所在系、专业：安全工程系、安全科学与工程

职务/职称/导师级别：学院学科建设工作专项助理、城市公共安全与防灾减灾学科研究方向负责人、安全工程系支部副书记/副教授/硕士生导师

教育经历

1.2014/09-2019/06中国石油大学(华东)，安全科学与工程，博士

2.2010/09-2016/06中国石油大学(华东)，安全工程， 学士

工作经历

2019年06月至今，十大信誉赌博官网平台教师

社会兼职

1.中国钢结构协会海洋钢结构分会理事

2.西安市科技专家

3.油气储运期刊青年编委

4.海洋工程装备与技术期刊青年编委

5.石油科学通报执行编委

6.Process Safety and Environmental Protection学科编辑(风险评估与可靠性工程、工艺管道与储罐安全)

7.Journal of Hazardous materials、Reliability Engineering and System Safety、Process Safety and Environmental Protection、Journal of Loss Prevention in the Process Industries、Fire Safety Journal、Ocean Engineering、AppliedOceanResearch、中国安全科学学报、中国安全生产科学技术、油气储运、油气田地面工程等国内外学术期刊审稿人

8.中国指挥与控制协会安全防护与应急管理专业委员会委员

9.AIChE会员

10.西安市特种设备安全节能环保协会专家委员会委员

11.中国石油学会石油储运专业委员会青年工作部委员

开设课程

安全数值计算方法(研究生)

安全管理信息系统(本科生)

研究方向

主要从事油气管道风险与可靠性、动态及智能化风险评估理论与方法方面的研究，具体包括：

1.油气管道安全可靠性与风险评估；

2.油气泄漏连锁事故模拟；

3.老龄资产完整性管理与安全决策；

4.动态及智能化风险评估理论与方法。

代表性成果

一、项目

1.国家自然科学基金青年项目(52004195)，2021/01-2023/12，主持

2.中国博士后科学基金资助项目(2020M673355)，2020/04-2022/03，主持

3.陕西省社科界重大理论与现实问题研究项目(2020Z188)，2020/01-2021/05，主持

4.陕西省教育厅专项科研计划项目(20JK0729)，2020/01- 2021/12，主持

5.海岸和近海工程国家重点实验室开放基金(LP2021)，2020/08-2022/07，主持

6.石油管材及装备材料服役行为与结构安全国家重点实验室开放基金(2020K-5)，2020/08-2020/12，主持

7.海洋物探及勘探设备国家工程实验室开放基金，2020/05-2022/04，主持

8.陕西省科学技术协会：西部能源、环境与安全青年学者论坛，2021/06-2021/12，主持

9.陕西省高校科协青年人才托举计划项目(20220429)，2023/01-2024/12，主持

10.西安建筑科大工程技术有限公司研发项目(XAJD-YF22N016)，2021/06-2021/12，主持

11.海底工程技术与装备国际联合研究中心开放基金(3132022355)，2022/01-2022/12，主持

12.2020年度本科教学自制仪器设备项目：固液两相流管材冲蚀磨损实验装置，2021/1-2021/12

13.教育部产学研融合项目：基于Simdroid平台的《安全工程数值模拟方法》课程教学改革，2022/7

二、论文

[1]Li Xinhong,Abbassi Rouzbeh, Meng Huixing. Safety and risk analysis in digitalized process operations[J]. Process Safety and Environmental Protection, 2022,166: 212-213.

[2]Li Xinhong,Jingwen Wang, Chen Guoming. A machine learning methodology for probabilistic risk assessment of process operations: A case of subsea gas pipeline leak accidents[J]. Process Safety and Environmental Protection, 2022, 165: 959-968.

[3]LiXinhong, Guo Mengmeng, Zhang Renren, et al. A data-driven prediction model for maximum pitting corrosion depth of subsea oil pipelines using SSA-LSTM approach[J]. Ocean Engineering, 2022, 261: 112062.

[4]LiXinhong, Zhao Han, Zhang Renren. Data-driven dynamic failure assessment of subsea gas pipeline using process monitoring data[J]. Process Safety and Environmental Protection, 2022,166: 1-10.

[5]LiXinhong, Han Ziyue, Yazdi Mohamed, et al. A CRITIC-VIKOR based robust approach to support risk management of subsea pipelines[J]. Applied Ocean Research, 2022,124: 103187.

[6]Li Xinhong, ZhuYujiao, Abbassi Rouzbeh, et al. A probabilistic framework for risk management and emergency decision-making of marine oil spill accidents [J]. Process Safety and Environmental Protection, 2022, 162: 932-943.

[7]Li Xinhong,Jingwen Wang, Abbassi Rouzbeh, et al. A risk assessment framework considering uncertainty for corrosion-induced natural gas pipeline accidents[J]. Journal of Loss Prevention in the Process Industries, 2022, 75: 104718.

[8]Li Xinhong, Jia Ruichao, Zhang Renren, et al. A KPCA-BRANN based data-driven approach to model corrosion degradation of subsea oil pipelines[J]. Reliability Engineering & System Safety, 2022,219: 108231.

[9]Li Xinhong, Khan Faisal, Yang Ming, et al. Risk assessment of offshore fire accidents caused by subsea gas release[J]. Applied Ocean Research, 2021,115:102828.

[10]Li Xinhong, Zhang Luyao, Khan Faisal, et al. A data-driven corrosion prediction model to support digitization of subsea operations[J]. Process Safety and Environmental Protection, 2021,153:413-421.

[11]Li Xinhong, Zhang Yi, Abbassi Rouzbeh, et al. Probabilistic fatigue failure assessment of free spanning subsea pipeline using dynamic Bayesian network[J]. Ocean Engineering, 2021,234:109323.

[12]Li Xinhong, Zhang Luyao, Zhang Renren, et al. A semi-quantitative methodology for risk assessment of university chemical laboratory[J]. Journal of Loss Prevention in the Process Industries, 2021,72:104553.

[13]Li Xinhong, Zhang Yi, Abbassi Rouzbeh, et al. Dynamic probability assessment of urban natural gas pipeline accidents considering integrated external activities[J]. Journal of Loss Prevention in the Process Industries, 2021,69:104388.

[14]Li Xinhong, Han Ziyue, Zhang Renren, et al. Risk assessment of hydrogen generation unit considering dependencies using integrated DEMATEL and TOPSIS approach [J]. International Journal of Hydrogen Energy, 2020, 45(53): 29630-29642.

[15]Li Xinhong, Han Ziyue, Zhang Renren, et al. An integrated methodology to manage risk factors of aging urban oil and gas pipelines [J].Journal of Loss Prevention in the Process Industries, 2020, 66, 104154.

[16]Li Xinhong, Abbassi Rouzbeh, Chen Guoming, Wang Qingsheng. Modeling and analysis of flammable gas dispersion and deflagration from offshore platform blowout [J].Ocean Engineering, 2020, 201: 107146.

[17]Li Xinhong, Han Ziyue, Yang Shangyu, Chen Guoming. Underwater gas release modeling and verification analysis[J].Process Safety and Environmental Protection, 2020, 137: 8-14.

[18]Li Xinhong, Chen Guoming, Khan Faisal, et al. Dynamic risk assessment of subsea pipelines leak using precursor data[J].Ocean Engineering, 2019, 178: 156-169.

[19]Li Xinhong,Yang Ming, Chen Guoming.An integrated framework for subsea pipelines safety analysis considering causation dependencies[J].Ocean Engineering, 2019, 183: 175-186.

[20]Li Xinhong, Chen Guoming, Faisal Khan. Analysis of underwater gas release and dispersion behavior to assess subsea safety risk[J].Journal of hazardous materials, 2019,367:676-685.

[21]Li Xinhong, Chen Guoming, Chang Yuanjiang.Risk-based operation safety analysis during maintenance activities of subsea pipelines[J].Process Safety and Environmental Protection, 2019,122:247-262.

[22]Li Xinhong, Chen Guoming, Zhu Hongwei, et al. Gas dispersion and deflagration above sea from subsea release and its impact on offshore platform[J].Ocean Engineering, 2018, 163:157-168.

[23]Li Xinhong, Chen Guoming, Zhu Hongwei, et al. Modelling and assessment of accidental oil release from damaged subsea pipelines [J].Marine Pollution Bulletin,2017,123(1-2),133-141.

[24]Li Xinhong, Chen Guoming, Zhu Hongwei. Quantitative risk analysis on leakage failure of submarine oil and gas pipelines using Bayesian network[J].Process Safety & Environmental Protection, 2016, 103:163-173.

[25]Li Xinhong, Zhu Hongwei, Chen Guoming, et al. Optimal maintenance strategy for corroded subsea pipelines[J].Journal of Loss Prevention in the Process Industries, 2017, 49:145-154.

[26]Li Xinhong, Chen Guoming, Zhu Hongwei, et al. Quantitative risk assessment of submarine pipeline instability[J].Journal of Loss Prevention in the Process Industries, 2017, 45:108-115.

[27]Li Xinhong, Chen Guoming, Zhang Renren, et al. Simulation and assessment of underwater gas release and dispersion from subsea gas pipelines leak[J].Process Safety and Environmental Protection, 2018, 119: 46-57.

[28]Li Xinhong, Chen Guoming, Jiang Shengyu, et al. Developing a dynamic model for risk analysis under uncertainty: Case of third-party damage on subsea pipelines[J].Journal of Loss Prevention in the Process Industries, 2018, 54: 289-302.

[29]Li Xinhong, Chen Guoming, Zhu Hongwei, et al. Simulation and assessment of gas dispersion above sea from a subsea release: A CFD-based approach [J].International Journal of Naval Architecture and Ocean Engineering, 2019,11(1):353-363.

[30]He Rui,Li Xinhong, Chen Guoming, et al. A quantitative risk analysis model considering uncertain information[J].Process Safety and Environmental Protection, 2018, 118: 361-370.

[31]He, Rui.,Li, Xinhong., Chen, Guoming., et al. (2020). Generative adversarial network-based semi-supervised learning for real-time risk warning of process industries. Expert Systems with Applications, 150, 113244.

[32]Shi, Jihao.,Li, Xinhong., Khan, Faisal., et al. (2019). Artificial bee colony based bayesian regularization artificial neural network approach to model transient flammable cloud dispersion in congested area. Process Safety and Environmental Protection, 128, 121-127.

[33]Gu Qinghua, Chang Yinxin,Li Xinhong*, Chang Zhaozhao, Feng Zhidong.A novel F-SVM based on FOA for improving SVM performance [J]. Expert Systems with Applications, 2020, 113713.

[34]Geng Zhiyuan,Li Xinhong*, Chen Guoming, et al. Experimental and numerical study on gas release and dispersion from underwater soil [J]. Process Safety and Environmental Protection, 2021,149:11-21.

[35]李新宏,陈国明,李秉军.海洋油气管道泄漏事故应急管理体系构建研究[J].油气田地面工程, 2022, 41(05): 1-5.

[36]李新宏,朱玉娇,李成成,等.贫数据条件下海底电缆故障概率评估方法[J].中国安全生产科学技术, 2022, 18(06): 224-229.

[37]李新宏,王靖雯,朱玉娇,等.海洋水合物开采分解气体泄漏运移后果评估[J].中国安全科学学报, 2021,31(11): 114-119.

[38]李新宏,张毅,韩子月,等.基于风险与成本的海洋溢油事故应急控制决策[J].中国安全科学学报, 2021,31(04):184-190.

[39]李新宏,张毅,韩子月,等.天然气管道失效致因与事故链模型研究[J].油气田地面工程, 2021,40(04): 1-7.

[40]李新宏,韩子月,卢才武,等.老龄城镇油气管道失效风险评价方法[J].中国安全科学学报,2020,30(2): 93-98．

[41]李新宏,韩子月,耿志远,等.基于实验与仿真的三维水下气体泄漏预测与安全评估研究[J].中国安全生产科学技术, 2020,16(1):1-5.

[42]李新宏,韩子月，陈国明.水下气体泄漏海面火灾后果预测及评估[J].中国安全科学学报，2019, 29(12):61-66.

[43]李新宏,陈国明,朱红卫,等.基于欧拉-拉格朗日方法的水下气体泄漏扩散行为研究[J].中国石油大学学报(自然科学版), 2019,43(01):131-137.

[44]李新宏,朱红卫,陈国明,等.海底油气管道泄漏事故风险分析的贝叶斯动态模型[J].中国安全科学学报, 2015, 25(4):75-80.

[45]李新宏,陈国明,朱红卫,等.海底输气管道泄漏天然气扩散风险研究[J].石油科学通报, 2016, 1(3): 390-400.

[46]李新宏,朱红卫,陈国明,等.海底管道泄漏天然气扩散规律数值模拟[J].油气储运, 2016, 35(2):215-220.

[47]李新宏,李秀美,陈国明,等. 2000m超深水水下分离器泄漏油气扩散特性研究[J].中国安全生产科学技术, 2016, 12(1):38-43.

[48]李新宏,朱红卫,陈国明,等.海底管道泄漏油气扩散规律数值仿真与对比分析[J].安全与环境学报, 2017, 17(2):608-614.

[49]李新宏,陈国明,徐长航,等.水深对海底管道泄漏水下气体扩散行为的影响研究[J].中国安全生产科学技术, 2018, 14(5), 17-22.

[50]李新宏,陈国明,朱红卫.海底油气管道腐蚀失效风险预警方法研究[J].中国安全科学学报, 2017(7):163-168.

[51]李新宏,朱红卫,陈国明,等.公路隧道内CNG管束气瓶车泄漏天然气扩散CFD仿真[J].中国安全生产科学技术, 2016, 12(12):138-143.

三、专利

1.李新宏,陈国明,陈国星,等.一种水下气相管道泄漏与扩散实验装置:中国, ZL 201810004919.6 [P].中国国家发明专利

2.陈国明,李新宏,何睿,等.贫数据、信息不完全条件下的定量风险评估方法:中国, ZL 201810005270. X [P].中国国家发明专利

3.陈国明,李新宏,陈洁,等.一种城市油气管道重大事故风险预警评估方法:中国, ZL 201810005269.7 [P].中国国家发明专利

4.朱红卫,李新宏,陈国明,等.一种长输天然气管道积液自动清除收集装置及控制方法:中国, ZL 201810005279.0 [P].中国国家发明专利

5.李新宏,韩子月,张认认,等.一种固液两相流管材冲蚀磨损试验装置:中国, ZL202011248050.3 [P].中国国家发明专利

6.李新宏,韩子月,张认认.一种海底管道风险评估方法、系统及设备:中国, ZL 202110588017.3 [P].中国国家发明专利

7.李新宏,张璐瑶,张认认,韩子月.一种基于PCA-ABC-SVM模型的海底原油管道腐蚀速率预测方法:中国,ZL 202110617937.3[P].中国国家发明专利

8.李新宏，韩子月，张认认，郭孟孟.海底管道寿命预测及延寿决策方法、系统、设备及介质：中国,ZL 202210023645.1[P].中国国家发明专利

9.李新宏，贾瑞超，韩子月，张认认.海底输油管道腐蚀速率预测方法、系统、设备及介质:中国,ZL 202210022670. 8[P].中国国家发明专利

四、奖励和荣誉

1.中国职业安全健康协会第一届安全科学与工程学科优秀博士学位论文，2020；

2.十大信誉赌博官网平台首届校优秀青年科研团队育苗学者，2020；

3.十大信誉赌博官网平台第四届校优秀青年学者(青蓝青年学者)，2021；

4.十大信誉赌博官网平台第十届“教坛新秀”，2022

5.陕西省高校科协青年人才托举计划，2022

邮箱：safety_lxh@163.com; lixinhong@xauat.edu.cn