吴瑜

吴瑜,重庆人,博士研究生副教授,中国民主促进会成员全国优秀博士论文获得者(船舶与海洋工程学科),辽宁省优秀博士论文获得者从事海洋工程装备,智慧传感器与其测量等方面的研究工作近年在Marine StructuresJPS 等国内外重要学术期刊上发表SCI/EI期刊40余篇,影响因子IF≥7.0SCI期刊8授予/申请发明专利11项,授予软著2项,其中成果转换1项,获得程序设计员中级证书。获得以下奖励:

1. 2022年海洋工程科学技术奖二等奖(排名第1

2. 2023上海海洋科学技术奖等奖(排名第2

3. 2022年上海海洋科学技术奖一等奖(排名第3

4. 2019年辽宁省自然科学学术成果三等奖(排名第1

5. 2020年全国优秀博士论文获得者,国务院学位委员会船舶与海洋工程学科评议组

6. 2021年辽宁省优秀博士论文获得者,辽宁省教育厅,辽宁省人民政府学位委员会

7. 2021年yL23411永利官网登录科技进步二等奖(排名第5

8. 2020年大连海事大学优秀博士论文获得者。

一、学历及工作经历

2009年获江苏科技大学轮机工程专业学士学位;2011年获大连海事大学轮机工程专业硕士学位;2012年至2013年于Lund UniversityDepartment of Energy Science进行访问;2018年获大连海事大学轮机工程专业博士学位;2019年至今于yL23411永利官网登录工作。

、主要科研方向

1. 海洋工程装备方向

从事海洋工程装备设计、性能分析、结构损伤探测技术以及损伤量化评估研究包括设计、制造以及使用的可靠性。

2. 智慧传感器与其测量方向

从事智能集成检测技术、智慧传感器技术、设备智能状态监测以及故障诊断技术等领域基础和应用研究。

三、主项目列表

1. 国家自然科学基金青年项目,52101320深海耐压舱微裂纹损伤识别及其量化评估研究2022.1-2024.12,主持。

2. 企事业单位委托项目,D-8006-23-0065“复杂环境下多工况深潜球壳安全评估与辅助决策技术研究”,2023.3-2023.12,主持。

3. 企事业单位委托项目,D-8006-21-0149,“深海耐压结构失效破裂后的流固耦合分析”,2021.5-2021.12,主持。

4. 船海机械装备先进制造江苏省重点实验室基金, A-452022012复合材料深海耐压壳失效模式和破坏机理研究, 2022.5-2023.4, 主持。

5. 船舶与海洋工程福建省重点实验室基金,20227604深海载人潜水器全透明耐压舱失效和破坏机理研究, 2022.6-2024.5, 主持。

6. 知识产权成果转化,No.JSZY20230101,“深海耐压壳微裂纹损伤识别系统”,2023-2028,排第1

7. 国家重点研发计划项目子课题,2021YFC2800601-02全通透耐压结构稳定性及疲劳寿命评估方法研究2021.12-2024.12排第2

8. 国家教育部产学协同育人项目,201901054029油轮货油加热与保温操作方案2019.12-2020.12,主持。

9. 国家自然科学基金面上项目,51679022基于多信号分析的船机油液污染LOC高精度检测新机理研究2017.1-2020.12,排4

10. 国家自然科学基金面上项目,51779026船舶液压系统流动介质边界层感知点优化布置理论及其状态模型研究2018.1-2021.12,排4

11. 企事业单位委托项目201308732油轮货油加热与保温操作方案优化,主持。

四、主要SCI论文

. 第一作者/通信作者

1. Wu, Y., Luo, R.L., Wang, F., Zhao, M., Xia, J.. Effect of the implosion of a deep-sea pressure hull on surrounding structures. Applied ocean research. 2023, 132, 103477.

2. Yu Wu, Youjie Li, Ruilong Luo, Zhonggang Zhang,Fang Wang, Bingxiong Zhao, Chao Yang, Jinfei Zhangi, Oleg Gaidai. Failure analysis on fully-transparent deep-sea pressure hulls used at 2500m depth. Frontiers in Materials. 2023, 9, 1099610. 

3. Wu, Y., Dai, L.Y., Kan, A.K., Yang, C., Wang, F., Zhang, G.S.. Theoretical and experimental analysis of the heating operation for cargo oil shipped on an actual voyage. Ships and offshore structures, 2022, DOI: 10.1080/17445302.2022.2109352. 

4. Wu, Y., Ding, J., Wang, F., Sun, Z.Z. Zhao, M., Wang, Y.M.. Research on the quasi-static collapse and instantaneous implosion of the deep-sea spherical pressure hull. Marine Structures. 2022, 83, 103191.

5. Yang, C., Li, P., Guo, R., Yuan, J.L.*, Wu, Y.*, Zhang, G.S.. Coarse-grained molecular dynamics modeling and parameter analysis for sintered interface structures in sandwiched tri-layers reversible solid oxide fuel cell. Journal of power sources. 2022, 535, 231420. (if=9.794)

6. ChaoYang, Ran Guo, Xiuhui Jing, Yuan, J.L.*, Wu, Y.*, Degradation mechanism and modeling study on reversible solid oxide fuel cell in dual-mode-A review. International Journal of Hydrogen Energy. 2022, 47, 37895-37928. (if=7.139)

7. Oleg Gaidai, Yu Wu*, Fang Wang, Ivan Yegorov, Panagiotis Alevrasc, Junlei Wang, Daniil Yurchenko.Improving performance of a nonlinear absorber applied to a variable length pendulum using surrogate optimization.Journal of Vibration and Control. 2022, 107754632211426.

8. Wu, Y., Wang, F., Zhao, M., Wang, B., Yang, C.. A method for measurement of nonferrous particles sizes in lubricant oil independent of materials using inductive sensor. IEEE Sensors Journal. 2021, 21(16): 17723-17731. WOS: 000684707400038.

9. Wu, Y., Yang, C.. Ferromagnetic metal particle detection including calculation of particle magnetic permeability based on micro inductive sensor. IEEE Sensors Journal. 2021, 21(1): 447-454. WOS: 000597216600051.

10. Wu, Y., Tian, Z.X., Xu, J.X., Cao, Y., Yang, C.. The effect of particle shape in particle detection using inductive sensors. Review of Scientific Instruments. 2019, 90, 105002. WOS: 000504078300068.

11. Wu, Y., Zhang, H.P.. Solid particles, water drops and air bubbles detection in lubricating oil using microfluidic inductance and capacitance measurements. Journal of Micromechanics and Microengineering. 2019, 29, 025014. WOS: 000455836500001.

12. Wu, Y.. Detection of foreign particles in lubrication oil with a microfluidic chip. Industrial Lubrication and Tribology. 2018, 70(8), 1381-1387. WOS: 000449961400004.

13. Wu, Y., Zhang, H.P., Wang, M., Chen, H.Q.. Differentiation of nonferrous metal particles in lubrication oil using an electrical conductivity measurement-based inductive sensor. Review of Scientific Instruments. 2018, 89, 025002. WOS: 000426583500053.

14. Wu, Y., Zhang, H.P.. Research on the effect of relative movement on the output characteristic of inductive sensors. Sensors and Actuators A. 2017, 267, 485-490. WOS: 000418313800055.

15. Wu, Y., Zhang, H.P.. An approach to calculating metal particle detection in lubrication oil based on a micro inductive sensor. Measurement Science and Technology. 2017, 28(12), 125101. WOS: 000415604400001.

16. Wu, Y., Zhang, H.P.. Research on the influence of velocity on the sensitivity of inductive sensor [J]. Journal of Engineer Research. 2017, 5(2), 10-22. WOS: 000406891600007.

17. Wu, Y., Zhang, H.P., Zeng, L., Chen, H.Q., Sun, Y.Q.. Determination of metal particles in oil using a microfluidic chip-based inductive sensor. Instrumentation Science and Technology. 2016, 44(3), 259-269. WOS: 000371928500004.

. 共同作者

1. Cai Weiqiang, Zheng Qingrong, Yuan Jinliang, Yu Wanneng, Yin Zibin, Wu Yu, Zhang Zhonggang. Thermo-Electro-Chemo-Mechanical Coupled Modeling of Solid Oxide Fuel Cell with LSCF-GDC Composite Cathode, 2023, 24(4), 4137.

2. Gaidai Oleg, Xu Jingxiang, Yan Ping, Xing Yihan, Wu Yu, Zhang Fuxi. Novel methods for wind speeds prediction across multiple locations, Scientific Reports, 2022, 12(1), 19614.

3. Wang Fang, Kong Pinpin, Sun Zhongzhou, Zhang Jinfei, Chen Fengluo, Wu Yu, Wang, Yongmei, Residual Stress Properties of the Welded Thick Underwater Spherical Pressure Hull Based on Finite Element Analysis. Metals, 2022, 12(11), 1958.

4. Sun Jiayao, Gaidai Oleg, Wang Fang, Naess Arvid, Wu Yu, Xing Yihan, Wang Junlei. Extreme riser experimental loads caused by sea currents in the Gulf of Eilat, Probabilistic engineering mechanics, 2022, 68, 103243.

5. Gaidai, O., Wang, F., Wu, Y., Xing, Y.H., Medina, A.R., Wang, J.L., Offshore renewable energy site correlated wind-wave statistics, PROBABILISTIC ENGINEERING MECHANICS, 2022, 68, 103207.

6. Ankang Kan, Wenbing Zhu, Yu Wu. Evaluation on human thermal comfort in the cabin environment of shanghai passenger ship. ES Energy & Enviroment. Doi: https://dx.doi.org/10.30919/esee8c654.

7. Yang, C., Li, P., Miao, H., Yang, X.Y., Wu, Y., Wang, F., Zhang, Z.G., Yuan, J.L.. Modeling and evaluation of sintered microstructure and its properties for rSOFC fuel electrodes by coarse-grained molecular dynamics. Journal of Alloys and Compounds. 2021, 891, 161977.

8. Yang, C., Jing, X.H., Li, P., Kan, A.N., Wu, Y., Ye, W.Q., Yuan, J.L.. Performance analysis of mesoscale reactions in fuel electrode and effect on dynamic multiphysics processes in rSOFC with syngas. International Journal of Hydrogen Energy. 2021, 46(14), 9523-9540.

9. Xiaosen Xu, Oleg Gaidai, Fang Wang, Arvid Naess, Yu Wu, Yihan Xing,Eric-Jan van Loon,Ausberto Rivera Medina,Junlei Wang, Extreme riser experimental loads caused by sea currents in the Gulf of Eilat, Probabilistic Engineering Mechanics, 2022,68,103243.

10. Yang, C., Jing, X.H., Miao, H., Xu, J.X., Lin, P.J., Li, P., Liang, C.Y., Wu, Y., Yuan, J.L.. The physical properties and effects of sintering conditions on rSOFC fuel electrodes evaluated by molecular dynamics simulation. ENERGY. 2021, 216, 119215.

11. Yang, C, Jing, X.H., Miao, H., Wu, Y., Shu, C., Wang, J.T., Zhang, H.C., Yu, G.J., Yuan, J.L.. Analysis of effects of meso-scale reactions on multiphysics transport processes in rSOFC fueled with syngas. ENERGY. 2020, 190, 116379.

12. Ankang Kan, Ni Zheng, Yu Wu, Xuexiang Zhang, Dan Cao. Theoretical prediction and aging experimental verification of the service life of vacuum insulation panels. Cleaner Engineering and Technology, 2022, 8, 100484.

13. Yang, C., Wang, J.T., Zhao, J.P., Wu, Y., Shu, C., Miao, H., Wang, F., Ye, W.Q., Yuan, J.L..CFD modeling and performance comparison of solid oxide fuel cell and electrolysis cell fueled with syngas. International journal of energy research. 2019, 43(7):2656-2677.

14. Wang Fang, Zhong Huageng, Yang Lu, Wang Yongmei, Chen Fengluo, Wu Yu, Zhang Jinfei, Luo, Ruilong. Experimental Observation and Simulation on Crack Growth Behavior of An Equivalent Welding Joint for A Deep-Sea Spherical Hull. Metals, 2022, 12(10), 1592.

15. Yang, C., Shu, C., Miao, H., Wang, Z.H., Wu, Y., Wang, J.T., Zhao, J.P., Wang, F., Ye, W.Q., Yuan, J.L.. Dynamic modelling and performance analysis of reversible solid oxide fuel cell with syngas. International Journal of Hydrogen Energy. 2019, 44(12):6192-6211.