| 王志文 博士 副教授 碩士生導師 辦公電話:18742510701 通訊地址:402永利手机版网址機電樓315-1室 電子郵箱:wzw@dlmu.edu.cn或wzwdlmu@163.com |
教育背景
2012.09 — 2018.03 大連海事大學,輪機工程專業,博士
2015.10 — 2016.10 加拿大溫莎大學,機械、汽車與材料工程,聯培博士
2008.09 — 2012.07 大連海事大學,輪機工程專業,學士
工作履曆
2021.07 — 至今 402永利手机版网址,機械工程系,副教授
2018.07 — 2021.07 402永利手机版网址,機械工程系,講師
研究領域
儲能:海底儲能(壓縮氫氣與锂電池)、壓縮空氣儲能
氣動:氣壓傳動系統節能與故障診斷、新型氣動元器件設計
科研項目
[1] 2024.07-2025.06,SMC國際合作委托項目,基于機器學習的氣動系統低冗餘故障診斷研究,主持
[2] 2021.01-2024.12,國家自然科學基金面上項目,規模化水下壓縮氣體儲能中氣液兩相流流動及其誘導振動特性研究,參與
[3] 2020.01-2022.12,國家自然科學基金青年項目,基于儲能和高等㶲理論的氣動系統恒壓儲氣節能機理研究,主持
[4] 2019.04-2020.03,SMC國際合作委托項目,氣壓傳動系統儲能節能關鍵技術研究,主持
[5] 2015.10-2017.10,NSERC Energy Storage Technology Network Project,Design and testing of an innovative energy accumulator for underwater compressed air energy storage,參與(Outstanding PhD Student)
學術成果
論文發表
[1] Wang Z, Wang H, Sant T, Zhao Z, Carriveau R, Ting DSK, Li P, Zhang T, Xiong W. Subsea energy storage as an enabler for floating offshore wind hydrogen production: Review and perspective. International Journal of Hydrogen Energy, 2024, 71: 1266-1282.
[2] Wang H, Wang Z, Ting DSK, Carriveau R, Sant T, Xiong W. Structural strength and fatigue analyses of large-scale underwater compressed hydrogen energy storage accumulator. Marine Structures, 2024, 98: 103684.
[3] Zhao Z, Xiong W, Wang H, Sant T, Carriveau R, Ting DSK, Wang Z. Simulation of a decentralized offshore wind hydrogen production system with hydro-pneumatic energy storage and subsea isobaric hydrogen storage. The 8th Offshore Energy & Storage Symposium, July 10-12, 2024, New Bedford, Massachusetts, US.
[4] Wang H, Xiong W, Carriveau R, Ting DSK, Sant T, Wang Z. Numerical Analysis of Uplift Bearing Capacity of Composite Suction Caisson Foundation Used For Large-scale Underwater Compressed Gas Energy Storage. The 8th Offshore Energy & Storage Symposium, July 10-12, 2024, New Bedford, Massachusetts, US.
[5] Zhang C, Wang Z, Yu L, Zhao Z, Wang F, Xiong W. Leakage Detection in Pneumatic Systems with Machine Learning and Upstream Single-Point Signals. International Journal of Fluid Power, 2024, 25(4). doi: 10.13052/ijfp1439-9776.2541
[6] Zhao Z, Wang Z, Wang H, Carriveau R, Ting DSK, Xiong W. An exergy-based efficiency analysis framework for industrial pneumatic systems. International Journal of Exergy, 2024, 44: 33-52.
[7] Liang C, Xiong W, Wang H, Carriveau R, Ting DSK, Li P, Wang Z. Identification and maximum impact force modeling investigation for critical slugging in underwater compressed gas energy storage systems. Journal of Energy Storage, 2023, 67: 107550.
[8] Wang H, Xiong W, Liang C, Carriveau R, Ting DSK, Wang Z. Design and modal analysis of a large-scale underwater compressed gas energy storage accumulator. 7th Offshore Energy & Storage Symposium (OSES 2023), 12-14 July 2023, St. Julian's, Malta.
[9] Liang C, Xiong W, Wang H, Carriveau R, Ting DSK, Wang Z. Identification of slug flow in underwater compressed gas energy storage pipeline using pressure signals. 7th Offshore Energy & Storage Symposium (OSES 2023), 12-14 July 2023, St. Julian's, Malta.
[10] Liang C, Xiong W, Wang M, Ting DSK, Carriveau R, Wang, Z. Experimental and Modeling Investigation for Slugging Pressure under Zero Net Liquid Flow in Underwater Compressed Gas Energy Storage Systems. Appl. Sci., 2023, 13: 1216.
[11] Wang M, Xiong W, Liang C, Wang H, Wang Z. Experimental analysis on vibration characteristics of reduced scale gas transportation pipeline with liquid accumulation. IEEE 9th International Conference on Fluid Power and Mechatronics (FPM), 18-21 August 2023, Lanzhou, China.
[12] 王虎, 王志文, 熊偉. 基于AMESim的水下大型氣液混合儲能系統運行特性分析. 液壓與氣動, 2023, 47(11): 120-127.
[13] 梁成玉, 熊偉, 王美玲, 王志文. 水下壓縮氣體儲能管道振動特性分析. 液壓與氣動, 2023, 47(10): 78-84.
[14] Wang Z, Xiong W. An Energy-Health-Quality Synergetic Management Framework for Pneumatic Systems Based on Exergy and Machine Learning. IEEE 9th International Conference on Fluid Power and Mechatronics (FPM), 18-21 August 2023, Lanzhou, China.
[15] Wang Z, Yang B, Ma Q, Wang H, Carriveau R, Ting DSK, Xiong W. Facilitating Energy Monitoring and Fault Diagnosis of Pneumatic Cylinders with Exergy and Machine Learning. International Journal of Fluid Power, 2023, 24(4): 643-682.
[16] Wang Z, Zhu H, Xiong W. Low-cost Fault Diagnosis of Pneumatic Systems with Exergy and Machine Learning: Concept, Verification, and Interpretation. JFPS International Journal of Fluid Power System, 2023, 16(2): 24-32.
[17] 朱宏偉, 王志文, 楊波, 王虎, 熊偉.基于上遊單點測量信息和機器學習的氣動系統并聯雙氣缸洩漏故障診斷. 液壓與氣動, 2023, 47(7): 73-82.
[18] Zhu H, Wang Z, Wang H, Zhao Z, Xiong W. Leakage Fault Diagnosis of Two Parallel Cylinders in Pneumatic System with a Minimal Number of Sensors. Electronics, 2023, 12: 3261.
[19] Zhao Z, Wang Z, Wang H, Xiong W. Energy Efficiency Analysis of Pneumatic Vacuum Generators Based on the Exergy Field Method. IEEE 9th International Conference on Fluid Power and Mechatronics (FPM), 18-21 August 2023, Lanzhou, China.
[20] 楊波, 王志文, 馬茜, 王虎, 熊偉. 基于自編碼器和支持向量機的氣壓傳動系統氣缸洩漏故障診斷. 液壓與氣動, 2023, 47(2): 72-79.
[21] Wang H, Wang Z, Liang C, Xiong W. Techno-Economic Assessment of an Offshore Wind Turbines-Underwater Compressed Hydrogen Energy Storage System. IEEE 9th International Conference on Fluid Power and Mechatronics (FPM), 18-21 August 2023, Lanzhou, China.
[22] Zhao Z, Wang Z, Wang H, Zhu H, Xiong W. Conventional and Advanced Exergy Analyses of Industrial Pneumatic Systems. Energies, 2023, 16: 5982.
[23] Liang C, Xiong W, Carriveau R, Ting DSK, Wang Z. Experimental and modeling investigation of critical slugging behavior in marine compressed gas energy storage systems. Journal of Energy Storage, 2022, 49: 104038.
[24] Liang C, Xiong W, Wang Z. Flow characteristics simulation of concave pipe with zero net liquid flow. Energy Reports, 2022, 8: 775-782.
[25] Wang H, Wang Z, Liang C, Carriveau R, Ting DSK, Li P, Cen H, Xiong W. Underwater Compressed Gas Energy Storage (UWCGES): Current Status, Challenges, and Future Perspectives. Appl. Sci., 2022, 12: 9361.
[26] 劉鑫宇, 趙保準, 王志文, 熊偉. 低溫環境中熱沖擊載荷對電液伺服比例閥動态性能影響測試. 液壓與氣動, 2022, 46(5): 196-202.
[27] 杜寶庫, 熊偉, 度紅望, 王志文. 南海海難救援中救助飛機的優選研究. 中國航海, 2022, 45(2): 128-133.
[28] Tong Z, Wang H, Xiong W, Ting DSK, Carriveau R, Wang Z. Accumulated and transient exergy analyses of pneumatic systems with isochoric and isobaric compressed air storage tanks. Energy Storage, 2021, 3(6): e269.
[29] Wang H, Tong Z, Dong X, Xiong W, Ting DSK, Carriveau R, Wang Z. Design and energy saving analysis of a novel isobaric compressed air storage device in pneumatic systems. Journal of Energy Storage, 2021, 38: 102614.
[30] 王虎, 王志文, 童鄭人, 董欣, 熊偉. 恒壓式氣動儲氣裝置設計與仿真分析. 液壓與氣動, 2021, 45(5): 39-43.
[31] Wang Z, Wang J, Cen H, Ting DSK, Carriveau R, Xiong W. Large-eddy simulation of a full-scale underwater energy storage accumulator. Ocean Engineering, 2021, 234: 109184.
[32] 姜忠愛, 熊偉, 張啟晖, 度紅望, 王志文. 橋式氣動回路節能方法實驗系統研究. 液壓與氣動, 2021, 45(1): 92-98.
[33] Hu B, Wang Z, Du H, Carriveau R, Ting DSK, Xiong W, Wang Z. Response Characteristics of Flexible Risers in Offshore Compressed Air Energy Storage Systems. Journal of Marine Science and Application, 2019, 18: 353-365.
[34] Wang Z, Ting DSK, Carriveau R, Xiong W, Wang Z. Numerical and experimental investigation of flow around a balloon-shaped bluff body. Sustainable Energy Technologies and Assessments, 2019, 35: 80-88.
[35] Wang Z, Wang J, Jiang Z, Xiong W, Du H, Wang Z. Energy-saving performance of isobaric compressed air storage receivers in pneumatic systems. The 8th International Conference of Fluid Power and Mechatronic, 2019, Wuhan, China.
[36] Wang Z, Xiong W, Ting DSK, Carriveau R, Wang Z. Energy, exergy and sensitivity analyses of underwater compressed air energy storage in an island energy system. International Journal of Energy Research, 2019, 43: 2241-2260.
[37] Wang Z, Carriveau R, Ting DSK, Xiong W, Wang Z. A review of marine renewable energy storage. International Journal of Energy Research, 2019, 43: 6108-6150.
[38] Wang Z, Du H, Xiong W, Wang Z, Carriveau R, Ting DSK. A preliminary techno-economic assessment of a hybrid energy system with battery-UWCAES energy storage in an island. Fifth International Conference on Offshore Energy and Storage, July 4 - 6, 2018, Ningbo, China.
[39] Wang Z, Xiong W, Ting DSK, Carriveau R, Wang Z. Comparison of underwater and underground CAES systems for integrating floating offshore wind farms. Journal of Energy Storage, 2017, 14: 276-282.
[40] Wang Z, Xiong W, Ting DSK, Carriveau R, Wang Z. Conventional and advanced exergy analyses of an underwater compressed air energy storage system. Applied Energy, 2016, 180: 810-822.
[41] Wang Z, Xiong W, Wang H, Wang Z. Exergy analysis of the pneumatic line throwing system. International Journal of Exergy, 2016, 19: 364-379.
[42] Wang Z, Ting DSK, Carriveau R, Xiong W, Wang Z. Design and thermodynamic analysis of a multi-level underwater compressed air energy storage system. Journal of Energy Storage, 2016, 5: 203-211.
[43] 王志文, 熊偉, 王海濤, 王祖溫. 水下壓縮空氣儲能研究進展. 儲能科學與技術, 2015, 4(6): 585-598.
發明專利
[1] 一種防海水腐蝕和海洋生物附着的閉式水下壓縮氣體儲能裝置,CN202311343961.8
[2] 一種海上風電制氫聯合水下高壓氣态儲氫的綠氫供應系統,CN202311328331.3
[3] 一種大型水下壓縮氣體儲能裝置,CN202310229491.6
[4] 一種無輸氣管道的水下大型氣液混合儲能系統及方法,CN202310229466.8
[5] 一種具有儲能功能的海上風電固定式基礎,CN202310205523.9
[6] 一種規模化水下天然氣存儲系統及方法,ZL2020101531037
[7] 一種恒壓變容式氣動系統儲氣裝置,ZL2020103175304
[8] 一種水下油氣存儲裝置,ZL2020108210018
[9] 一種壓縮空氣㶲測量分析方法與系統,CN202311784072.5
儲能獲獎
[1] 2024年工程建設科學技術獎科學技術進步獎一等獎(排名5)
[2] 2023年度電力建設科學技術進步獎一等獎(排名3)
[3] 2023年度中國電力建設集團有限公司科學技術獎一等獎(排名8)
講授課程
[1] 熱工基礎,本科生
[2] 多能域物理系統建模仿真,研究生
[3] 學術規範與論文寫作,研究生
學術兼職
[1] Technical Committee Member of Offshore Energy and Storage Society
[2] 中國機械工程學會流體傳動與控制分會氣動專業委員、特種流控專業委員
[3] External Expert of Turbulence & Energy Lab in University of Windsor, Canada
[4] 客座編輯:IET Renewable Power Generation特刊Offshore Energy and Storage 2023 - Sea Opportunity,Applied Sciences特刊Techniques and Applications of Underwater and Underground Energy Storage Systems,Sustainability特刊Terrestrial and Offshore Islanded Energy Systems
[5] 審稿人:機械工程學報、Chinese Journal of Mechanical Engineering、Energy Conversion and Management、Journal of Energy Storage、Renewable and Sustainable Energy Reviews、Renewable Energy、Sustainable Energy Technologies and Assessments、Energy Reports、IET Renewable Power Generation、Case Studies in Thermal Engineering、International Journal of Fluid Power、Ocean Engineering……