论文:
[1] Shengshan Chen, Li Chen, Pengxiang Zhou, Huaping Shan, Jianguo Zhang, Fei Guo*. Development and validation of a fluid-solid coupling model for rotary lip seals under grease lubrication. ASME Journal of Tribology, 2025.
[2] Shengshan Chen, Fei Guo*, Wentao Wang, Yuming Wang. An improved mixed lubrication model for revealing the mechanism of high speed and frictional heat on sealing performance. Tribology International, 2024.
[3] Shengshan Chen, Xiuli Yang, Fei Guo*, Bo Zhang, Wentao Wang, Yuming Wang. Sealing performance evaluation and structural optimization for reducing leakage failures of lip seal considering high-speed rotation frictional heat. Tribology Transactions, 2024.
[4] Shengshan Chen, Ganlin Cheng, Fei Guo*, Xiaohong Jia, Xiaohao Wen. Integrating Friction Noise for In-Situ Monitoring of Polymer Wear Performance A Machine Learning Approach in Tribology. ASME Journal of Tribology, 2024.
[5] Pengbing Wang, Shengshan Chen, Yongjian Li, Lin Yang, Haiku Zhang, Fei Guo*. Effect of rotating shaft vibration on lip seal performance. Tribology International,2024.
[6] Fan Zhang, Shengshan Chen, Weichu Zeng, Ping Deng, Peng Zhang, Xiaohong Jia, Fei Guo. Three-part superposition quasi-static stress model for PTFE across a broad low-temperature range based on ZWT and higher-order stress corrections. Materials Today Communications, 2024.
[7] Shengshan Chen, Fei Guo*, Ganlin Cheng, Chong Xiang, Yuming Wang. Evolution of the low-temperature tribological performance of polychlorotrifluoroethylene and polyimide. Tribology International, 2023.
[8] Honghao Zhao, Jiming E, Shengshan Chen*, Ganlin Cheng, Fei Guo*. Prediction of friction coefficient of polymer surface using variational mode decomposition and machine learning algorithm based on noise features. Tribology International,2023.
[9] Zhihong Huang, Hanxiang Wang, Shengshan Chen*, Yanxin Liu, Jiaqi Che, Fanqing Shang, Jiachun Liu. Numerical study on improving the performance of a descaling tool for solving scale failure in oil and gas wellbore. AIP Advances, 2022.
[10] Shengshan Chen, Hanxiang Wang*, Yanxin Liu, Wenjian Lan, Xiaoxiao Lv. Experimental investigation of frost heave force on tubing and casing. Journal of Physics: Conference Series, 2021.
[11] Shengshan Chen, Hanxiang Wang*, Yuting Wang, Yanxin Liu, Xin Zhang, Xiaoxiao Lv, Wenjian Lan. Residual mechanical strength evaluation of corroded tubing in cryogenic carbon dioxide injection wellbore. Journal of Petroleum Science and Engineering, 2020.
[12] Shengshan Chen, Hanxiang Wang*, Hao Jiang, Ya-nan Liu, Yanxin Liu, Xiaoxiao Lv. Risk assessment of corroded casing based on analytic hierarchy process and fuzzy comprehensive evaluation. Petroleum Science, 2020.
[13] Shengshan Chen, Hanxiang Wang*, Yanxin Liu, Wenjian Lan, Xiaoxiao Lv, Bingyu Sun, Dexin Yuan. Root cause analysis of tubing and casing failures in low-temperature carbon dioxide injection well. Engineering Failure Analysis, 2019.
[14] 蔡鲲鹏, 臧晓蓓, 陈升山, 郭飞. 推进剂管路系统深低温垫片密封性能数值分析. 清华大学学报(自然科学版), 2024.
[15] 纪佳馨,杨志康,张帆, 陈升山, 王跃明, 郭飞.石油井安全阀弹簧蓄能密封性能分析及结构优化.润滑与密封, 2023.
[16] Xiaoxiao Lv, Hanxiang Wang*, Yanxin Liu, Shengshan Chen, Wenjian Lan, Bingyu Sun. A novel method of output metering with dynamometer card for SRPS under fault conditions. Journal of Petroleum Science and Engineering, 2020.
[17] Bingyu. Sun, Hanxiang Wang*, Yanxin Liu, Wenjian Lan, Shengshan Chen, Xiaoxiao Lv, Ming Cheng. Experimental and numerical analysis of solid particle erosion on grinding tool in polymer-flooding wastewater treatment. Engineering Failure Analysis, 2020.
[18] Wenjian Lan, Hanxiang Wang*, Xin Zhang, Shengshan Chen. Sealing properties and structure optimization of packer rubber under high pressure and high temperature. Petroleum Science, 2019.
[19] 王旱祥, 吕孝孝*, 刘延鑫, 陈升山, 兰文剑. 碳纤维抽油杆采油系统柱塞超冲程产生机理. 石油学报, 2019.
[20] 吕孝孝, 王旱祥*, 刘延鑫, 陈升山, 孙秉宇. 故障工况下有杆泵采油系统运行特性及示功图研究. 中国石油大学学报 (自然科学版), 2019.
[21] Wenjian Lan, Hanxiang Wang*, Siyu Yang, Chao Zheng, Yanxin Liu, Shengshan Chen. Study on the migration of pulverized coal in CBM wellbore. Journal of Petroleum Science and Engineering, 2017.
[22] Hanxiang Wang, Shengshan Chen*, Yanxin Liu, Lijun Zhang, Zhenning Zhang. Numerical simulation and experimental validation for design improvement of packer rubber. International Journal Simulation and Process Modelling, 2017.
[23] 陈升山, 王旱祥*, 李 强, 庞 斌, 杨生荣, 刘延鑫, 张 辛. 高压防漏失阀结构设计及密封性能研究. 石油机械, 2016.
专利:
[1] 陈升山; 郭飞; 张羽; 王玉明; 周凤葆; 黄毅杰; 张帆. 承压装置和液压系统: ZL202311184519.5
[2] 王旱祥; 陈升山; 刘延鑫; 吴超.一种高温高压水平井封隔器模拟试验装置: ZL201710532191.X
[3] 王旱祥; 陈升山; 刘延鑫. 自封隔双通道液控无级压裂滑套装置: ZL201710799110.2
[4] 王旱祥; 陈升山; 刘延鑫; 朱晓洋. 液控增压膨胀管自动膨胀装置: ZL201811547246.5
[5] 吕孝孝; 陈升山; 杨红德; 尤智雄; 孙秉宇. 一种新型冗余式抽油泵固定阀: ZL201720220229.5
[6] 吕孝孝; 陈升山; 刘延鑫; 杨红德; 孙秉宇. 投捞式多用途抽油泵固定阀: ZL201720261851.0
[7] 郭飞; 陈升山; 周凤葆; 王鹏兵; 张羽; 王玉明. 密封结构和机械装置: ZL202311575200.5
[8] 郭飞; 张帆; 陈升山; 王鹏兵; 贾晓红. 密封件截面扭转的测量装置及方法: ZL202311676474.3
[9] 郭飞; 张帆; 陈升山; 王鹏兵; 唐铖; 贾晓红. 弹性密封装置: ZL202311677042.4
[10] 郭飞; 张帆; 陈升山; 王鹏兵; 唐铖; 贾晓红. 密封装置: ZL202311677020.8
[11] 郭飞; 张帆; 陈升山; 王鹏兵; 唐铖; 贾晓红. 弹性密封结构: ZL202311675933.6
[12] 郭飞; 张帆; 陈升山; 王鹏兵; 唐铖; 贾晓红. 自适应压力密封装置: ZL202311677056.6
[13] 郭飞; 王鹏兵; 陈升山; 唐铖; 李永健. 回转油封测试装置: ZL202410132338.6
[14] 郭飞; 张帆; 陈升山; 黄毅杰; 王鹏兵; 唐铖; 贾晓红. 机械设备及密封组件: ZL202410303009.3
[15] 郭飞; 张帆; 陈升山; 黄毅杰; 王鹏兵; 唐铖; 贾晓红. 弹性蓄能密封组件及机械设备: ZL202410304376.5
[16] 郭飞; 张帆; 陈升山; 黄毅杰; 王鹏兵; 唐铖; 贾晓红. 夹具: ZL202410303399.4
[17] 王旱祥; 车家琪; 苑得鑫; 张立军; 陈升山; 刘延鑫. 压裂用连续式半球形混砂装置: ZL201510215615.0
[18] 王旱祥; 孙秉宇; 程铭; 刘延鑫; 兰文剑; 陈升山. 一种聚合物驱采油污水处理装置: ZL201910767453.X
[19] 郭飞; 程甘霖; 陈秉哲; 项冲; 黄毅杰; 陈升山; 李永健; 贾晓红; 王玉明. 摩擦性能的确定方法及摩擦试验设备: ZL202210505395.5
[20] 郭飞; 程甘霖; 陈秉哲; 项冲; 黄毅杰; 陈升山; 李永健; 贾晓红; 王玉明. 调温试验装置: ZL2022105004337.0
[21] 郭飞; 张帆; 王鹏兵; 黄毅杰; 陈升山; 贾晓红. 弹性密封组件: ZL202311675961.8
[22] 郭飞; 程甘霖; 陈秉哲; 项冲; 黄毅杰; 陈升山; 李永健; 贾晓红; 王玉明. 材料试验机: ZL202210504532.3
[23] 郭飞; 黄毅杰; 项冲; 程甘霖; 陈升山; 贾晓红; 王玉明. 密封性能试验设备: ZL202210678451.5
[24] 郭飞; 张帆; 张旭; 赵韬硕; 陈升山; 贾晓红. 自紧式密封装置及密封组件: ZL202410641120.3
[25] 郭飞; 黄毅杰; 项冲; 程甘霖; 陈升山; 贾晓红; 王玉明. EQUIPMENT FORSEALING-PERFORMANCE TEST: US17812169
[26] 郭飞; 程甘霖; 陈秉哲; 项冲; 黄毅杰; 陈升山; 李永健; 贾晓红; 王玉明. MATERIAL TESTING MACHINE: US17868741
