郭春雨

1999.8-2003.7，哈尔滨工程大学，学士
2003.8-2005.6，哈尔滨工程大学，硕士
2005.7-2007.3，哈尔滨工程大学，博士
2007.4-2009.4，上海交通大学，博士后
2017.7-2017.10，伦敦大学学院，访问学者

2003.8-2005.6，哈尔滨工程大学，助教
2005.7-2007.3，哈尔滨工程大学，讲师
2009.5-2014.9，哈尔滨工程大学，副教授/硕士生导师/船模水池实验室主任/船舶与海洋工程国家级实验教学示范中心副主任
2014.9-2020.12，哈尔滨工程大学，教授/博士生导师/船舶工程学院副院长/船舶与海洋工程国家级实验教学示范中心主任
2022.7-2023.10，哈尔滨工程大学，教授/博士生导师/青岛创新发展基地主任
2023.10-今，哈尔滨工程大学，教授/博士生导师/水下推进技术工信部重点实验室主任

船舶水动力试验测试技术、船舶推进与节能技术、舰艇冰力学理论与试验测试技术

1. 中高冰级极地船舶航行性能与结构安全性预报技术研究，2018-01至2021-12，475万元，主持
2. 基于大尺度模型试验的节能技术评估验证，2017-01至2018-12，360万元，主持
3. 智能船舶1.0研发专项——船舶综合能效智能管理系统开发，2017-01至2019-12，1320万元，参加
4. 国家自然科学基金委员会，重点项目，冰-水-船耦合运动学特性研究，2017-01至2021-12，288万元，参加
5. 最小安全功率规则对EEDI影响研究，2017-01至2018-12，2412.5万元，参加
6. G4616047，10兆瓦大功率船用喷水推进技术与装备开发应用，2016-01至2018-12，5800万元，参加
7. 国家自然科学基金面上项目，基于精细流场测量的船舶水动力节能装置尺度效应研究，2014-01至2017-12，80万元，主持
8. 极地及周边地区航行船舶性能理论预报方法研究，2014-01至2016-12，1000万元，参加
9. 三体船水动力性能分析预报技术研究，2013-01至2015-12，2000万元，参加
10. 国家自然科学基金面上项目，基于PIV的吊舱推进器直航及非设计工况下水动力特性理论与实验研究，2012-01至2015-12，59万元，主持
11. 民品横向，G4816076，高技术船舶科研项目信息管理系统开发，2016-07至2017-07，49万元，主持
12. 民品横向，G4816086，第七代超深水钻井船月池附加阻力分析及优化研究，2016-10至2018-12，28万元，主持
13. 民品横向，G4816067，不同风速测量方法对实船航速修正影响研究，2016-07至2016-12，15万元，主持
14. 民品横向，G4816075，2000吨级海洋调查船关键技术研究，2016-08至2018-03，35万元，主持
15. 民品横向，实际海洋环境船行试验方法研究，2016-09至2016-10，20万元，已结题，主持 

1、Chun-yu Guo*，Wen-ting Hu，Sheng Huang. Using RANS to simulate the interaction and overall performance of propellers and rudders with thrust fins. J. Marine. Sci. Appl. (2010) 9: 323-327. https://doi.org/10.1007/s11804-010-1015-4.
2、Jie Gong, Chunyu Guo*, Chao Wang, Nhan Phan-Thien, Boo Cheong Khoo. Full scale simulations of the external and internal flow fields for a waterjet-propelled ship. The 10th International Conference on Computational Methods (ICCM2019). Singapore.2019.
3、Sheng Huang，Xiang-yuan Zhu，Chun-yu Guo*，Xin Chang. CFD simulation of propeller and rudder performance when using additional thrust fins. J. Marine. Sci. Appl. (2007) 6: 27-31.https://doi.org/10.1007/s11804-007-7023-3.
4、Tie-cheng Wu，Chun-yu Guo*，Wan-zhen Luo，Jie Gong，Yong-ze Xu, Wen-xuan She. EXPERIMENTAL STUDY ON THE WAKE FIELD OF A 76000 DWT PANAMAX BULKER BASED ON SPIV. The 5th International Conference on Advanced Model Measurement Technology for the Maritime Industry (AMT’17). Glasgow, UK, 2017, 320-330.
5、CHANG Xin, ZOU Jing-xiang, HUANG Sheng, GUO Chun-yu. Influence on the hydrodynamic performance of a variable vector propeller of different rules of pitch angle change. J. Marine. Sci. Appl. (2007) 6(4): 32-36. https://doi.org/10.1007/s11804-007-7029-x.
6、Tie-cheng Wu, C.Y. Guo*, W.Z. Luo, J. Gong, Y.Z. Xu, W.X. She. Experimental and Numerical Study on the Wake Field of a 76000 DWT Panamax Bulker, in: Proc. Int. Conf. Comput. Methods, 8th ICCM, Scientech Publisher, Guilin, 2017: 813–820.
7、Jie Gong, C.Y. Guo*, T.C. Wu, K.W. Song, J.F. Lin. Numerical Simulation of Internal Flow Field Characteristics for a Ducted Propeller. in: Proc. Int. Conf. Comput. Methods, 8th ICCM, Scientech Publisher, Guilin, 2017: 729–736.
8、Tiecheng Wu, Chunyu Guo*, Wanzhen Luo, Jie Gong, Wenxuan She.CFD Predictions of Resistance and Viscous Flow Field around Ships for the JAPAN Bulk Carrier (JBC) without an Energy Saving Device. 10th International Workshop on Ship and Marine Hydrodynamics. Keelung, China Taiwan, 2017, NO.350
9、Wan-zhen Luo, Chun-yu Guo*, Tie-cheng Wu, Yu-min Su. Experimental Research on the Resistance and Motion Attitude Variation of Ship-wave-ice Interaction in Marginal Ice Zones. 10th International Workshop on Ship and Marine Hydrodynamics. Keelung, China Taiwan, 2017, NO.464
10、Lianzhou Wang, Chunyu Guo*, Zuotian Zhang, Yumin Su. Study on the Flow Field between the Main- and Demi-Hull of a Trimaran. 10th International Workshop on Ship and Marine Hydrodynamics. Keelung, China Taiwan, 2017, NO.466
11、Jie Gong, Chunyu Guo*, Kewei Song, Tiecheng Wu, Zhe Guo. A CFD-based Comparative Study for Open and Ducted Propeller. 10th International Workshop on Ship and Marine Hydrodynamics. Keelung, China Taiwan, 2017, NO.318
12、Tian Liu, Chun-yu Guo*, Hao-hao Hao. The Analysis of Nominal Wake Flow Characteristics in Short Wave. 10th International Workshop on Ship and Marine Hydrodynamics. Keelung, China Taiwan, 2017, NO.467
13、Liyu Ye, Chunyu Guo, Chao Wang, Chunhui Wang. Peridynamic Simulations on Propeller-Ice Impact. Proceedings of the 25th International Conference on Port and Engineering under Arctic Conditions. Delft, The Netherlands, 2019.
14、Shuai Sun, Yimin Gao, Chunyu Guo, Chao Wang, Yuan Zhang. Mutual Interference of Propeller Bearing Force Caused by Propeller Distribution. Sixth International Symposium on Marine Propulsors. Italy, 2019.

每年可招收博士研究生2名，硕士研究生4名。

1、特种推进器
2、船舶水动力试验技术
3、船舶原理

1、船舶推进性能与节能
2、船舶与海洋工程专题

船舶阻力与推进

1、船舶与海洋工程卓越创新人才培养模式改革与实践研究  黑龙江省教改项目
2、双一流建设中的实验室管理与运行机制研究         哈尔滨工程大学教改项目
3、精细流场测量方法在实验教学中的探索与建设     哈尔滨工程大学教改项目
4、专业特色鲜明的科研成果融入实验教学                哈尔滨工程大学教改项目
5、虚拟船舶交互实验平台建设研究与实践                哈尔滨工程大学教改项目
6、船模水动力性能虚拟实验教学系统                       哈尔滨工程大学教改项目

1. 工信部船舶能效提升专项论证组专家
2. 中国造船工程学会船舶力学学术委员会委员
3. 《应用科技》编委
4. 《哈尔滨工程大学学报》编委
5. 《船舶工程》副主任委员

 

 

 

1、授权专利
[1] 郭春雨; 张佐天; 曹绪祥; 赵大刚; 新型抗涡激振动仿生立管.专利号：ZL201610532847.3.
[2] 郭春雨; 谷双泰; 赵大刚. 船舶仿生螺旋桨.专利号：ZL201210519265.3.
[3] 郭春雨; 姜慧; 赵大刚. 一种仿生螺旋桨.专利号：ZL201520073744.6.
[4] 郭春雨; 豆鹏飞; 景涛; 赵大刚. 一种吊舱试验的推力扭矩测量装置.专利号：ZL201520074202.0.
[5] 郭春雨; 豆鹏飞; 赵大刚; 黄超. 吊舱推进系统试验装置.专利号：ZL201410134459.0.
[6] 郭春雨; 吴铁成; 马良; 孙瑜. 仿鱼形襟翼式船舵装置. 专利号：ZL201310286716.8.
[7] 郭春雨; 马良; 吴铁成; 赵大刚.水池清淤系统.专利号：ZL201210519391.9.
[8] 郭春雨; 胡文婷; 常欣; 黄胜; 于凯. 基于舵球式推力鳍的船舵装置.专利号：ZL201010235336.8.
[9] 郭春雨; 赵晓东; 赵大刚; 周广利.船舶海洋结构物运动及阻力测试装置.专利号：ZL201210135336.X.
[10] 郭春雨; 徐佩; 王恋舟; 骆婉珍; 田太平; 宋妙妍. 一种水池船模压载调配装置.专利号：ZL201710500755.1.
[11] 郭春雨; 徐佩; 骆婉珍; 吴铁成; 王帅; 景涛; 宋妙妍; 田太平. 一种冰区船舶试验拖曳装置. 专利号：ZL201710239779.6.
[12] 郭春雨; 徐佩; 骆婉珍; 吴铁成; 王恋舟; 田太平; 宋妙妍.一种船舶实水域破冰试验方法. 专利号: ZL201710173634.0.
[13] 郭春雨 ; 徐佩 ; 骆婉珍 ; 吴铁成 ; 张承森 ; 宋妙妍 ; 田太平.一种模型冰投放及收集装置. 专利号 : ZL 201710589247.5
[14] 郭春雨; 徐佩; 骆婉珍; 吴铁成; 王帅; 景涛; 宋妙妍; 田太平.一种模型冰推送装置, 专利号: ZL201710239778.1. 
[15] 郭春雨 ; 徐佩 ; 孙守超 ; 骆婉珍 ; 田太平 ; 宋妙妍. 一种水池船模运输装置. 专利号 : ZL201710501638.7
[16] 郭春雨 ; 徐佩 ; 田太平 ; 骆婉珍 ; 张承森. 一种水池船模辅助调平装置. 专利号 : ZL 201710739489.8
[17] 郭春雨 ; 徐佩 ; 张承森 ; 骆婉珍 ; 田太平. 一种融冰池. 专利号 : ZL 201710837766.9
[18] 郭春雨; 林健峰 ;曹绪祥; 魏少鹏; 龚杰; 景涛; 宋科委; 佘文轩. 多功能船模方向校准装置. 专利号: ZL 201710094815.4.
[19] 郭春雨 ; 林健峰 ; 魏少鹏 ; 曹绪祥 ; 龚杰 ; 振前 ; 林洪志 ; 孙守超. 一种船模拖曳水池辅助消波装置. 专利号 : ZL 201710094777.2
[20] 郭春雨 ; 林健峰 ; 赵大刚 ; 龚杰 ; 曹绪祥 ; 景涛 ; 盖利莹. 一种船模试验模型的天平连接装置. 专利号 : ZL 201710894120.4
[21] 周广利 ; 振前 ; 郭春雨 ; 曹绪祥 ; 林健峰 ; 景涛 ; 魏少鹏 ; 郭航 ; 王瀚林 ; 佘文轩 ;一种带波浪形尾缘的T型翼. 专利号 : ZL 201710793378.5
[22] 马勇; 郭春雨; 田永安; 李凤来; 周广利; 由世洲.船模拖曳水池拖车轨道清洁装置.专利号: ZL201010173076.6.
[23] 龚杰; 郭春雨; 林健峰; 吴铁成; 曹绪祥; 宋科委; 魏少鹏. 适用于导管桨的微气泡降噪装置.专利号: ZL201710108093.3.
[24] 龚杰; 郭春雨; 吴铁成; 林健峰; 宋科委; 景涛.一种适用于泵喷推进潜艇的微气泡降噪装置.专利号：ZL201710237476.0. 
[25] 龚杰 ; 郭春雨 ; 宋科委 ; 吴铁成 ; 景涛 ; 林健峰. 一种可调式多轴喷水推进船模推进轴系分动装置. 专利号 : ZL 201710502483.9.
[26] 王超; 公朴; 郭春雨; 常欣; 于凯; 程相茹; 华佳; 黄胜.一种仿生耦合船用舵. 专利号 : ZL201220260718.0.
[27] 常欣; 程相茹; 郭春雨; 王超; 于凯; 导缘凹凸螺旋桨. 专利号: ZL201220216946.8.
[28] 王超; 常欣; 郭春雨; 黄胜; 于凯; 齐向阳; 张海鹏; 马伟佳. 吸喷结合式船用襟翼舵. 专利号 : ZL201120222339.8.
[29] 马勇; 张亮; 郭春雨; 周广利; 由世洲; 李凤来.船模重量、重心及转动惯量测量与调节装置. 专利号 : ZL201010191378.6.
[30] 王超; 郑小龙; 常欣; 郭春雨; 黄胜; 于凯. 一种组合式节能轴支架装置. 专利号: ZL201410117103.6.
[31] 马良; 李凤来; 马勇; 郭春雨; 徐际; 任选其; 李鹏. 水中粒子投放装置. 专利号: ZL201310009316.2.
[32] 周广利; 马勇; 闫桂荣; 郭春雨; 由世洲; 李凤来. 缆拖式船模阻力试验装置. 专利号 : ZL201310000881.2.
[33] 常欣; 程相茹; 王超; 郭春雨; 于凯. 导缘凹凸风机. 专利号 : ZL201220216971.6.
[34] 常欣; 程相茹; 王超;  郭春雨; 于凯; 孟祥印; 黄胜. 一种具有导边突起的船用舵. 专利号 : ZL201120097443.9.
[35] 王超; 常欣; 于凯; 郭春雨; 黄胜; 齐向阳; 张海鹏; 马伟佳. 阻力可控型船用舵. 专利号 : ZL201020659014.1.
[36] 马勇; 由世洲; 周广利; 郭春雨. 一种规则波生成研究和教学用水槽. 专利号 : ZL201010101913.4.
[37] 马勇; 由世洲; 周广利; 郭春雨.一种三体船模型试验调节架. 专利号 : ZL201010032428.6.
[38] 苍岩; 陈春雨; 郭春雨; 尹凤鸣; 苗瑞; 吴铁城; 阳秋光. 一种基于立体视觉高精度波浪浪高测量方法. 专利号 : ZL201510447921.7.
[39] 邓锐 ; 高子予 ; 李超 ; 郭春雨 ; 马勇 ; 周广利 ; 由世洲 ; 杨衡 ;一种高速船消波减阻及航态优化装置. 专利号 : ZL201710388842.2.
[40] 郭春雨;吴延园;韩阳;王超;孙聪;汪永号;叔渤洋;庞广康；一种消除PIV实验中壁面反光的方法；专利号：ZL202111626952.0
[41] 郭春雨;王崇磊；一种波动无齿系传动机构及系统；专利号：ZL202210029520.X
[42] 郭春雨;毕明琪;赵大刚;张佐天;张泱；一种船只间测距连接装置；专利号：ZL202321965670.8
[43] 郭春雨;冀明磊;韩阳;令狐克骑;王超;王世民;孙聪;赵大刚;胡健;于凯；一种灯浮标供电装置及带有该装置的灯浮标；专利号：ZL202010016404.5
[44] 郭春雨;吴延园;韩阳;王超;孙聪;汪永号;叔渤洋;庞广康；一种消除PIV实验中壁面反光的方法；专利号：ZL202111626952.0
[45] 梁泽军;郭春雨;韩阳;徐鹏;余云野；一种便于安拆的仿鱼类水下机器人；专利号：ZL202223262358.0
[46] 郭春雨,孙路程,汤晓云,梁泽军,金磊,蔡琳；可视化曲线等分软件；登记号：2023SR0572931
[47] 郭春雨,孙路程,汤晓云,梁泽军,石小琦,蔡琳,金磊；PIV-波动鳍数据分析软件；登记号：2023SR1150529

1、 船舶绕流场精细测试和分析技术 科学出版社
2、 特种推进器及附加整流装置 哈尔滨工程大学出版社
3、 桨舵干扰性能预报的理论与方法 哈尔滨工程大学出版社
4、 Fluent船舶流体力学仿真计算工程应用基础 哈尔滨工程大学出版社
5、船用舵球--涡轮水动力特性浅析 哈尔滨工业大学出版社
6、现代大型水面舰船 哈尔滨工程大学出版社

1.1.第一作者论文
[1] Chunyu Guo, Hang Guo, Jian Hu*, Kewei Song, Weipeng Zhang, Wei Wang. Large Eddy Simulation of Flow over Wavy Cylinders with Different Twisted Angles at a Subcritical Reynolds Number [J], Journal of Marine Science and Engineering, 2019, 7(227): 1-25.
[2] Chun-Yu Guo, Pei Xu, Chao Wang*, Wei-Peng Xiong, Experimental Investigation of the Effect of Ice Blockage on Propeller Hydrodynamic Performance [J], Mathematical Problems in Engineering, 2019:1-19. 0 WOS: 000455782800001
[3] Chun-yu Guo, Tie-cheng Wu, Wan-zhen Luo, Xin Chang*, Jie Gong, Wen-xuan She. Experimental study on the wake fields of a Panamax Bulker based on stereo particle image velocimetry [J], Ocean Engineering, 2018, 165: 91-106, 0 WOS:000446287400008
[4] GUO Chun-yu*, ZHANG Zuo-tian, TIAN Tai-ping, LI Xia-yan, ZHAO Da-gang. Numerical Simulation on the Resistance Performance of Ice-Going Container Ship Under Brash Ice Conditions [J], China Ocean Engineering, 2018, 32(5): 546-556, 0 WOS:000445740500005
[5] GUO Chun-yu⁽*⁾, XIE Chang, ZHANG Jin-zhao, WANG Shuai, ZHAO Da-gang. Experimental Investigation of the Resistance Performance and Heave and Pitch Motions of Ice-Going Container Ship Under Pack Ice Conditions [J], China Ocean Engineering, 2018, 32(2): 169-178, 0 WOS:000431507900005
[6] Guo Chun-yu*, Wu Tie-cheng, Zhang Qi , Wan-zhen Luo,Yu-min Su. Numerical simulation and experimental studies on aft hull local parameterized non-geosim deformation for correcting scale effects of nominal wake field [J], Brodogradnja, 2017, 68(1):77-96. 1  WOS:000401022200005
[7] GUO Chun-yu*, WU Tie-cheng, ZHANG Qi, GONG jie. Numerical simulation and experimental research on wake field of ships under off-design conditions [J], China Ocean Engineering, 2016, 30(5): 821-834, 2 WOS: 000385242500013.
[8] GUO Chun-yu*, ZHAO Da-gang, SUN Yu. Numerical simulation and experimental research on hydrodynamic performance of propeller with varying shaft depths [J], China Ocean Engineering, 2014, 28(2): 271-282, 3 WOS:000335328600011
[9] GUO Chun-yu*, HU Wen-ting, YANG Chen-jun, MA Ning. Research of Podded Propulsors with Varied Geometry in Viscous Flow [J], China Ocean Engineering, 2010, 24(04): 693-708,    2 WOS:000286567600009
[10] GUO Chun-yu*, YANG Chen-jun, MA Ning. RANS Simulation of Podded Propulsor Performances in Straight Forward Motion [J], China Ocean Engineering, 2008, 22(04): 663-674. 5 WOS:000266089100011
[11] GUO Chun-yu*, MA Ning, Yang Chen-jun. Numerical Simulation of a Podded Propulsor in Viscous Flow [J], Journal of Hydrodynamics, 2009, 21(1): 71-76, 15 WOS:000265703800009
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1、2009年哈尔滨工程大学“研究生教育优秀工程”迎评促建先进个人
2、2010年哈尔滨工程大学青年教师师德师风先进个人
3、2010年哈尔滨工程大学实验教学中心工作先进个人
4、2012年哈尔滨工程大学优秀共产党党员
5、2019年黑龙江省优秀教师
6、2021青岛西海岸新区最美科技工作者
7、2022山东省青年科技奖

1. 海洋工程科学技术发明一等奖
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3. 黑龙江省技术发明三等奖
4. 黑龙江省高校科学技术奖励二等奖
5. 国家级教学成果二等奖
6. 黑龙江省高等教育省级教学成果二等奖
7. 哈尔滨工程大学实验教学改革与实验技术研究成果二等奖