彭留留,工学博士,重庆大学副教授。2017 年 6 月博士毕业于西南交通大学,导师为国家级青年人才黄国庆教授。攻博期间,于 2015 年 9月赴美国德州理工大学联合培养 1 年,导师为国家级人才陈新中教授。主要从事新能源风力发电和结构风工程领域的研究工作。发表学术论文 63篇,其中本领域国际主流 SCI 期刊论文 31 篇(JCR1 区论文 19 篇、2 区论文 9 篇;一作或通讯作者论文 16 篇)、其他期刊论文 11 篇。主持国家自然科学基金面上项目、青年基金项目、中国博士后科学基金面上项目一等资助项目、重庆市博士后出站留(来)渝资助项目以及中央高校基本科研业务费项目等纵向项目,参与多项纵向项目。主持和主研风力发电和结构风工程相关的多项纵向和横向课题。获得了 2023 年度华夏建设科技进步一等奖(排名第 6)、2019 年度重庆市科技进步一等奖(排名第 5)、2017 年度西南交通大学优秀博士学位论文奖等奖励。担任了中国振动工程学会随机振动专业委员会委员、SCI期刊《Applied Sciences》的特刊联合主编、《Frontiers in Built Environment》期刊的审稿编辑以及 15 本国际知名 SCI 期刊的审稿人。
研究方向
1) 风力发电:主要集中在风速预测、风资源评估和风机载荷分析等方面的研究
2) 结构风工程:主要集中在雷暴风、台风、山区风等非平稳和非高斯风场的实测、建模和模拟及高柔结构风振响应分析等方面的研究
主讲课程
1) 《工程制图》
2) 《画法几何与建筑制图》
3)《风工程导论》
4)《工程制图与计算机绘图》
5)《风工程及风资源利用创新实践》
学术兼职
担任了中国振动工程学会随机振动专业委员会委员、担任了SCI期刊《Applied Sciences》的特刊联合主编、《Frontiers in Built Environment》期刊的审稿编辑以及15本SCI期刊审稿人,担任了第十二届全国随机振动理论与应用学术会议暨第九届全国随机动力学学术会议组委会的秘书长。
主要成果
一、主持的纵向项目
1) 国家自然科学基金面上项目(52378480),山地非高斯风场作用下的风机结构极值响应和疲劳损伤研究,2024-01至2027-12,50万元,在研
2) 国家自然科学基金青年基金项目(51808078),下击暴流作用下大跨越输电塔线体系非平稳风振响应研究,2019-01至2021-12,23万元,在研
3) 中国博士后科学基金面上项目一等资助(2018M640900),非平稳雷暴风作用下高层或高耸结构等效静风荷载研究,2018-12至2019-10,8万元,在研
4) 重庆市博士后出站留(来)渝资助项目(2020LY06),极端风作用下大型风力发电机的非平稳风致响应研究,2021-01至2023-12,15万元,在研
5) 中央高校基本科研业务费项目(2018CDXYTM0003),山区雷暴风作用下输电线塔风致响应研究,2018-01至2019-12,6万元,已结题
二、参与的纵向项目
1) 国家自然科学基金面上项目(51878041),考虑大气稳定度的山地风能降尺度评估方法及流线尾流模型研究,2023-01至2026-12,58万元,在研
2) 国家自然科学基金面上项目(51978108),非平稳强风激励下大跨桥梁三维抖振力特性及响应分析方法精细化研究,2020-01至2023-12,62万元,在研
3) 国家自然科学基金面上项目(51878041),非传统形体超高层建筑气动作用机制及气弹性能研究,2019-01至2022-12,60万元,在研
4) 国家自然科学基金面上项目(51878104),复杂山地条件下的超高层建筑风效应及气动优化研究,2019-01至2022-12,60万元,在研
5) 国家自然科学基金面上项目(51978107),高层隔震建筑三维耦合弹塑性风振响应分析和风洞试验研究,2020-01至2023-12,60万元,在研
6) 四川省科技厅青年基金项目(2016JQ0005),山区复杂风场下大跨度桥梁的风致振动控制,2016-03至2019-03,50万元,已结题
7) 国家自然科学基金面上项目(51578471),山区峡谷处非平稳强风下大跨度桥梁风振响应和等效静风荷载研究,2016-01至2019-12,63万元,已结题
8) 四川省科技厅应用基础计划项目(2015JY0060),艰险山区大跨桥梁处风场实测和桥梁抖振响应分析,2015-01至2016-12,15万元,已结题
三、主持和参与的横向项目
1) 四川电力设计咨询有限责任公司,横向科研项目,《风电场风机近尾流区荷载效应及其近间距机位安全优化技术研究》,2023-11至2024-06,88.2万元,主持,在研
2) 中国电建集团成都勘测设计研究院有限公司,横向科研项目,CD2C20220494,《青白江“一带一路”成都国际铁路港进出口商品展示交易中心项目抗风专项研究》,2022-03至2022-08,26万元,已结题
3) 中国船舶重工集团海装风电股份有限公司,横向科研项目,CGCTS202146113040,云南某地区复杂地形流场仿真研究,2021-08至2022-05,69.4万元,已结题
4) 中国船舶重工集团海装风电股份有限公司,横向科研项目,HZYJY-JSFW-2020-008,海上风电场单风机尾流模型研究,2020-08至2021-06,130万元,已结题
5) 企业横向科研项目,大连风储站荷一体化能源系统项目—不同风机厂商机型年发电量验算项目,2021-02至2021-05,6万元,已结题
6) 企业横向科研项目,武汉天河机场T3航站楼抗风试验研究,2013-09至2014-05,39万元,已结题
7) 企业横向科研项目,普立特大桥桥址处风观测研究,2013-01至2015-12,70万元,已结题
四、国际SCI期刊论文
1) Huang, G*., Peng, L., Su, Y., Liao, H., and Li, M. (2015). “A wireless high-frequency anemometer instrumentation system for field measurements.” Wind and Structures, 20(6), 739-749. (JCR2区)
2) Peng, L., Huang, G*., Kareem, A., and Li, Y. (2016). “An efficient space-time based simulation approach of wind velocity field with embedded conditional interpolation for unevenly spaced locations.” Probabilistic Engineering Mechanics, 43, 156-168. (JCR1区)
3) Peng, L., Huang, G*., Chen, X., and Kareem, A. (2017). “Simulation of multivariate nonstationary random process: Hybrid stochastic wave and proper orthogonal decomposition approach.” Journal of Engineering Mechanics, 143(9), 04017064. (JCR2区, ASCE著名会刊)
4) Peng, L., Huang, G*., Chen, X., and Yang, Q. (2018). “Evolutionary spectra-based time-varying coherence function and its application in structural response analysis to downburst winds.” Journal of Structural Engineering, 144(7), 04018078. (JCR2区, ASCE著名会刊)
5) Huang, G*., Cheng, X, Peng, L., and Li, M. (2018). “Aerodynamic shape of transition curve for truncated mountainous terrain model in wind field simulation.” Journal of Wind Engineering and Industrial Aerodynamics, 178, 80-90. (JCR1区)
6) Huang, G., Jiang, Y., Peng, L*., Solari, G., Liao H., and Li, M. (2019). “Characteristics of intense winds in mountain area based on field measurement: Focusing on thunderstorm winds.” Journal of Wind Engineering and Industrial Aerodynamics, 190, 166-182. (JCR1区)
7) Jiang, Y., Zhao, N., Peng, L*., Zhao, L., and Liu, M. (2019). “Simulation of stationary wind field based on adaptive interpolation-enhanced scheme.” Journal of Wind Engineering and Industrial Aerodynamics, 195, 104001. (JCR1区)
8) Jiang, Y., Zhao, N., Peng, L*., Liu, S. (2019). “A new hybrid framework for probabilistic wind speed prediction using deep feature selection and multi-error modification.” Energy Conversion and Management, 199, 111981. (JCR1区)
9) Jiang, Y., Liu, S., Peng, L*., Zhao, N. (2019). “A novel wind speed prediction method based on robust local mean decomposition, group method of data handling and conditional kernel density estimation.” Energy Conversion and Management, 200, 112099. (JCR1区)
10) Wu, F., Liu, M*., Yang, Q., and Peng, L. (2019). “Estimation of extremes of non-Gaussian wind pressure on building roof: Sampling error in moment-based translation process model with no monotonic limit.” Advances in Structural Engineering, 23(4), 810-826. (JCR3区)
11) Liu, M., Peng, L*., Huang, G*., Yang, Q., and Jiang, Y. (2020). “Simulation of stationary non-Gaussian multivariate random processes using moment-based piecewise Hermite polynomial model.” Journal of Wind Engineering and Industrial Aerodynamics, 196, 104041. (JCR1区)
12) Huang, G., Peng, L*., Kareem, A., and Song, C. (2020). “Data-driven simulation of multivariate nonstationary winds: A hybrid multivariate empirical mode decomposition and spectral representation method.” Journal of Wind Engineering and Industrial Aerodynamics, 197, 104073. (JCR1区)
13) Peng, L., Liu, M*., Yang, Q*., and Huang, G. (2020). “An analytical formula for Gaussian to non-Gaussian correlation relationship by moment-based piecewise Hermite polynomial model with application in wind engineering.” Journal of Wind Engineering and Industrial Aerodynamics, 198, 104094. (JCR1区)
14) Zhao, N., Huang, G*., Liu, R., and Peng, L. (2020). “A remote long-term and high-frequency wind measurement system: design, comparison and field testing.” Wind and Structures, 31(1), 21-29. (JCR2区)
15) Liu, S., Jiang Y., Li, M*., Xin, J., and Peng, L. (2021). “Long period ground motion simulation and its application on seismic design of high-rise building.” Soil Dynamics and Earthquake Engineering, 143, 106619. (JCR2区)
16) Zhao, N., Huang G*., Kareem, A., Li, Y., and Peng, L. (2021). “Simulation of ergodic multivariate stochastic processes: an enhanced spectral representation method.” Mechanical Systems and Signal Processing, 161, 107949. (JCR1区)
17) Zhao, N., Jiang, Y*., Peng, L., Chen, X. (2021). “Fast simulation of nonstationary wind velocity fields by proper orthogonal decomposition interpolation.” Journal of Wind Engineering and Industrial Aerodynamics, 219, 104798. (JCR1区)
18) Yang, Q*., Yang, Y., Wang, Q., and Peng, L. (2021). “Study on the fluctuating wind responses of constructing bridge towers with magnetorheological elastomer variable stiffness tuned mass damper.” Journal of Intelligent Material Systems and Structures. (JCR3区)
19) Wu, F., Liu, M*., Huang, G., Peng, L., Guo, Z., and Jiang, Y. (2022). “Simulation of stationary non-Gaussian multivariate wind pressures with enhanced accuracy and efficiency based on moment-based piecewise Johnson transformation model.” Probabilistic Engineering Mechanics, 68, 103225. (JCR1区)
20) Jiang, Y., Zhao, N*., Peng, L., Xin, J., and Liu, S. (2022). “Fast simulation of fully non-stationary wind fields using a new matrix factorization assisted interpolation method.” Mechanical Systems and Signal Processing, 172, 108973. (JCR1区)
21) Liu, S., Luo, Y., Peng, L*., Jiang, Y., Meng, E., and Li, B. (2022). “Wind pressure field reconstruction based on unbiased conditional kernel density estimation.” Journal of Wind Engineering and Industrial Aerodynamics, 223, 104947. (JCR1区)
22) Zhao, S., Yue, J., Savory, E., Yan, Z., Chen, J., Zhang, B., and Peng, L. (2022). “Dynamic windage yaw angle and dynamic wind load factor of a suspension insulator string.” Shock and Vibration, 6822689. (JCR3区)
23) Li, B, Peng, L*., Jiang, Y, Wu, F., Hui, Y., and Luo, Y. (2022). “Simulation of stationary non-Gaussian stochastic vector processes using a novel eigenvalue-based iterative translation approximation method.” Mechanical Systems and Signal Processing, 175, 109128. (JCR1区)
24) Xin, J., Jiang, Y*., Zhou, J., Peng, L., Liu, S., and Tang, Q. (2022). “Bridge deformation prediction based on SHM data using improved VMD and conditional KDE.” Engineering Structures, 261, 114285. (JCR1区)
25) Jiang, Y, Hui, Y*, Wang, Y, Peng, L*., Huang, G., and Liu, S. (2022). “A novel eigenvalue-based iterative simulation method for multi-dimensional homogeneous non-Gaussian stochastic vector fields.” Structural safety, 100, 102290. (JCR1区)
26) Li, X., Li, S*, Su, Y., Peng, L., Cao, S., Liu, M. (2022). “Study on the time-varying extreme value characteristic of the transient loads on a 5:1 rectangular cylinder subjected to a thunderstorm-like wind.” Journal of Wind Engineering and Industrial Aerodynamics, 229, 105161. (JCR1区)
27) Liu, S., Peng, L*., Liu, J., Zhao, S., and Jiang, Z. (2022). “Spectral representation-based efficient simulation method for fully non-stationary spatially varying ground motions.” Soil Dynamics and Earthquake Engineering, 161, 107436. (JCR2区)
28) Zhao, N., Li, X., Peng, L*., Xu, Z., Chen, X. and Wang, X*. (2022). “Influence of phases of coherence functions on the wind field simulation using spectral representation method.” Applied Sciences, 12, 8190. (JCR2区)
29) Zhao, N., Xu, Z., Peng, L*., Li, X., Chen, X. and Wang, X*. (2022). “Simulation of nonseparable nonstationary spatially varying ground motions with an enhanced interpolation approximation approach.” Applied Sciences, 12, 6757. (JCR2区)
30) Liu, S., Jiang, Y., Qiao, K., Peng, L., Liu, D. (2023). “Record-based simulation of three-component long-period ground motions: Hybrid of surface wave separation and multivariate empirical mode decomposition.” Soil Dynamics and Earthquake Engineering, 172, 108037. (JCR2区)
31) Liu, R., Peng, L, Huang, G., Zhou, X., Yang, Q., Cai, J. (2023). “A Monte Carlo simulation method for probabilistic evaluation of annual energy production of wind farm.” Energy Conversion and Management, 292, 117355. (JCR1 区)
五、其他期刊论文
1) Huang, G.*, Chen, X., Li, M., and Peng, L. (2013), “Extreme value of wind-excited response considering influence of bandwidth transportation.” Journal of Modern Transport, 21(2), 125-134.
2) 彭留留, 黄国庆*, 廖海黎, 李明水. 演化功率谱解耦及其在工程领域中的应用[J]. 西南交通大学学报, 2015, 50(2): 319-324. (EI)
3) 苏延文, 黄国庆*, 彭留留. 与反应谱相容的多点完全非平稳地震动随机过程的快速模拟[J]. 工程力学, 2015, 32(8): 141-148. (EI)
4) 黄国庆*, 苏延文, 彭留留, 马存明, 廖海黎, 李明水. 山区风作用下大跨桥梁响应分析[J]. 西南交通大学学报, 2015, 50(4): 610-616. (EI)
5) 彭留留, 黄国庆*, 李明水, 袁理明, 罗楠. 某机场新航站楼风压分布特征及风振系数研究[J]. 空气动力学学报, 2015, 33(4): 1-8. (CSCD)
6) 黄国庆*, 彭留留, 廖海黎, 李明水. 普立特大桥桥位处山区风特性实测研究[J]. 西南交通大学学报, 2016, 51(2): 349-356. (EI)
7) 罗颖, 黄国庆*, 李明水, 彭留留. 基于风洞数据的低矮房屋双坡屋面风压非高斯特性[J]. 空气动力学学报, 2018, 36(4): 577-584. (CSCD)
8) 吴凤波, 黄国庆, 刘敏*, 彭留留. 非高斯风压极值估计:基于矩的转换过程法的抽样误差对比研究[J]. 振动与冲击, 2020, 39(18): 20-26. (EI)
9) 吴凤波, 姜言, 彭留留, 吴波, 罗颖. 基于矩的传递函数模型的“不兼容”非高斯风压过程模拟研究[J]. 振动与冲击, 2022, 41(24): 142-149. (EI)
10) 李少鹏, 李鑫, 杨庆山, 曹曙阳, 彭留留. 雷暴风作用下流线型箱梁抖振力空间相关性时变特性试验[J]. 中国公路学报, 2023, 36(5): 128-139. (EI)
11) 李胜民, 王志佳, 彭留留, 郭士康, 黎洪磊, 崔洁. 地震激励下近海风机桩的振动台模型试验研究. 地震工程与工程振动, 2023, 43(1): 221-228. (EI)
六、会议论文
1) 彭留留, 黄国庆*, 熊龙, 李明水 (2013). “普立特大桥风特性实测研究.” 第十六届全国结构风工程学术会议暨第二届全国风工程研究生论坛, 成都, 07/29-08/03.
2) 彭留留, 黄国庆*, 罗颖, 李明水 (2014). “某航站楼风压分布研究.” 第二十三届全国结构工程学术会议, 兰州, 10/10-10/13.
3) 罗颖, 黄国庆*, 彭留留 (2014). “低矮房屋双坡屋面风压统计特性.” 第九届全国随机振动理论与应用学术会议暨第三届全国随机动力学学术会议, 兰州, 10/08-10/11.
4) 常国财, 黄国庆*, 彭留留, 汪大海 (2014). “下击暴流作用下输电塔的结构响应.” 第九届全国随机振动理论与应用学术会议暨第三届全国随机动力学学术会议, 兰州, 10/08-10/11.
5) Huang, G*., Peng, L., Liao, H., and Li, M. (2014). “Introduction to wireless transmission-based instrumentation system for high-frequency anemometers.” The 2014 Int'l Conference on Advances in Wind and Structures, Busan, Korea, August 24-28.
6) Luo, Y., Huang, G*., and Peng, L. (2014). “Non-Gaussian characteristics of wind pressure on gable roofs of low-rise building.” The 2014 Int'l Conference on Advances in Wind and Structures, Busan, Korea, August 24-28.
7) Wang, D., Huang, G., Chang, G., and Peng, L.* (2014). “Response analysis of lattice tower based on a modified hybrid model of thunderstorm downburst.” The 2014 Int'l Conference on Advances in Wind and Structures, Busan, Korea, August 24-28.
8) Su, Y., Huang, G*., and Peng, L. (2014). “Time-frequency Analysis of non-stationary ground motions via multivariate empirical mode decomposition.” Applied Mechanics and Materials, 580-583, 1734-1741. (SCI, EI 检索)
9) 彭留留, 黄国庆*, 苏延文 (2014). “演化功率谱解耦在随机模拟和动力分析中的应用.” 第九届全国地震工程学术会议, 哈尔滨, 8/19-8/22.
10) 苏延文, 黄国庆*, 彭留留 (2014). “考虑反应谱相容的多点非平稳地震动快速模拟.” 第九届全国地震工程学术会议, 哈尔滨, 8/19-8/22.
11) 黄国庆*, 彭留留, 李明水 (2014). “高频风速仪的无线传输系统开发.” 第九届全国风工程和工业空气动力学学术会议, 长春, 7/30-8/3.
12) Huang, G*., Peng, L., and Su, Y. (2014). “Application of wavelet and spectral representation method in nonstationary process simulation.” Second International Conference on Vulnerability and Risk Analysis and Management (ICVRAM2014), Liverpool, UK, July 13-16.
13) Su, Y., Huang, G*., and Peng, L., (2014). “Simulation of multivariate nonstationary ground motions based on new formulation of Cholesky decomposition.” Second International Conference on Vulnerability and Risk Analysis and Management (ICVRAM2014), Liverpool, UK, July 13-16.
14) Peng, L., and Huang, G.* (2015). “Random field-based efficient simulation approach for multivariate homogeneous random process and its application in wind velocity field.” 14th International Conference on Wind Engineering (ICWE14), Porto Alegre, Brazil, June 21-26.
15) Peng, L., Huang, G*., Chen, X., and Kareem, A. (2016). “A hybrid stochastic wave and proper orthogonal decomposition-based simulation approach for multivariate nonstationary wind turbulence processes.” 8th International Colloquium on Bluff Body Aerodynamics and Applications(BBAA VIII), Boston, USA, June 7-11.
16) 黄国庆*, 彭留留 (2016). “一种基于随机场的多点均质风场快速模拟方法.” 第十届全国随机振动理论与应用学术会议暨第五届全国随机动力学学术会议, 福州, 11/05-11/06. (论文第一作者获本次会议青年学者论文奖)
17) 李少鹏, 彭留留, 杨庆山, 操金鑫, 曹曙阳 (2019). “雷暴风作用下 5:1 矩形断面非平稳气动力特性试验研究.” 第十九届全国结构风工程学术会议暨第五届全国风工程研究生论坛, 厦门, 4/18-4/21.
18) Li, S*., Peng, L., Yang, Q., Cao, J., and Cao, S. (2019). “Nonstationary aerodynamic loading of 5:1 rectangular cylinder due to thunderstorm-like gust.” The 15th International Conference on Wind Engineering, Beijing, China, September 1-6.
19) Wang, D*., Xiang, Y., Huang, G., and Peng, L. (2019). “A novel analytical method for the quasi-static buffeting responses of transmission conductors under moving downburst.” The 15th International Conference on Wind Engineering, Beijing, China, September 1-6.
20) 彭留留, 刘敏, 黄国庆, 杨庆山, 姜言 (2020). “基于矩的分段 Hermite 多项式模型的多点平稳非高斯随机过程模拟.” 第十二届全国随机振动理论与应用学术会议暨第九届全国随机动力学学术会议, 重庆, 10/31-11/2.
21) Huang, G., Peng, L*., Kareem, A., and Song, C. (2020). “A novel single sample-based simulation method of multivariate nonstationary winds.” The 13th International Conference on Structural Safety and Reliability, Shanghai, China, June 21-25
七、知识产权
1) 黄国庆, 廖海黎, 李明水, 彭留留, 刘昌福, 马存明. 一种高频风速仪测量数据远程传输系统, 2015-07-08, 中国, ZL201410118627.7 (发明专利)
2) 黄国庆, 彭留留, 刘昌福, 廖海黎, 李明水. 一种数字传感信号驱动智能型节能开关系统, 2017-02-01, 中国, ZL201410344577.4 (发明专利)
3) 黄国庆, 赵宁, 廖海黎, 李明水, 陈波, 彭留留. 一种基于远程控制和数据压缩的数据无线采集系统, 2017-09-19, 中国, ZL201510979968.8 (发明专利)
4) 黄国庆, 彭留留, 廖海黎, 李明水, 何华, 刘昌福. 一种用于大风监测的高频数据远程传输系统, 2019-03-05, 中国, ZL201510178804.5 (发明专利)
5) 黄国庆, 宋淳宸, 彭留留, 苏延文. 一种基于MEMD与SRM的单样本非平稳风速模拟方法, 2019-12-31, 中国,201911404242.6 (发明专利,公开)
6) 闫渤文,黄国庆,郭超明,张楠,周绪红,杨庆山,程旭,彭留留,苏延文. 耦合多点测风仪和微尺度稳态模拟的高分辨率山地风场测量方法, 2022-06-07, CN202210212742.5(发明专利)
7) 彭留留, 苏延文, 吴祚菊, 毕俊伟, 徐佳, 王志佳, 欧阳芳. 空间相关性多点非平稳风场模拟软件, 2014SR082298, 原始取得, 全部权利, 2014-03-15. (软件著作权)
8) 西南科技大学, 吴祚菊, 彭留留, 施杰, 王志佳, 欧阳芳, 闫孔明. 与结构动力特性相容的人工地震动响应计算软件, 2020SR0851319, 原始取得, 全部权利, 2020-05-15. (软件著作权)
9) 姜言, 彭留留, 刘烁宇, 吴祚菊, 赵宁, 辛景舟, 吴凤波. 基于EEMD和特征选择的风速预测软件, 2020SR0818623, 原始取得, 全部权利, 2020-05-15. (软件著作权)
获奖情况
1) 2023 年度华夏建设科技进步一等奖(排名第 6),金属屋面围护结构抗风分析理论与监测关键技术,2024年1月,住建部
2) 2019年度重庆市科技进步一等奖(排名第5),山地高柔结构抗风研究与工程应用,2020年7月,重庆市人民政府
3) 2017年度西南交通大学优秀博士学位论文奖,非平稳极端风实测、建模和模拟及高层建筑风致响应研究,2017年12月,西南交通大学
4) 第八届国际钝体空气动力学及其应用会议(BBAA8)学生参会奖学金,2016年06月,国际风工程协会
5) 西南交通大学博士研究生国家奖学金,2015年10月,中国教育部
6) 国家留学基金委出国留学联合博士培养资助,2015年09月,中国国家留学基金委
研究生培养
每年拟招收硕士研究生2-3名。
联系方式
电子邮箱:liuliu.peng@cqu.edu.cn
通讯地址:重庆大学B区振动台实验楼204室