代表性论文:
1. L Pang, JJ Cao, QP Xiao, et al. Explosion propagation in a dust removal pipeline under dust collector explosion. Journal of Loss Prevention in the Process Industries, 2022, 74: 104662.
2. L Pang, QR Hu, K Yang. Numerical study of external explosion characteristics induced by indoor natural gas vented explosion. International Journal of Numerical Methods for Heat & Fluid Flow, 2022, 32: 404-431.
3. L Pang, QR Hu, K Yang. Effect of Multiple Vent Parameters on an External Explosion Induced by an Indoor Premixed Methane–Air Explosion. Combustion, Explosion, and Shock Waves, 2022, 58: 135-148.
4. L Pang, JJ Cao, Y Zhao, et al. Minimum ignition energy of LDPE dust/ethylene hybrid mixture. Journal of Loss Prevention in the Process Industries, 2021, 72: 104546.
5. L Pang, ZW Zhang, Y Zhao, et al. Multiple venting behavior of inner dust explosions. Combustion, Explosion, and Shock Waves, 2021, 57: 597–606.
6. L Pang, JJ Cao, R Ma, et al. Risk assessment method of polyethylene dust explosion based on explosion parameters. Journal of Loss Prevention in the Process Industries, 2021, 69: 104397.
7. K Yang, YB Chen, QP Xiao, L Pang*. Influence of venting coefficient on disastrous effects of aluminium powder explosions. Process Safety and Environmental Protection, 2021, 156: 72-88.
8. L Pang, ZW Zhang, SQ Cui, et al. Experimental study on dust explosion vented through a bent duct. Process Safety Progress, 2021, 40: e12174.
9. PF Lv, MH Ju, JX Zhang, L Pang*, et al. Influence of water storage on deflagration characteristics of methane in confined space. Journal of Loss Prevention in the Process Industries, 2021, 73: 104600.
10. L Pang, ZW Zhang, SQ Cui, et al. Experimental study of the venting characteristics of dust explosion through a vent duct. Journal of Loss Prevention in the Process Industries, 2020, 65: 104144.
11. K Yang, WS Liu, JQ Ren, SG Li, Y Zhao, QR Hu, L Pang*. Effects of multiple annular obstacles on flame propagation of local corn starch dust in a vertical pipe. Journal of Loss Prevention in the Process Industries, 2020, 64: 104077.
12. L Pang, R Ma, ST Hu, et al. Flame propagation of local LDPE dust cloud in a semi-open duct. Experimental Thermal and Fluid Science, 2019, 101: 209-216.
13. L Pang, Y Zhao, K Yang, et al. Law of variation for low density polyethylene dust explosion with different inert gases. Journal of Loss Prevention in the Process Industries, 2019, 58: 42-50.
14. L Pang, QR Hu, JJ Zhao, et al. Numerical study of the effects of vent opening time on hydrogen explosions. International Journal of Hydrogen Energy, 2019, 44: 15689-15701.
15. K Yang, QR Hu, SH Sun, PF Lv, L Pang*. Research progress on multi-overpressure peak structures of vented gas explosions in confined spaces. Journal of Loss Prevention in the Process Industries, 2019, 62: 103969.
16. K Yang, SR Lv, JC Gao, L Pang*. Research on the coupling degree measurement model of urban gas pipeline leakage disaster system. International journal of disaster risk reduction, 2017, 22: 238-245.
17. PF Lv, L Pang*, JH Jin, et al. Effects of hydrogen addition on the deflagration characteristics of hydrocarbon fuel/air mixture under a mesh aluminium alloy. International Journal of Hydrogen Energy, 2016, 41: 7511-7517.
18. L Pang, CX Wang, MX Han, et al. A study on the characteristics of the deflagration of hydrogen-air mixture under the effect of a mesh aluminum alloy. Journal of Hazardous Materials, 2015, 299: 174-180.
论著与教材:
1. 庞磊, 杨凯, 曹娇娇(著). 聚乙烯粉尘爆炸与惰化防爆. 北京: 化学工业出版社, 2021.
2. 吕鹏飞, 庞磊(编). 燃烧爆炸安全理论. 西安: 西安交通大学出版社, 2021.
3. 庞磊, 栾婷婷, 吕鹏飞(编著). 工业企业典型事故案例分析. 北京: 化学工业出版社, 2020.
4. 杨凯, 吕淑然, 庞磊(著). 城市燃气管道泄漏致灾机理及灾害控制. 北京: 化学工业出版社, 2020.
5. 庞磊, 马秋菊(著). 受限空间气体爆炸特征及复合灾害传播规律. 北京: 中国劳动社会保障出版社, 2019.
6. 靳江红, 王晓冬, 庞磊(编著). 电气防爆技术. 北京: 化学工业出版社, 2016.
7. 庞磊, 靳江红(编). 制药安全工程概论. 北京: 化学工业出版社, 2015. (北京高校优质本科教材)
发明专利:
1. 庞磊, 曹娇娇, 吕鹏飞, 等. 具有防爆控爆功能的粉尘收集装置及粉尘收集车. 中国, ZL202010099335.9, 2021-12-10.
2. 庞磊, 杨凯, 吕鹏飞. 一种考虑大尺度障碍物影响的室内天然气爆炸峰值超压的预测方法.中国, ZL201810644232.9, 2021-10-15.
3. 庞磊, 杨凯, 吕鹏飞. 一种隧道内天然气爆炸高温灾害评估方法. 中国, ZL201711065904.2, 2021-03-19.
4. 庞磊, 吕鹏飞, 杨凯, 等. 一种低密度聚乙烯粉体爆炸敏感性参数的评估方法. 中国, ZL201810419758.7, 2020-10-27.
5. 庞磊, 杨凯, 吕鹏飞, 等. 一种低密度聚乙烯粉尘云最大爆炸压力的评估方法. 中国, ZL201810123011.7, 2020-06-23.
软件著作权:
1. 庞磊, 孙艳, 孙思衡. 基于VR的典型涉爆粉尘企业隐患排查实训与事故灾害情景推演系统V1.0, 2020SR0952245, 原始取得, 全部权利, 2020-08-19.
2. 庞磊, 孙艳, 孙思衡. 涉爆粉尘企业数据信息管理系统V1.0, 2020SR0597118, 原始取得, 全部权利, 2020-06-10.
3. 庞磊, 杨凯, 赵海林, 典型易燃易爆危险源爆炸灾害评估软件V1.0, 2020SR0298255, 原始取得, 全部权利, 2020-3-31.
技术标准:
1. 主编. DB11/T 1827-2021, 粉尘防爆安全管理规范. 北京: 北京市应急管理局, 2021.
2. 主编. DB11/T 1322.34-2019, 安全生产等级评定技术规范 第34部分: 小规模单位. 北京: 北京市应急管理局, 2019.
3. 主编. DB11/T 1322.35-2018, 安全生产等级评定技术规范 第35部分: 医药制造企业. 北京: 北京市应急管理局, 2018.
4. 参编. DB21/T 3568-2022, 粉尘涉爆企业安全风险分级管控和隐患排查治理实施细则. 辽宁: 辽宁省应急管理厅, 2022.