黄淞


 黄


   副教授,硕士生导师

   E-mail: huangsong@ecust.edu.cn

   电话:+86 13732207059

   地址: 上海市徐汇区梅陇路130号实验17楼509室

   招生专业:过程装备与控制工程、动力工程及工程热物理相关专业


欢迎对氢安全有兴趣的同学加入课题组!


个人简介:

男,19907月出生,辽宁铁岭人,研究方向为极端环境下承压设备安全保障技术,聚焦于氢安全和超高压可靠性技术难题,主持国家自然科学基金2项,企业项目多项,作为技术骨干完成了国内设计压力最高的高压氢环境试验装置(设计压力大于140MPa),突破了超高压增压器(1400MPa)技术的国产化,在International Journal of Hydrogen Energy, Composite Structures、压力容器等高水平学术期刊发表论文30余篇,获得国家发明专利5项。兼任全国锅容标委安全保护装置标准化研究工作组委员、《中国特种设备安全》青年编委。

教育/工作背景

2024.01-至今          华东理工大学   机械与动力工程学院       副教授

2021.05-2023.12   华东理工大学   机械与动力工程学院       特聘副研究员

2019.03-2021.04   华东理工大学   机械与动力工程学院       博士后

2013.09-2019.03   浙江大学          化工过程及机械              博士

2009.09-2013.06   大连理工大学   过程装备与控制工程        学士

研究方向

氢安全,超高压技术,承压设备安全技术

主讲课程

压力容器设计(国家一流本科课程)

化工设备设计(上海市精品课程)

工程制图(短学时)

科研项目

团队科研经费充足,近年间主持/参与主要项目如下:

1.国家自然科学基金面上项目,2024-2027,在研,氢环境-材料组织-载荷交互下的厚壁结构损伤机制与设计方法

2.国家自然科学基金青年基金,2020-2022,结题,制造过程对板焊式加氢反应器承载件服役性能和结构完整性影响机制及评价方法研究

3.企业项目,在研,52MPa高压储氢容器设计研发

4.企业项目,结题,大容积复合储氢气瓶及管束式集装箱技术研究

5.企业项目,结题,1400MPa超高压增压器强度与寿命设计技术

6.企业项目,在研,高压氢环境下材料性能试验系统研制

7.企业项目,在研,高压储氢容器损伤机理与监测技术研究

8.企业项目,在研,超高压阀门强度及自增强技术研究

9.企业项目,结题,钢内胆纤维环向缠绕储氢容器技术研究

10.企业项目,结题,蒸汽发生器传热管爆破试验方案设计与实施技术


主要成果


论文&专利

1.          Yile Han, Song Huang*, Hu Hui, 2024, Comparative Analysis of Bursting Pressure Prediction Methods for Steam Generator Tube with Volume Defect. Journal of Pressure Vessels Technology—transactions of ASME. 146(2): 021701. (SCI, IF=1.0)

2.          Song Huang, Hu Hui*, Jian Peng, 2023, Prediction of Hydrogen-assisted Fracture under Coexistence of Hydrogen-enhanced Plasticity and Decohesion. International Journal of Hydrogen Energy, 48(94): 36987-37000 (SCI, top期刊, IF=7.2)

3.          Zehong Chen, Yalin Zhang, Song Huang*, Hu Hui, 2023, Assessing Toughness Levels for Nuclear Containment Vessels Steel To Determine The Need For PWHT Based On The Master Curve Method.Journal of Pressure Vessels Technology—transactions of ASME, 145(3): 031501(SCI, IF=1.0)

4.          You Li, Song Huang*, Hu Hui, Yile Han, Jiayi Huang & Zhiping Chen, 2023, Revealing influence of warm bending on creep performance of heat-resistant 2.25Cr-1Mo-0.25 V steel,Journal of Materials Science, 58, pp. 3802–3824.(SCI, IF= 4.5)

5.          Song Huang, Hu Hui*, 2022, Predictive environmental hydrogen embrittlement on fracture toughness of commercial ferritic steels with hydrogen-modified fracture strain model. International Journal of Hydrogen Energy, 47(19):10777-10787 (SCI, top期刊, IF=7.2)

6.          Chao Yang, Hu Hui, Xinyi Song, Song Huang*,2021, Theoretical and Experimental Research on Designed Bursting Pressure of Ultra-high Pressure Rupture Disc.Journal of Pressure Vessels Technology—transactions of ASME, 143(3): 031301 (SCI, IF=1.0)

7.          Song Huang, Yalin Zhang, Chao Yang, Hu Hui*, 2020, Fracture Strain Model for Hydrogen Embrittlement based on Hydrogen Enhanced Localized Plasticity Mechanism. International Journal of Hydrogen Energy,45(46), pp. 25541-25554 (SCI, top期刊, IF=7.2)

8.          Song Huang, Hu Hui*, Zhiping Chen, 2020, Numerical Limit and Shakedown Analysis Method for Kinematic Hardening Structure Made of Arbitrary Inhomogeneous Material. Composite Structures, 234, 111641.(SCI, top期刊, IF=6.3)

9.          Song Huang, Hu Hui*, Zhizhen Peng, 2020, Probabilistic Structural Integrity Assessment for Inconel690 Alloy Steam Generator Tube with Volume Defect, Nuclear Engineering and Design, 371, 110949(SCI, IF= 1.7)

10.       Song Huang, You Li, Xinyi Song, Hu Hui*, Jiru Zhong, 2020, Experimental and Numerical Investigation on Manufacturing Induced Material Inhomogeneity in Hydrogenation Reactor Shell,Journal of Pressure Vessels Technology—transactions of ASME, 142(5), 051504 (SCI, IF=1.0)

11.       Zhongqiang Zhou, Song Huang*, Hu Hui, Yalin Zhang, 2020, Estimation of Minimum Design Metal Temperature by MDMT Curve and Correlations of Charpy Impact and Fracture Toughness. Journal of Pressure Vessels Technology—transaction of ASME, 142(6), 061504 (SCI, IF=1.0)

12.       Chao Yang, Hu Hui, Song Huang*, 2020, Theoretical and Experimental Study on Sealing Performance of a Novel Ultra-high Pressure Bursting Disc. Journal of Process Mechanical Engineering, 235(22), 0954408920959893. (SCI, IF= 2.4)

13.       Song Huang, Zhiping Chen*, You Li, Delin Zhang. 2019, “Impact of Hot Bending on the High-Temperature Performance and Hydrogen Damage of 2.25Cr-1Mo-0.25V Steel” Journal of Materials Engineering and Performance, 28, 567–577(SCI, IF= 2.3)

14.       Song Huang, Zhiping Chen*, Wenqiang Su, et al. 2018, “Limit and Shakedown Analysis under Hydrogen Embrittlement Condition” Meccanica, 53(8): 2193-2208 (SCI, IF=2.7);

15.       Song Huang, Futeng Wan. Peng Jiao.& Zhiping Chen*. 2018, “A modified basis reduction method for limited kinematic hardening shakedown analysis under complex loads.” Mechanics Based Design of Structures and Machines, 46(1): 85-100 (SCI, IF=3.9);

16.       Song Huang, Zhiping Chen*, Wenqiang Su. 2017 “The Fatigue Threshold Computation of Steel in Hydrogen Environment by Shakedown Analysis”. Proceedingof Pressure Vessel and Piping Conference. ASME. (EI)

17.       Zhiping Chen*, Song Huang, and Haigui Fan. 2015, Strength and Stability Analysis of Double-Deck Floating Roof Under Wind Load. Proceedingof Pressure Vessel and Piping Conference. ASME. (EI)

18.       袁舒梦, 黄淞, 惠虎, 2022, 基于GB/T 34019标准与ASME VIII-3标准的钢制瓶式容器疲劳寿命分析,压力容器39(1)69-78.(中文核心)

19.       陈泽鸿,黄淞,惠虎,2022,金属内胆纤维环向缠绕储氢气瓶临界疲劳循环次数影响因素探究, 化工设备与管道59(4): 1-7. (中文核心)

20.       黄淞, 陈志平, 李尤, 2020, -机载荷作用下随动强化管道安定性分析的改进数值方法. 机械强度. 42(2):420-425.(中文核心)

21.       黄淞, 陈志平, 李尤, 苏文强, 唐小雨. 2019, 温卷成形对2.25Cr1Mo0.25V圆柱壳组织和力学性能的影响. 金属热处理. 44(5)77-82.(中文核心)

22.       宋昕宜, 黄淞, 惠虎, 宫建国,2020,液压成形不锈钢波节换热管外压失稳与其尺寸关系的研究,压力容器37(1)1-7.(中文核心)

 

发明专利

1.          陈志平,黄淞,唐小雨,苏文强. 一种临氢厚壁圆柱壳弹性极限载荷预测方法. 中国发明专利,专利号:201610668815.6 (已授权)

2.          陈志平,黄淞,徐烽,郑晨超. 一种临氢厚壁圆柱壳弹性应力应变的预测方法. 中国发明专利,专利号:201610670679.4 (已授权)

3.          陈志平,黄淞,万福腾. 一种考虑随动强化行为的承载件安定性载荷预测方法. 中国发明专利,专利号:201610056372.5 (已授权)

4.          黄淞, 惠虎. 一种加氢站用夹套式高压储氢装置,中国发明专利,专利号:202010963083.X(已授权)

5.          黄淞, 惠虎. 一种抗疲劳高压储氢容器,中国发明专利,专利号:202011117229.5(已授权)


网页发布时间: 2022-02-21