新疆时时彩开奖号码-重庆时时彩万能投注

王藝環，博士，國家公派加拿大卡爾加里大學訪問博士生，師從國務院特殊津貼專家張鵬教授與加拿大管道公司TC Energy首席管道完整性工程師Markus Dann教授，具備本領域世界領先課題組科研經驗。長期致力于結構可靠性評估與風險分析、能源管道結構完整性管理的研究，主持自然科學基金青年基金、中國博士后面上項目、四川省自然科學基金青年基金等多個國家與省級項目。近三年以第一作者/通訊作者在Tunn. Undergr. Space Technol.、Thin Wall. Struct.、Int. J. Pres. Ves. Pip.、Process Saf. Environ.、Eng. Fail. Ana.、天然氣工業等國內外知名期刊上發表近30余篇論文。一篇合作論文入選ESI熱點論文（前0.1%），兩篇合作論文入選ESI高被引（前1%）。天然氣工業 期刊青年同行評審及Eng. Struct. 、Reliab. Eng. Syst. Saf.、Compos. Struct.、Thin-Walled Struct.、Process Saf. Environ.、Int. J. Hydrogen Energ.、Ocean. Eng.、J. Petrol. Sci. Eng.等多個SCI期刊審稿人。

招生信息：

歡迎土木工程、土木水利、油氣儲運工程等相關背景的學生報考

具備能力：中英文閱讀與寫作能力；研究思維；上進心

提供資源：中英文論文的寫作指導；繼續學習深造的reference（本團隊或國內外院校）；足夠的科研經費

本科團隊：常年開放

工作經歷：

2025.3-至今 西南石油大學 土木工程與測繪學院 副教授

2022.4-2025.2 西南石油大學 土木工程與測繪學院 講師

2022.4-至今 四川省燃氣安全與高效利用工程技術研究中心 固定研究員

教育經歷：

2018.9-2021.12: 西南石油大學機械工程專業，博士研究生

2019.9-2021.3: 加拿大卡爾加里大學土木工程系，訪問博士研究生

2016.9-2018.6: 西南石油大學土木工程專業，碩士研究生

2012.9-2016.6: 西南石油大學土木工程專業，本科生

學術組織任職：

美國Buried Assets Management Institute（石油和天然氣青年委員會）秘書長

國際土木工程期刊《Journal of Infrastructure Preservation and Resilience》青年編委

《Energies》（SCI）客座編輯

NACE（美國腐蝕工程師協會）會員

ASME（美國機械工程師學會）會員

四川省機械協會會員

本科生：《房屋建筑學》（本科生課程及國際留學生課程）

研究生：《西方建筑史》

代表性論文（*通訊作者）：

[1] Wang, Y., Xia, A., Li, R., Fu, A., & Qin, G. Probabilistic modeling of hydrogen pipeline failure utilizing limited statistical data[J]. International Journal of Hydrogen Energy, 2024, 95, 1052-1066.

[2] Xu, T., Wang, Y.*, Qin, G., Qin. J. Probabilistic performance evaluation of buried onshore and offshore pipelines subjected to earthquakes: Perspectives on uncertainties[J]. Journal of Pipeline Systems Engineering and Practice, 2024,10.1061/JPSEA2.PSENG-1880.

[3] Wang, Y., Zhu, S., Wang, B., Qin, J., & Qin, G. Structural health monitoring of oil and gas pipelines: developments, applications and future directions[J]. Ocean Engineering, 2024,308, 118293.

[4] Wany Y. H., Zhang Z. W., et al. Importance sampling-based probabilistic performance modeling of low-, mid- and high-strength pipelines under coupling effect of hydrogen-induced damage and corrosion[J]. Process Safety and Environmental Protection. 2023, 180:428-442.

[5] Wang Y. H., Xia A. L., et al. Fuzzy Bayesian networks-based multidimensional risk assessment for leakage of blended hydrogen natural gas pipelines[J]. Journal of Pipeline Systems Engineering and Practice. 2024, 15(1):04024010.

[6] Wang Y. H., Li R.L., et al. An integrated modeling method of uncertainties: application-orientated fuzzy random spatiotemporal analysis of pipeline structures[J]. Tunnelling and Underground Space Technology, 2023, 136: 105101.

[7] Wang Y. H., Xia, A., et al. Probabilistic physical modeling of randomly corroded surface and its use in reliability analysis of corroded pipelines under spatiotemporal vibration[J]. Ocean Engineering, 2022, 262: 112219.

[8] Wang Y. H., Xia A. L., et al. Probabilistic modeling for reliability analysis of buried pipelines subjected to spatiotemporal earthquakes[J]. Probabilistic Engineering Mechanics, 2022: 103315.

[9] Wang Y. H., Dann M. R., et al. Reliability analysis of corroded pipelines considering 3D defect growth[J]. Thin-Walled Structures, 2020, 157: 107028.

[10] Wang Y. H., Zhang P., et al. Reliability assessment of pitting corrosion of pipeline under spatiotemporal earthquake including spatial-dependent corrosion growth[J]. Process Safety and Environmental Protection, 2021, 148: 166-178.

[11] Wang Y. H., Zhang P., et al. Reliability evaluation of local corrosion of X80 pipeline subjected to accidental earthquake considering geotechnical discontinuities[J]. International Journal of Pressure Vessels and Piping, 2021, 189: 104254.

[12] Wang Y. H.*, Zhang P., et al. Failure probability assessment and prediction of corroded pipeline under earthquake by introducing in-line inspection data[J]. Engineering Failure Analysis, 2020, 115: 104607.

[13] Wang Y. H.*, Hou X., et al. Reliability assessment of multi-state reconfiguration pipeline system with failure interaction based on Cloud inference[J]. Process Safety and Environmental Protection, 2020, 137: 116-127.

[14] Wang Y. H.*, Zhang P., et al. Non-probabilistic Time-dependent Reliability Analysis for Suspended Pipeline with Corrosion Defects Based on Interval Model [J] Process Safety and Environmental Protection, 2019, 124, 290-298.

[15] Qin, G., Zhang, C., Wang, B., Ni, P., Wang, Y.* (2025). An interpretable machine learning model for failure pressure prediction of blended hydrogen natural gas pipelines containing a crack-in-dent defect. Energy, 135401.

[16] Qin G., Huang Y., Wang Y. H.*, Y. Frank Cheng. Pipeline condition assessment and finite element modeling of mechano-electrochemical interaction between corrosion defects with varied orientations on pipelines[J]. Tunnelling and Underground Space Technology, 2023, 136, 10501.

[17] Qin G. J., Zhang Z. W., Hou X. Q., Lu H. F., Huang Y. F., Wang Y. H.*. Condition assessment of underground corroded pipelines subject to hydrogen damage and combined internal pressure and axial compression. Tunnelling and Underground Space Technology. 2023,142: 105389.

[18] Qin G., Xia A., Lu H., Li R., Wang Y. H.*, et al. A hybrid machine learning model for predicting crater width formed by explosions of natural gas pipelines[J]. Journal of Loss Prevention in the Process Industries, 2023, 82(4):104994.

[19] Qin G., Gong C., Wang Y. H.* A probabilistic-based model for predicting pipeline third-party hitting rate[J]. Process Safety and Environmental Protection, 2021, 148: 333-341.

[20] Zhang P., Wang Y. H.*, et al. A novel method to assess safety of buried pressure pipelines under non-random process seismic excitation based on cloud model[J]. Applied Sciences, 2019, 9(4): 812.

[21] Zhang P., Wang Y. H.*, Qin G.. Fuzzy damage analysis of the seismic response of a long-distance pipeline under a coupling multi-influence domain[J]. Energies, 2019, 12(1): 62.

[22] Hou X., Wang Y. H.*, et al. Non-probabilistic time-varying reliability-based analysis of corroded pipelines considering the interaction of multiple uncertainty variables[J]. Energies, 2019, 12(10): 1965.

[23] Qin G. J.*, Zhang P., Hou X., Wu S., Wang Y. H. Risk assessment for oil leakage under the common threat of multiple natural hazards[J]. Environmental Science and Pollution Research, 27(14): 16507-16520.

[24] Zhang P., Qin G. J.*, Wang Y. H. Optimal Maintenance Decision Method for Urban Gas Pipelines Based on as Low as Reasonably Practicable Principle [J]. Sustainability, 2019, 11(1): 153.

[25] Zhang P., Wang Y. H.*, et al. Dynamic Reliability of Buried Pressure Pipelines Subjected to Random Space-Time Earthquake Load[J]. International Journal of Performability Engineering, 2019, 15(1): 179.

[26] 張鵬, 王藝環*, et al.隨機時空地震載荷下長輸埋地壓力管道的響應分析[J].天然氣工業, 2018, 38(12): 120-127.

[27] 張鵬, 王藝環*, et al. 非隨機過程的地震激勵下埋地壓力管道的非概率可靠性分析[J]. 中國安全生產科學技術, 2018, 14(06): 134-141.

專利與軟著：

[1] 王藝環, 夏愛琳, 秦國晉, 黎芮伶. 引入內檢測數據的地震作用下腐蝕管道失效概率分析方法[P]. 中國發明專利, CN115358102B, 2023-01-31.

[2] 秦國晉, 黎芮伶, 王藝環, 夏愛琳, 黃云飛. 基于貝葉斯網絡的并行油氣管道多米諾效應風險分析方法[P]. 中國發明專利, CN115293656B,2023-04-07.

[3] 張鵬，王妮，蘇靈波，秦國晉，王藝環，楊旭，張雷，黃云飛. 一種長輸油氣管線維搶修過程的模擬方法[P]. 中國發明專利，CN 201711117862.2.

[4] 王藝環, 張鵬.懸空管道跨中有腐蝕缺陷的可靠度計算軟件.V1.0.登記號：2017SR422031.

[1] 國家自然科學基金青年基金, 52304258, 2024.01-至今, 主持。

[2] 第74批中國博士后科學基金面上資助, 2023M742246, 2024.01-至今, 主持。

[3] 四川省自然科學基金青年基金, 24NSFSC4245, 2024.01-至今, 主持。

[4] 中國地震局工力所開放基金, 2023D47, 2024.01-至今, 主持。

[5] 油氣藏地質及國家開發國家重點實驗室開放基金, PLN2022-36, 2022.09-至今, 主持。

[6] 西南石油大學“啟航計劃”項目, 2022QHZ001, 2022.11-至今, 主持。

研究領域：

土木工程領域：基于風險和可靠性的能源管道結構完整性管理。

石油與天然氣工程領域：能源管道安全運輸技術。

[1] “孫越崎科技教育基金優秀學生獎”, 2021年。

[2] “地質災害下油氣管道安全可靠性技術”, 2020年中國產學研合作創新與促進獎產學研合作創新成果獎, 2021年, 第8位。

[3] “Optimal maintenance decision method for urban gas pipelines based on as low as reasonably practicable principle”, 首屆川渝科學技術大會優秀論文二等獎, 2020年