1. 国家自然科学基金联合基金重点项目:风化岩基海域大容量海上风机耐久结构“数字-力学孪生”智能运维理论研究(课题主持)
2. 国家自然科学基金面上项目:深海夹层管J型铺设耦合动力响应机理及预测控制研究(主持)
3. 国家自然科学基金青年项目:计及与托管架和海床接触耦合效应的深海管道S型铺设整体动力特性研究(主持)
4. 福建省自然科学基金面上项目:深海J型铺设管道与斜坡海床土动力耦合及响应机理研究(主持)
5. 福建省自然科学基金青年项目:基于管土耦合效应的钢悬链线立管触地区疲劳损伤机理研究(主持)
6. 福建省教育厅中青年教师教育科研基金项目:海洋油气管道S型铺设的管土动力耦合作用机理研究(主持)
7. 必赢76net线路人才引进科研启动基金:深海S型铺设海底管道动力响应特性与安全调控研究(主持)
8. 国家科技重大专项项目课题:海洋石油201船铺管动力计算分析技术研究(技术骨干)
9. 技术服务:海上风电大直径新型钢混组合单桩基础承载力及加强设计关键技术研究
10. 技术服务:大容量深远海漂浮式风电基础关键技术研究
11. 技术服务:近海环境桩板结构在波浪作用下整体动力性能研究
12. 技术服务:海上漂浮式光伏系泊系统水动力分析及优化研究
1. Xu Pu, Hu Yiming, Wang Xipeng, et al. Refined VFIFE modeling on dynamic behaviours of deepwater S-lay pipeline in overbend section. Ocean Engineering, 2024, 302: 117698.
2. Xu Pu,Zheng Jixiang,Lai Xiaohe, et al. Pipe-soil interaction behaviors of deepwater J-lay pipeline on sloping seabed. Applied Ocean Research. 2023, 141:103806.
3. Xu Pu, Du Zhixin, Zhang Ting, et al. Vector form intrinsic finite element analysis of deepwater J-laying pipelines on sloping seabed. Ocean Engineering, 2022, 247:110709.
4. Xu Pu, Du Zhixin, Huang Fuyun, et al. Numerical simulation of deepwater S-lay and J-lay pipeline using vector form intrinsic finite element method. Ocean Engineering, 2021, 234:109039.
5. Xu Pu, Hu Yiming, Ruan Weidong, et al. Influence of buoyancy section on dynamic behaviors of deep-sea steel lazy-wave riser. China Ocean Engineering, 2024.
6. Xu Pu, Zhang Zirui, Li Siliang, et al. Numerical investigation on dynamic responses of floating photovoltaic platform and mooring line structures under freak waves. Journal of Marine Science and Engineering, 2024, 12(1): 96.
7. Xu Pu, Gong Shunfeng. Pipelay parametric investigation of pipeline dynamic behaviours for deepwater S-lay operation. Ships & Offshore Structures, 2020, 15(10): 1141-1155.
8. Xu Pu, Du Zhixin, Gong Shunfeng. Numerical investigation into freak wave effects on deepwater pipeline installation. Journal of Marine Science and Engineering, 2020, 8(2): 119.
9. Xu Pu, Gong Shunfeng. Numerical investigation of deepwater S-lay pipeline under freak waves. Journal of Offshore Mechanics and Arctic Engineering, 2020, 142: 041803.
10. Xu Pu, Gong Shunfeng, Zhang Ting, et al. Parametric study on dynamic tension behaviour of offshore pipeline for deepwater S-lay operation. Proceedings of the 3rd International Conference on Architectural, Civil and Hydraulics Engineering. Kunming, China, 2017.
11.Ruan Weidong, Chen Miaoyi, Nie Qinglin, Xu Pu, Li Jiantao. Dynamic response of steel lazy wave riser considering the excitation of internal solitary wave and ocean currents. Ocean Engineering, 2024, 294: 116708.
12.Wang Xipeng, Wang Chuangyi, Yuan Lin, Xu Pu, Ding Zhi. Predictions of failure mode and arresting efficiency of integral buckle arrestors using FEM and machine learning methods. Engineering Failure Analysis, 2024, 159: 108096.
13.Wang Xipeng, Yuan Lin, Xu Pu, Ding Zhi, Wang Yingying, Gong Shunfeng. Evaluation of dynamic behaviour of pipe-in-pipe system for deepwater J-lay method. Applied Ocean Research, 2024, 153, 104229, 1-17.
14. Gong Shunfeng, Xu Pu. Influences of pipe–soil interaction on dynamic behaviour of deepwater S-lay pipeline under random sea states. Ships & Offshore Structures, 2017, 12(3):370-387.
15.Gong Shunfeng, Xu Pu. The influence of sea state on dynamic behaviour of offshore pipeline for deepwater S-lay. Ocean Engineering, 2016. 111: 398-413.
16.Gong Shunfeng, Xu Pu, Bao Sheng, et al. Numerical modelling on dynamic behaviour of deepwater S-lay pipeline. Ocean Engineering, 2014. 88: 393-408.
17. 徐普,谌颖琪,宋启明,刘蔚. 风浪流联合作用下“风力机-光伏-网箱”浮式综合平台动力响应分析, 太阳能学报. 2024.
18. 徐普, 张晟宇, 郑中凯, 邱俊峰. 卷破波冲击新型桩板桥梁结构水动力特性试验研究. 振动与冲击, 2024, 43(7): 355-364.
19.徐普,谢靖,杜志新. 深海J型铺设双层管动力响应影响分析.船舶力学. 2023, 27(4): 548-557.
20.徐普,黎思亮,宋启明,赖福梁. 深水漂浮式光伏平台系泊结构动力响应分析.太阳能学报. 2023, 44(10): 156-164.
21.徐普,龚顺风,杜志新. 深海双层管S型铺设动力响应分析.船舶力学. 2020, 24(9): 1205-1214.
22.程劲凯,徐普,陈宝春,赖福梁,宋启明. 畸形波作用下半潜浮式风机系泊失效停机响应分析. 海洋工程. 2022, 40(4): 102-111.
23.赖焕生,徐普,刘康林. 含门槛应力P91钢蠕变裂纹尖端C*值和应力场的估算. 船舶力学. 2020, 24(11): 1462-1469.