers"
"Advanced Experimental Testing Techniques and Theory"
"Special Topics in Naval Architecture and Ocean Engineering"

Practical Teaching

Teaching Research

[1] Wang Chao, Chang Xin, Huang Sheng. Application of Modern Educational Theories and Methods in Elective Courses. Harbin Engineering University Teaching Reform Project, Project Leader, May 2014 - December 2015.
[2] Guo Chunyu, Zhao Dagang, Wang Chao. Exploration and Development of Integrating Distinctive Research Achievements into Experimental Teaching. Harbin Engineering University Teaching Reform Project, Participant, Third Author, June 2014 - December 2015.
[3] Wang Chunhui, Wang Chao, Hu Jian, Su Yumin, Zhao Dagang. Exploration and Application of Multidimensional Teaching Model for "Ship Maneuverability" Course. Provincial General Education Reform Project, January 1, 2022 - December 31, 2022.
[4] Guo Chunyu, Wang Chao, Zhao Dagang, Han Yang, Wang Chonglei. Construction and Practice of Advanced Experimental Testing Techniques and Theory Course. Provincial General Education Reform Project, January 1, 2022 - December 31, 2022.

Social Position

Editorial Board Member of "China Shipbuilding Research"
Reviewer for journals including "POF," "OE," "JMST," "APOR," "IJNAOE," "Acta Mechanica Sinica," "China Shipbuilding," "Journal of Harbin Engineering University," "China Shipbuilding Research," "Propulsion Technology," and others.
Member of China Association of Shipbuilding Engineering
Peer Review Expert for National Natural Science Foundation of China
Expert Reviewer for Ministry of Education's Degree Center
Deputy Leader of Ship Maneuverability and Propulsion Subcommittee, Ship Dynamics Committee
Member of Sea Ice Committee, China Oceanic Society
Deputy Director of Key Laboratory of Underwater Propulsion Technology, Ministry of Industry and Information Technology
Deputy Director of National Key Laboratory of Hydrodynamics
Deputy Director of Key Laboratory of Multi-Body Ship Technology, National Defense Discipline

Patent

[1] Wang Chao, Yang Bo, Sun Cong, Xu Pei, Guo Chunyu, Wang Chunhui, Zhao Dagang, Liu Zheng. A Propeller Dynamometer and an Air Test Platform for Propeller Ice Cutting Conditions. Patent Number: ZL201911079278.1, Authorized on June 1, 2021.
[2] Guo Chunyu, Wang Chao, Zhao Dagang, Wang Chunhui, Zhang Chengsen, Xu Pei, Luo Wanzhen, Tian Taiping, Zhu Guangquan. A Styrofoam Ball - Paraffin-Based Non-Freezing Model Ice Synthesizer. Patent Number: ZL201810763587.X, Authorized on September 25, 2020.
[3] Guo Chunyu, Xu Pei, Wang Chao, Wang Chunhui, Ye Liyu, Luo Wanzhen, Zhang Chengsen. A PIV Device Calibration Apparatus. Patent Number: ZL201810630490.1, Authorized on September 25, 2020.
[4] Guo Chunyu, Xu Pei, Wang Chao, Chang Xin, Hu Jian, Zhao Dagang, Wang Chunhui, Ye Liyu, Luo Wanzhen. An Experimental Platform Providing Low-Temperature Environment. Patent Number: ZL201810589978.4, Authorized on September 25, 2020.
[5] Guo Chunyu, Xu Pei, Wang Chao, Wang Chunhui, Ye Liyu, Luo Wanzhen, Zhang Chengsen, Zhu Guangyuan. An Apparatus for Simulating Pool Wall and Bottom in a Towing Tank. Patent Number: ZL201811310165.3, Authorized on July 28, 2020.
[6] Guo Chunyu, Xu Pei, Wang Chao, Wang Chunhui, Ye Liyu, Luo Wanzhen, Zhang Chengsen, Zhu Guangyuan. An Apparatus for Restoring Ice Path Integrity in an Ice Water Tank. Patent Number: ZL201811310200.1, Authorized on April 7, 2020.
[7] Wang Chao, Li Xing, Xiong Weipeng, Ye Liyu, Chang Xin, Hu Jiao, Guo Chunyu, Hu Jian, Sun Shuai, Li Peng. A Novel Icebreaking Submarine and its Icebreaking Method. Patent Number: ZL 201710971948.5, Authorized on July 16, 2019.
[8] Wang Chao, Ye Liyu, Chang Xin, Sun Shuai, Liang Ning, Yang Lin, Zhi Yuchang, Xia Kun, Sun Shengxia, Wang Xidong. Bidirectional Thrust Duct Propeller. Patent Number: ZL201610437222.9, Authorized on May 21, 2019.
[9] Wang Chao, Zheng Xiaolong, Chang Xin, Guo Chunyu, Huang Sheng, Yu Kai. A Combination Energy-Saving Shaft Bracket Device. Patent Number: ZL201410117103.6, Authorized on January 19, 2018.
[10] Impeller Waterjet Propeller. Hu An Kang, Hou Li Xun, Wang Chao, Han Feng Lei, Wang Chun Hui, Yang Fang Qing. Patent Number: ZL201410234157.0, Authorized on January 11, 2017.
[11] Ship Composite Impeller Waterjet Propeller. Hu An Kang, Hou Li Xun, Wang Chao, Yang Fang Qing. Patent Number: ZL201410234268.1, Authorized on January 4, 2017.
[12] Ship Drum Impeller Propeller. Hu An Kang, Hou Li Xun, Wang Chao, Huang Sheng, Hu Jian, Chang Xin, Yu Kai, Han Feng Lei, Wang Chun Hui. Patent Number: ZL201410234185.2, Authorized on December 7, 2016.
[13] Track-Controlled Vertical Shaft Wheel Machine. Xu Guodong, Xu Wenhua, Duan Wenyang, Wang Chao, Yang Heng. Patent Number: ZL201410136099.8, Authorized on May 4, 2016.
[14] Ship Side Fin Propeller. Hu An Kang, Hou Li Xun, Wang Chao, Han Feng Lei, Wang Chun Hui, Yang Fang Qing. Patent Number: ZL201410234258.8, Authorized on May 4, 2016.
[15] Ship Rotary Wing Propeller. Hu An Kang, Hou Li Xun, Wang Chao. Patent Number: ZL201410314436.8, Authorized on May 4, 2016.
[16] Biomimetic Coupled Ship Rudder. Wang Chao, Gong Pu, Guo Chunyu, Chang Xin, Yu Kai, Cheng Xiangru, Hua Jia, Huang Sheng. Patent Number: ZL201210181591.8, Authorized on April 6, 2015.
[17] Flanged Spiral Propeller. Chang Xin, Cheng Xiangru, Guo Chunyu, Wang Chao, Yu Kai, Meng Xiangyin, Huang Sheng. Patent Number: ZL201210149467.3, Authorized on June 17, 2015.
[18] Ship Rudder with Guide Edge Projections. Chang Xin, Cheng Xiangru, Wang Chao, Guo Chunyu, Yu Kai, Meng Xiangyin, Huang Sheng. Patent Number: ZL201110084959.4, Authorized on June 5, 2013.
[19] Controllable Resistance Ship Rudder. Wang Chao, Chang Xin, Yu Kai, Guo Chunyu, Huang Sheng, Qi Xiangyang, Zhang Haipeng, Ma Weijia. Patent Number: ZL201010587352.3, Authorized on January 16, 2013.
[20] Software for Numerical Simulation of Steady Water Dynamic Performance of Propeller-Fan Duct. Wang Chao, Ye Liyu, Chang Xin, Li Xing, Xiong Weipeng, Sun Shuai. Registration Number: 2018SR309288, March 1, 2018.
[21] Software for Numerical Simulation of Steady Water Dynamic Performance of Adjustable Pitch Propellers. Wang Chao, Li Xing, Ye Liyu, Sun Shuai, Chang Xin, Xiong Weipeng, Li Peng, Yuan Yuming. Registration Number: 2017SR594500, May 4, 2017.
[22] Software for Strength Prediction of Propellers Based on Cantilever Beam Method. Wang Chao, Li Xing, Ye Liyu, Sun Shuai, Chang Xin, Xiong Weipeng, Li Peng, Yuan Yuming. Registration Number: 2017SR593188, May 4, 2017.
[23] Software for Numerical Simulation of Efficient Hybrid Counter-Rotating Propeller System Hydrodynamic Performance. Wang Chao, Ye Liyu, Chang Xin, Li Xing, Xiong Weipeng, Sun Shuai. Registration Number: 2018SR313846, February 25, 2018.
[24] Software for Numerical Simulation of Steady Water Dynamic Performance of Propellers under Ice Disturbance. Wang Chao, Xu Pei, Guo Chunyu, Ye Liyu, Luo Wanzhen, Tian Taiping, Zhang Chengsen, Zhu Guangyuan. Registration Number: 2018SR868094, October 1, 2018.
[25] Numerical Prediction Software for Ice-Propeller Contact under Improved Constitutive Model. Wang Chao, Xiong Weipeng, Ye Liyu, Sun Shuai, Chang Xin, Li Xing, Li Peng, Yuan Yuming. Registration Number: 2018SR873908, November 3, 2018.
[26] Software for Strength Calculation of Ice Propellers under Ice Load Conditions. Wang Chao, Han Kang, Ye Liyu, Sun Shuai, Li Xing, Weng Kaiqiang, Hu Xiaohan. Registration Number: 2018SR868651, July 1, 2018.
[27] Ice Propeller Milling Prediction Software. Wang Chao, Xiong Weipeng, Ye Liyu, Sun Shuai, Chang Xin, Li Xing, Li Peng, Yuan Yuming. Registration Number: 2018SR871511, October 3, 2018.
[28] BEM-FEM Coupled Propeller Static Strength Calculation Software. Wang Chao, Li Peng, Li Xing, Ye Liyu, Han Kang, Chang Xin, Xiong Weipeng, Sun Shouchao. Registration Number: 2018SR868075, July 9, 2018.
[29] Aircraft Carrier Overall Scheme Decision-Making Software. Wang Chao, Wang Yu, Chang Xin, Guo Chunyu, Hu Jian, Yu Kai, Huang Sheng. Registration Number: 2016SR034355.
[30] Accurate Solution Software for Ship Stern Effective Flow Field. Wang Chao, Hou Lixun, Ye Liyu, Chang Xin, Guo Chunyu. Registration Number: 2015SR051054, March 23, 2015.
[31] Conventional Propeller Effective Adapting Flow Design Software. Wang Chao, Ye Liyu, Hou Lixun, Chang Xin, Guo Chunyu. Registration Number: 2015SR051792, March 24, 2015.
[32] Conventional Propeller Multi-Parameter Multi-Objective Optimization Design Software. Wang Chao, Ye Liyu, Chang Xin, Huang Sheng. Registration Number: 2015SR050431, March 23, 2015.
[33] Large Side-Inclined Propeller Inclination Distribution Optimization Design Software. Wang Chao, Ye Liyu, Chang Xin, Guo Chunyu. Registration Number: 2015SR015033, October 15, 2014.

Book

[1] "Application of Near-Field Dynamics Method in Research of Ice-Propeller Coupling Characteristics." Published by Harbin Engineering University Press, May 2019.
[2] "Potential Flow Calculation Method for Ship Propellers." Published by Harbin Engineering University Press, October 2015.
[3] "Ship Special Propulsors and Additional Rectifying Devices." Published by Harbin Engineering University Press, May 2013.
[4] "Theoretical and Methodological Prediction of Propeller-Rudder Interaction Performance." Published by Harbin Engineering University Press, May 2011.
[5] "FLUENT Ship Fluid Dynamics Simulation Engineering Application Basics." Published by Harbin Engineering University Press, February 2011

Article

[1] WeiPeng. Xiong , Chao Wang*, Li Yu Ye , Pei Xu, ChunHui Wang. Analysis of the mechanism for the airfoil structure-ice interaction problem[J] Applied ocean research，accepted
[2] Chao Wang *, Peng Li , Chunyu Guo , Lianzhou Wang , Shuai Sun。Numerical research on the instabilities of CLT propeller wake[J]. Ocean Engineering, Volume 243, 1 January 2022, 110305
[3] Chao Wang *, Peng Li , Yang Han , Lei Hao. The study on the wake of a CLT propeller under different advance coefficients[J]. Applied Ocean Research, Volume 118, January 2022, 102996
[4] Pei Xu, Chao Wang*, et al. Influence of Fluid and Cavitation on Propeller Load During Ice-Propeller Milling[J].Applied Sciences-Basel, 2021, 11(24), 11578.(SCI: )
[5] Kewei Song, Chunyu Guo*, Cong Sun, Chao Wang*, Jie Gong, Ping Li &Lianzhou Wang (2021) Simulation strategy of the full-scale ship resistance and propulsion performance, Engineering Applications of Computational Fluid Mechanics, 15:1,1321-1342,（SCI: 000697345600001）
[6] Wang, LZ*,Guo, CY ,Wang, C ,Xu, P . Modified phase average algorithm for the wake of a propeller[J]. PHYSICS OF FLUIDS,2021,33(3): 035146 (SCI: 000632776700002 )
[7] Xu Pei, Wang Chao*, et al. Cavitation and Induced Excitation Force of Ice-Class Propeller Blocked by Ice[J]. Journal of Marine Science and Engineering, 2021,9（6）,674. （SCI: 000666292800001）
[8] Zhang, XY ,Sun, LP,Sun, C*,Wang, C,Chen, C. Study on the influence of the moonpool on the smooth water resistance performance of the ship[J]. OCEAN ENGINEERING,2021,237, 109590. (SCI: 000696784500003)
[9] Hu, J,Weng, KQ ,Wang, C*,Gu, L,Guo, CY. Prediction of hydrodynamic performance of pump jet propulsor considering the effect of gap flow model[J]. Ocean Engineering,2021,233, 109162 (SCI: 000661134200039)
[10] Hu, J ,Zhang, WP ,Wang, C ,Sun, SL ,Guo, CY*. Impact of skew on propeller tip vortex cavitation[J]. OCEAN ENGINEERING,2021,220, 108479. (SCI: 000607850200061)
[11] Sun, S,Hu, ZQ,Wang, C*,Guo, ZQ,Li, X*. Numerical prediction of scale effect on propeller bearing force of a fourscrew ship[J]. OCEAN ENGINEERING,2021,229, 108974. (SCI: 000648525500033)
[12] ZHANG Y, TAO L, WANG C*, et al. Numerical study of icebreaking process with two different bow shapes based on developed particle method in parallel scheme [J]. Applied Ocean Research, 2021, 114102777. （SCI：000684978000001）
[13] YUAN Z, LONGBIN T, CHAO W*, et al. Numerical study on dynamic icebreaking process of an icebreaker by ordinary state-based peridynamics and continuous contact detection algorithm [J]. Ocean Eng, 2021, 233109148. （（SCI：000661134200033）
[14] Guo C Y, Han K, Wang C*, et al. Evaluation and analysis of the static strength of ice-class propellers[J]. Ocean Engineering, 2021, 235: 109336. （SCI：000685201300001）
[15] Chunyu Guo, Chengsen Zhang, Feng Feng, Chunhui Wang & Chao Wang(2021): Predicting ship ramming performance in thick level ice via experiments, Ships and Offshore Structures, DOI: 10.1080/17445302.2021.1979917. （SCI：000702986900001）
[16] Su, YM，Lin, JF，Zhao, DG*，Guo, CY，Wang, C，Guo, H. Real-Time Prediction of Large-Scale Ship Model Vertical Acceleration Based on Recurrent Neural Network[J]. JOURNAL OF MARINE SCIENCE AND ENGINEERING,2020,8(10):777.(SCI：000585206400001 )
[17] Li Jianing, Zhao Da-gang*, Wang Chao, Sun Shuai. Method for the Calculation of the Underwater Effective Wake Field for Propeller Optimization[J].water，165（2019）：1-11(SCI： 000459735100163 )
[18] Guo, CY; Zhong, XH; Zhao, DG *; Wang, C; Lin, JF; Song, KW. Propulsion performance of large-scale ship model in real sea environment[J]. Ocean Engineering, 2020(210) (SCI：000551161000016)
[19] Gong, Jie; Guo, Chun-yu*; Wang, Chao; Wu, Tie-cheng; Song, Ke-wei Song. Analysis of waterjet-hull interaction and its impact on the propulsion performance of a four-waterjet-propelled ship[J]. Ocean Engineering，2019（180）：211-222(SCI：000468252500018)
[20] Song, KW; Guo, CY*; Wang, C*; Gong, J; Li, P. Investigation of the influence of an interceptor on the inlet velocity distribution of a waterjet-propelled ship using SPIV technology and RANS simulation[J]. SHIPS AND OFFSHORE STRUCTURES.2020,15(2):138-152. (SCI：000463543300001)
[21] Ke-wei Song; Chunyu Guo*; Chao Wang*; Cong Sun; Ping Li; Wei Wang. Numerical analysis of the effects of stern flaps on ship resistance and propulsion performance [J]. Ocean Engineering ,2019-12，193, DOI:10.1016/j.oceaneng.2019.106621 (SCI：000501643400019 )
[22] GUO Chun-yu, XU Pei, WANG Chao*, WANG Lian-zhou, ZHANG Cheng-sen. Influence of Ice Size Parameter Variation on Hydrodynamic Performance of Podded Propulsor [J]. China Ocean Engineering, 2020,34(1):30-45. (SCI：000513353800004 )
[23] Guo, C. Y., Xu, P., Wang, C*., Kan, Z. Numerical and Experimental Study of Blockage Effect Correction Method in Towing Tank [J]. China Ocean Eng., 2019, Vol. 33, No. 5, P. 522–536 (SCI：000488845400002 )
[24] Guo, Chun-Yu; Xu, Pei; Wang, Chao*; Xiong, Wei-Peng. Experimental Investigation of the Effect of Ice Blockage on Propeller Hydrodynamic Performance [J]. Mathematical Problems in Engineering, (2019):1-19 (SCI：000455782800001)
[25] Sun, S; Chang, X*; Guo, CY; Zhang, HY ; Wang, C . Numerical investigation of scale effect of nominal wake of fourscrew ship [J]. Ocean Engineering，2019（183:）：208-223 (SCI：000479025700015 )
[26] Sun, S ; Wang, C * ; Guo, CY * ; Zhang, Y ; Sun, C ; Liu, PF. Numerical study of scale effect on the wake dynamics of a propeller[J]. OCEAN ENGINEERING,2020-1,196, DOI: 10.1016/j.oceaneng.2019.106810 (SCI：000514216500058)
[27] SUN Shuai, LI Liang, Wang Chao*, ZHANG Hongyu. Numerical Prediction Analysis of Propeller Exciting Force for HullPropeller-Rudder System in Oblique Flow[J]. INTERNATIONAL JOURNAL OF NAVAL ARCHITECTURE AND OCEAN ENGINEERING.,10(2018):69-84(SCI：000423894000007)
[28] L. Y. Ye , C. Y. Guo* , C. Wang* , C. H. Wang & X. Chang. Peridynamic Solution for Submarine Surfacing through Ice[J]. Ships and Offshore Structures，2020, VOL. 15, NO. 5, 535–549 (SCI：000485785500001 )
[29] L.Y. Ye, C.Y. Guo*, C. Wang*, C.H. Wang. Prediction of the dynamic pressure distribution on a propeller blade under ice milling [J]. Ocean Engineering, 188 (2019) 106284 (SCI：000490045500037 )
[30] L.Y. Ye, C.Y. Guo*, C. Wang*, C.H. Wang，X. Chang. Strength assessment method of ice class propeller under the design ice load condition [J]. International Journal of Naval Architecture and Ocean Engineering， 11 (1)：542-552(SCI：000458100000045)
[31] L.Y. Ye, C. Wang *, X. Chang, H.Y. Zhang. Propeller-ice Contact Modeling with Peridynamics [J]. Ocean Engineering,139（2017）：54-64. (SCI：000403987300005)
[32] Xiong, WP; Wang, C*; Wang, CH; Ma, QW; Xu, P. Analysis of shadowing effect of propeller-ice milling conditions with peridynamics[J]. Ocean Engineering, 2020-01，195, DOI: 10.1016/j.oceaneng.2019.106591 (SCI：000510075500052 )
[33] Sun, C; Guo, CY * ; Wang, C; Wang, LZ; Lin, JF. Numerical and Experimental Study of Flow Field between the Main Hull and Demi-Hull of a Trimaran [J]. JOURNAL OF MARINE SCIENCE AND ENGINEERING, 2020,8(12) (SCI：000602033900001 )
[34] Cong Sun, Chao Wang*, Shengxia Sun and Xin Chang. Numerical Prediction Analysis of Fluctuating Pressure and Rudder Force for Full-Scale Hull-Propeller-Rudder System [J]. Ocean Engineering, 147 (2018): 580–590(SCI：000423649000046 )
[35] Wang, C ; Hu, XH; Tian, TP; Guo, CY; Wang, CH * . Numerical simulation of ice loads on a ship in broken ice fields using an elastic ice model[J]. International Journal of Naval Architecture and Ocean Engineering, 2020,12:414-427. (SCI：000594417800033)
[36] Wang, C; Weng, KQ; Guo, CY; Chang, X* ; Gu, L. Analysis of Influence of Duct Geometrical Parameters on Pump Jet Hydrodynamic Performance[J]. Journal of Marine Science and Technology，2020,6， 25（2）：640-657 (SCI：000535234500021)
[37] Chao Wang, Kaiqiang Weng, Chunyu Guo*, Lang Gu. Prediction of hydrodynamic performance of pump propeller considering the effect of tip vortex[J]. Ocean Engineering，2019-01，(171)： 259–272 (SCI：000459235600023)
[38] C. Wang *, X. Li, X.Chang *, W.P. Xiong. Numerical simulation of propeller exciting force induced by milling-shape ice [J]. International Journal of Naval Architecture and Ocean Engineering，11 (2019) ：294-306(SCI：000458100000025 )
[39] C. Wang*, W.P. Xiong , X.Chang*, L.Y. Ye , X. Li. Analysis of variable working conditions for propeller-ice interaction [J]. Ocean Engineering, （156）2018,277-293 (SCI：000433269100022 )
[40] Wang, C ; Sun, SX; Chang, X; Ye, LY. Numerical simulation of hydrodynamic performance of ice class propeller in blocked flow using overlapping grids method [J]. Ocean Engineering,141 (2017)：418–426.（SCI： 000407535100034）
[42] Wang Chao*,SUN Shengxia, SUN Shuai, LI Liang. Numerical analysis of propeller exciting force in oblique flow [J].JOURNAL OF MARINE SCIENCE AND TECHNOLOGY. 2017,22(4):602-619（SCI：000416414800002）
[43] Chao Wang*, Shuai Sun, Liang Li, Liyu Ye. Numerical Prediction Analysis of Propeller Bearing Force for Full Scale Hull-Propeller-Rudder System[J]. JOURNAL OF NAVAL ARCHITECTURE AND OCEAN ENGINEERING, 2016，8（6）：589-601（SCI：000388912700007）
[44] Chao Wang*, Liyu Ye, Xin Chang, and Sheng Huang The Study on Optimization Design of Propeller Pitch[J].Journal of Coastal Research,2015, Special Issue, (73):466-470 （SCI：000351538400083）
[45] Fangqing Yang, Chao Wang *, Quanmi Liao, Sheng Huang. A simulative method for evaluating the resistance of the flightdeck’s operational capability to the attack of anti-ship weapons [J]. JOURNAL OF NAVAL ARCHITECTURE AND OCEAN ENGINEERING,20168（6）：563-576 （SCI：000388912700005）

Honors

Outstanding Undergraduate Class Supervisor
Exemplary Teacher with High Moral and Professional Standards
Recipient of 'My Favorite Teacher' Award in 2014
College Outstanding Teaching Faculty

Awards

Optimization Design and Test Analysis System for Ship Propulsion Energy-saving Devices, First Prize for Marine Engineering Science and Technology Inventions, Ranked Second.
Cross-scale Prediction and Analysis System for Hydrodynamic Characteristics of Ship Propulsion Energy-saving Devices and Waterjet Propellers, Second Prize of China Association for Science and Technology Award for Shipbuilding Engineering, Ranked Second.
Special Hydrodynamic Propulsion Devices for Ships and Marine Structures and Performance Test Analysis System under Complex Environments, Third Prize for Provincial Science and Technology, Ranked Third.
Special Propulsion Devices and Their Experimental Test Analysis System, Third Prize for GF Science and Technology, Ranked Third.

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王超