2021年10月25日,祝贺研究室2名同学获得研究生国家奖学金

发布者:OUCSHENG发布时间:2021-12-20浏览次数:1671

202110月25日,中国海洋大学研究生国家奖学金评定工作已经完成,经层层选拔和公示,本研究室2019级硕士研究生傅金波同学、2018级博士研究生王刚分别获得研究生国家奖学金。水产学院共有4名博士研究生和8名硕士研究生获得国家奖学金。在此向研究室获奖同学表示衷心祝贺!

1. 2019级硕士研究生傅金波

傅金波同学为2019级捕捞学专业硕士研究生,本科毕业于中国海洋大学,在海大水产学院求学的7年,始终保持着积极向上的心态,时时以高标准要求自己的同时,妥善处理好学习和工作二者之间的关系,努力做到全面发

在导师刘长东老师的悉心指导下,傅金波同学勤奋钻研,完成了各项科学实验、海上调查任务,并运用所学统计知识和数学模型,深入探究了中华白海豚的适宜栖息地和环境因素之间的关系,并在核心期刊PeerJ上发表了题为“Estimatingthe impact of climate change on the potential distribution ofIndo-Pacific humpback dolphins with species distributionmodel”的研究性文章;在学习之余,傅金波同学与老师,同学们和谐相处,热爱运动,积极参加学院体育活动。展。硕士期间,在核心期刊发表学术论文1篇,申请国家发明专利1项,获校级学习奖学金2次,并分别获得“校庆杯”篮球赛亚军和“校庆杯”篮球赛季军。

傅金波

2. 2018级博士研究生王刚

王刚同学为2018级捕捞学专业博士研究生,20122016年在海洋渔业科学与技术专业学习。2016年和2018年分别推荐免试攻硕和攻博。在研究生阶段,以第一&通讯作者发表11SCI/EI收录论文,其中,顶尖期刊论文5篇,JCR三区SCI收录论文3篇,EI收录论文3篇;以合作者参与发表论文5篇。

在其硕博连读硕士阶段,探究海洋牧场中的方形人工鱼礁结构的水动力学,以第一作者发表在顶尖期刊OceanEngineering的文章至今被引用25次。开展元建模等机器学习方法在渔业工程领域的应用,并提出了设计、优化方法论。20192021年获得国家留学基金委建设高水平大学公派留学生项目资助,前往世界海洋工程名校挪威科技大学联合培养,其间基于国家重点研发项目“深远海养殖平台及配套技术与装备研发”展开相关研究,从高精度数值解析手段阐明了网片结构的耐波流机理,提出了相关的水动力模型,并从流固耦合角度开展深远海养殖平台的水动力探究(国际首创),丰富了深远海平台的设计理论。

王刚

附王刚同学简介:

获奖情况:

  1. 2019年国家建设高水平大学公派研究生项目,挪威科技大学海洋工程联合培养(2019.9~2021.9)

  2. 博士研究生国家奖学金(2021.10)

  3. 中国海洋大学优秀研究生(2017.9)

  4. 中国海洋大学推荐免试硕士(2016),推荐免试硕博连读(2018)。

科研成果:

以第一作者或通讯作者已接受&发表文章(SCIEI收录):

[1]Wang,G.,Wan, R.*, Wang, X. X., Zhao, F. F., Lan, X. Z., Cheng, H., Tang, W.Y., and Guan, Q. L., 2018, “Study on the Influence of Cut-OpeningRatio, Cut-Opening Shape, and Cut-Opening Number on the Flow Field ofa Cubic Artificial Reef,” Ocean Eng., 162, pp. 341–352. DOI:https://doi.org/10.1016/j.oceaneng.2018.05.007(SCI,IF: 3.795, JCR #1Top,第一作者)

[2]Wang,G.,Huang, L.*, Wang, L., Zhao, F., Li, Y., and Wan, R., 2021, “AMetamodeling with CFD Method for Hydrodynamic Optimisations ofDeflectors on a Multi-Wing Trawl Door,” Ocean Eng., 232, p. 109045.DOI: https://doi.org/10.1016/j.oceaneng.2021.109045(SCI,IF: 3.795, JCR #1, Top,第一作者)

[3]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “Modelling the flowaround and wake behind net panels using large eddy simulations,”Ocean Eng., 239, p. 109846. DOI:https://doi.org/10.1016/j.oceaneng.2021.109846(SCI,IF: 3.795, JCR #1,Top, 第一作者,通讯作者)

[4]Wang,G.*,Martin, T., Huang, L., Bihs, H., 2021. “An improved screen forcemodel based on CFD simulations of the hydrodynamic loads on knotlessnet panels,” Appl. Ocean Res. 118, p. 102965. DOI:https://doi.org/10.1016/j.apor.2021.102965(SCI,IF: 2.979, JCR #2, Top,第一作者,通讯作者)

[5]Huang, L., Li, Y., Wang,G.*,Wang, Y., Wu, Q., Jia, M., Wan, R., 2021, “An improved Morisonhydrodynamics model for knotless nets based on CFD and metamodelingmethods”, Aqua. Eng. 96, p. 102220. DOI:https://doi.org/10.1016/j.aquaeng.2021.102220(SCI,IF: 3.281, JCR #1, Top,通讯作者)

[6]Wang,G.,Huang, L.*, Wang, L., Zhao, F., Wang, X., and Wan, R., 2020, “Effectsof Euler Angles of Vertical Cambered Otter Board on HydrodynamicsBased on Response Surface Methodology and Multi-Objective GeneticAlgorithm,” J. Offshore Mech. Arct. Eng., 143(2), p. 021401. DOI:https://doi.org/10.1115/1.4048154(SCI,IF: 1.355, JCR #3第一作者)

[7]Wang,G.*, Martin,T., Huang, L., and Bihs, H., 2021, “Modeling the Flow around andthe Hydrodynamic Drag on Net Meshes Using REEF3D,” J. OffshoreMech. Arct. Eng., pp. 1–21. DOI: https://doi.org/10.1115/1.4051408

(SCI,IF: 1.355, JCR #3第一作者,通讯作者)

[8]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “A numerical study ofthe hydrodynamics of an offshore fish farm using REEF3D,” J.Offshore Mech. Arct. Eng. In Press. DOI:https://doi.org/10.1115/1.4052865

(SCI,IF: 1.355, JCR #3第一作者,通讯作者)

[9]Wang,G.,Wan, R., Huang, L*., Zhao, F., Wang, X., Zhu, W., Wang, L., Xu, Q.,and Li, Y., 2019, “Effects of Euler Angles of Vertical CamberedOtter Board on Hydrodynamics Based on Response Surface Methodologyand MOGA,” ASME 2019 38th International Conference on Ocean,Offshore and Arctic Engineering. DOI:https://doi.org/10.1115/OMAE2019-95308(EI第一作者)

[10]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2020, “Numerical Simulation ofHydrodynamics Around Net Meshes Using REEF3D,” The ASME 2020 39thInternational Conference on Ocean, Offshore and Arctic Engineering.Volume 5: Ocean Space Utilization. Virtual, Online. August 3–7, p.V005T05A002. DOI: https://doi.org/10.1115/OMAE2020-18355(EI第一作者,通讯作者)

[11]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “A Numerical Study ofthe Hydrodynamics of an Offshore Fish Farm Using REEF3D,” 40thInternational Conference on Ocean, Offshore & Arctic Engineering(OMAE 2021), pp. 1–10. DOI: https://doi.org/10.1115/1.4052865(EI第一作者,通讯作者)


以其他作者身份已接受&发表文章(SCIEI收录):

[1]Martin, T., Wang,G.,and Bihs, H., 2021, “Numerical Modeling of the Interaction ofMoving Fish Nets and Fluid,” J. Offshore Mech. Arct. Eng., 144(1),011901.DOI: https://doi.org/10.1115/1.4051088(SCI,IF: 1.355, JCR #3,第二作者)

[2]Huang, L., Li, Y., Jia, M., Wang,G.,Feng, C., Zhao, F., Xu, Q., and Cheng, H., 2020, “Analysis andOptimization on the Hydrodynamic Performance of Hollow Otter Board inAntarctic Krill Trawl,” 30th Int. Ocean Polar Eng. Conf., p. 8.(EI,第四作者)

[3]Tang, Y., Yang, W., Sun, L., Zhao, F., Long, X., and Wang,G.,2019, “Studies on Factors Influencing Hydrodynamic Characteristicsof Plates Used in Artificial Reefs,” J. Ocean Univ. China, 18(1),pp. 193–202. DOI: https://doi.org/10.1007/s11802-019-3706-z(SCI,IF: 1.355, JCR #4,第六作者)

[4]Huang, L., Li, Y., Ni, Y., Cheng, H., Wang, X., Wang,G.,and Zhao, F., 2019, “Study on the Influence of Mesh Grouping onNumerical Simulation Results of Fish Cages.”, ASME 2019 38thInternational Conference on Ocean, Offshore and Arctic Engineering.DOI: https://doi.org/10.1115/OMAE2019-95706(EI,第六作者)