师资队伍

丁龙

 

个人履历

中国科学院大学沈阳自动化研究所控制理论与控制工程专业博士(2018)

加拿大Western University联合培养博士(2015-2017

中国科学技术大学博士后研究员(2018-2019

中国科学技术大学特任副研究员(2019-2023

中国科学技术大学副教授(2023-)

 

研究方向

事故灾难风险评估及管控

火灾燃烧行为及其危险性预测

 

个人获奖

中国消防协会2021全国消防科学传播先进个人2021

第二届全国热安全科学与技术研讨会优秀论文(2021

The 3rd International Workshop on Environment and Geoscience (IWEG2020)Outstanding Oral Presentation(优秀报告)(2020

2020年全国优秀消防科普宣传教育作品一等奖(2020

中国科学院沈阳自动化研究所优秀博士学位论文(2018

国家留学基金委公派联合培养博士研究生项目资助(2015


学术任职

中国消防协会科普教育工作委员会委员(2021.12-

江西省消防协会专家委员会专家库成员(2022.11-

Emergency Management Science and Technology期刊第一届青年编委(2022.7-

Building Simulation期刊客座编辑(2020.10-2021.10

第二届全国热安全科学与技术研讨会事故灾难风险评估专题共同主席(2020.11-2021.1

中国消防协会会员(2020-

学位/职称

工学博士

中国科学技术大学副教授

硕士生导师

  

办公室电话

(+86)551 

E-mail: longding@ustc.edu.cn



科研项目

多源不确定性下化工园区多米诺效应事故风险协同管控优化方法研究:国家自然科学基金面上项目,主持,执行期:2023.01-2026.12

大型明清古建筑(群)多干扰条件下火灾探测器设置方法与适用性提升研究:国家重点研发计划项目课题,主持,执行期:2021.11-2024.10

基于多场时空耦合诱发多米诺效应的化工园区动态风险评估及管理研究:国家自然科学基金青年科学基金项目,主持,执行期:2020.01-2022.12

典型文物建筑火灾风险评估方法研究:国家重点研发计划项目子课题,主持,执行期: 2020.10-2023.09

文物消防安全评估检查和警示宣传材料制作:国家文物局推进文物平安工程重要项目,主持,执行期:2021.07-2021.11

基于风险的厂区火灾逃生策略优化与虚拟现实体验研究:中国消防协会项目,主持,执行期:2020.07-2021.12

基于数理模型和数据同化的大尺度森林火灾实时动态预测与风险管理:中国科学技术大学重要方向培育基金,主持,执行期:2021.01-2023.12

基于本质安全的化工园区火灾多米诺效应动态风险管理研究:江苏省重点实验室开放课题,主持,执行期:2020.01-2021.12

重大事故灾难次生衍生的风险动态预测评估系统:国家重点研发计划项目课题,研究骨干,执行期:2016.7-2020.6

国家棉麻储备库安全影响与典型热灾害评估研究:国家重点研发计划项目课题,研究骨干,执行期:2017.7-2020.6

液体燃料泄漏火灾全过程非稳态燃烧行为及其物理预测模型研究:国家自然科学基金重点项目,研究骨干,执行期:2021.1-2025.12


代表性论著

Journals

[1]      Ding, Long; Hu, Haowei; Ji, Jie*. Holistic Value-at-Risk Assessment Framework for Fire Risk Assessment of Heritage Buildings Based on Analytic Hierarchy Process and Text Mining. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A Civil Engineering, 2023; 9(1): 04022059.

[2]      Shou, Yuming; Chen, Jinyue; Guo, Xiaoxue; Zhu, Jiping; Ding, Long*; Ji, Jie*; Cheng, Yifeng. A dynamic individual risk management method considering spatial and temporal synergistic effect of toxic substance leakage and fire accidents. Process Safety and Environmental Protection, 2023; 169: 238-251.

[3]      Ding, Long; Khan, Faisal; Ji, Jie. Application of data mining to minimize fire-induced domino effect risks. Risk Analysis, 2022; 1-19. https://doi.org/10.1111/risa.13925

[4]      Ding, Long; Khan, Faisal*; Ji, Jie*. A novel vulnerability model considering synergistic effect of fire and overpressure in chemical processing facilities. Reliability Engineering & System Safety, 2022; 217:108081.

[5]      Guo, Xiaoxue; Ding, Long*; Ji, Jie*; Cozzani, Valerio. A cost-effective optimization model of safety investment allocation for risk reduction of domino effects. Reliability Engineering and System Safety, 2022; 225: 108584.

[6]      Chen, Jinyue; Ji, Jie; Guo, Xiaoxue; Ding, Long*. An Improved Approach for Spatial and Temporal Individual Risk Assessment Considering Synergistic Effects of Multiple Fires Occurred Sequentially. Fire Technology, 2022; 58: 2093-2121.

[7]      Ding, Long; Li, Yin; Ji, Jie*; Lin, Chengchun; Wang, Liangzhu(Leon). A cost-effective building fire smoke spread prediction approach for risk mitigation based on data assimilation using Ensemble Kalman Filter. Fire and Materials, 2022; 46: 1045-1060.

[8]      Ding, Long; Khan, Faisal; Guo, Xiaoxue; Ji, Jie*. A novel approach to reduce fire-induced domino effect risk by leveraging loading/unloading demands in chemical industrial parks. Process Safety and Environmental Protection, 2021; 146: 610-619.

[9]      Ding, Long; Gong, Changzhi; Ge, Fanliang; Ji, Jie*. Experimental study on flame radiation characteristic from line pool fires of n-heptane fuel in open space. Energy, 2021; 218: 119435.

[10]  Guo, Xiaoxue; Ji, Jie; Khan, Faisal; Ding, Long*; Tong, Qi. A novel fuzzy dynamic Bayesian network for dynamic risk assessment and uncertainty propagation quantification in uncertainty environment, Safety Science, 2021; 141: 105285.

[11]  Guo, Xiaoxue; Ji, Jie; Khan, Faisal; Ding, Long*; Yang, Yaqi. Fuzzy Bayesian network based on an improved similarity aggregation method for risk assessment of storage tank accident, Process Safety and Environmental Protection, 2021; 149: 817-830.

[12]  Wang, Chen; Ding, Long*; Wan, Huaxian; Ji, Jie*; Huang, Yonglong. Experimental study of flame morphology and size model of a horizontal jet flame impinging a wall, Process Safety and Environmental Protection, 2021; 147: 1009–1017.

[13]  Liu, Chunxiang; Ding, Long*; Ji, Jie. Experimental study of the effects of ullage height on fire plume centerline temperature with a new virtual origin model, Process Safety and Environmental Protection, 2021; 146: 961–967.

[14]  He, Mingming; Ding, Long*; Yu, Longxing; Ji, Jie*. Effect of density on the smoldering characteristics of cotton bales ignited internally.Proceedings of the Combustion Institute, 2021; 38:5043-5051.

[15]  Tan, Tiantian; Yu, Longxing; Ding, Long*; Gao, Zihe; Ji, Jie. Numerical investigation on the effect of ambient pressure on mechanical smoke extraction efficiency in tunnel fires.Fire Safety Journal, 2021; 120:103136.

[16]  Ding, Long; Khan, Faisal; Ji, Jie*.A novel approach for domino effects modeling and risk analysis based on synergistic effect and accident evidence.Reliability Engineering & System Safety, 2020; 203:107109.

[17]  Ding, Long; Ji, Jie*; Khan, Faisal. Combining uncertainty reasoning and deterministic modeling for risk analysis of fire-induced domino effects.Safety Science, 2020; 129:104802.

[18]  Ding, Long; Khan, Faisal; Ji, Jie*. Risk-based safety measure allocation to prevent and mitigate storage fire hazards. Process Safety and Environmental Protection, 2020; 135:282-293.

[19]  Ding, Long; Ji, Jie*; Khan, Faisal; Li, Xiaohua; Wan, Shaoan. Quantitative fire risk assessment of cotton storage and a criticality analysis of risk control strategies. Fire and Materials, 2020, 44(2):165-179.

[20]  Tan, Tiantian; Ding, Long*; Wang, Zhiyong; Ji, Jie; Yang, Yaqi. Experimental study on the characteristics of buoyancy-driven turbulent flame generated by rectangular fire sources with different length-width ratios in an open space.Fuel, 2020; 289: 119778.

[21]  Guo, Fangyi; Ding, Long*; Gao, Zihe; Yu, Longxing*; Ji, Jie. Effects of wind flow and sidewall restriction on the geometric characteristics of propane diffusion flames in tunnels.Energy,2020;198:117332.

[22]  Chen, Jinyue; Ji, Jie*; Ding, Long*; Wu, Jiansong. Fire risk assessment in cotton storage based on fuzzy comprehensive evaluation and Bayesian network.Fire and Materials,2020;44:683-692.

[23]  Zhou, Tengjiao; Ding, Long*; Ji, Jie*; Yu, Longxing; Wang, Zheng. Combined estimation of fire perimeters and fuel adjustment factors in FARSITE for forecasting wildland fire propagation. Fire Safety Journal, 2020;116:103167.

[24]  Gong, Changzhi; Ding, Long*; Wan, Huaxian; Ji, Jie*; Gao, Zihe; Yu, Longxing. Spatial temperature distribution of rectangular n-heptane pool fires with different aspect ratios and heat fluxes received by adjacent horizontal targets.Fire Safety Journal, 2020;112:102959.

[25]  Ding, Long; Khan, Faisal; Abbassi, Rouzbeh; Ji, Jie*. FSEM: An approach to model contribution of synergistic effect of fires for domino effects. Reliability Engineering & System Safety, 2019; 189:271-278.

[26]  Ji, Jie*; Wang, Zhiyong; Ding, Long*; Yu, Longxing; Gao, Zihe; Wan, Huaxian. Effects of ambient pressure on smoke movement and temperature distribution in inclined tunnel fires. International Journal of Thermal Sciences,2019;145:106006.

[27]  Ding, Long*; Wang, Hong; Jiang, Jing; Xu, Aidong. SIL verification for SRS with diverse redundancy based on system degradation using reliability block diagram. Reliability Engineering & System Safety, 2017; 165:170-187.

[28]  Ding, Long*; Wang, Hong; Xu, Aidong; Li, Shixing. New considerations for SIL verification of functional safety fieldbus communication. Journal of Loss Prevention in the Process Industries, 2016; 43:488-502.

[29]  Ding, Long*; Wang, Hong; Kang, Kai; Wang, Kai. A novel method for SIL verification based on system degradation using reliability block diagram. Reliability Engineering & System Safety, 2014; 132:36-45.

 

Books

[1]      Ding, Long; Ji, Jie*. Chapter 8. Advanced methods for risk assessment and management of domino effect. Methods in Chemical Process Safety, Volume 5: Domino Effect: Its Prediction and Prevention. 2021, Elsevier.

[2]      Ding, Long; Ji, Jie*. Chapter 12. Risk assessment and management of fire-induced domino effects in chemical industrial park. Engineering Reliability and Risk Assessment. 2022, Elsevier.

[3]      纪杰,万华仙,丁龙,余龙星。高层建筑火灾动力学,科学出版社,2020