姓名

肖飞

性别

男

出生

年月

1987/8

职称/职务

副高

导师

类别

硕士导师

研究领域

新能源开发与储能

招生学科

土木、材料、能源交叉学科

联系方式

15897621878/fei.xiao@ntu.edu.sg

一、教育背景

2014年8月~2018年8月，博士，Nanyang Technological University (Singapore），土木工程

2011年9月~2014年3月，硕士，上海交通大学，船舶与海洋工程

2007年9月~2011年6月，本科，华中科技大学，船舶与海洋工程

二、工作经历

2021年6月至今，南京航空航天大学

2019年5月~2021年4月，SJ-NTU Corporate Lab，Research Fellow

2018年8月~2019年5月，NTU-JTC Industrial Infrastructure Innovation Centre (I³C），Data Analyst

三、教学与科研

教学课程

本科课程《BIM原理与应用》《工程结构BIM设计》《桥涵水文》等

研究生课程：《Experimental Design and Data Analysis》

研究方向

跨季节地热储能与人造间歇泉自循环采热机制：研究聚焦于人造间歇泉系统在非平稳态气候条件下的热平衡动力学。通过集热－储热－采热的异步并联运行框架，解析能量在浅层调储与深部转化全链条中的流转机理，旨在解决单井地热系统长期运行的热亏空与性能衰减难题。

氢能全产业链热管理与高效换热结构拓扑优化：面向航空氢能动力系统，研究液氢汽化过程中的超低温冷能回收与高效提取技术。利用拓扑优化算法重新设计换热器内部流道结构，实现复杂相变边界下的热－力－流多场耦合性能增强，提升零碳推进系统的整体能源利用效率。

基于增材制造的相变储能混凝土及其在低碳基础设施中的被动热管理：研究聚焦于通过增材制造（3D打印）实现相变储能材料与水泥基体的功能一体化设计。利用3D打印的自由建模优势，优化储能构件的内部空间拓扑结构，提升相变材料的封装效率与换热性能。

研究项目

2023~2025，基于换热功能结构重塑以增强单井地热系统的机理研究，主持

2019~2021，Investigation on Underground LNG Storage Solution，新能源存储与利用工程研究项目，科研骨干，负责多物理场建模与分析

2014~2019，True Improvement in Grouting High pressure Technology，多国合作科研项目，科研骨干，负责构建理论模型和数据分析

论文专著教材及

专利软著

论文

Chen, Ziming; Fei, Xiao; Numerical simulation of single well geothermal system based onthe artificial geyser concept considering phase change and multiphysics coupling, Geomechanicsand Geophysics For Geo-energy and Geo-resources, 2025, 11 (33)

Chen, Ziming; Xiao, Fei; Fan, Liming; Niu, Zihao; Liu, Xiaolong; Yan, Yong; Xu, Wenshuai;Han, Lei; Yang, Lizhong; Development and techno-economic analysis of an innovative U-shapedgeothermal system with artificial geyser, Renewable Energy, 2026, 262

Fei Xiao; Lizhong Yang; Lei He; Antoni Gil; Srithar Rajoo; Zhiye Zhao; AlessandroRomagnoli; Luisa F. Cabeza; Performance enhancement of horizontal extension and thermal energystorage to an abandoned exploitation well and satellite LNG station integrated ORC system.Applied Thermal Engineering, 2022,214(2022)

Fei Xiao; Zhiye Zhao; Lizhong Yang; Innovative measures for thermal performanceenhancement of single well-based deep geothermal systems: existing solutions and some viableoptions, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2022, 8(137).

Xiao Fei*, Qian Liu, Zhao Zhiye, Information and Knowledge Behind Data from Underground Rock Grouting. Journal of Rock Mechanics and Geotechnical Engineering [J], 2021.

Xiao, F., J. Shang, A. Wanniarachchi and Z. Zhao (2021). "Assessing fluid flow in rough rock fractures based on machine learning and electrical circuit model." Journal of Petroleum Science and Engineering 206: 109126.

Wang, X., Xiao, F., Zhang, Q., Zhou, A., & Liu, R. (2021). Grouting characteristics in rock fractures with rough surfaces: apparatus design and experimental study. Measurement, 184(20), 109870.

Fei Xiao, Zhiye Zhao. Influence of fracture deformation on grout penetrability in fractured rock masses[J]. Tunnelling and Underground Space Technology, 2020, 102: 103431.

Liu Q, Xiao F*, Zhao Z. Grouting knowledge discovery based on data mining[J]. Tunnelling and Underground Space Technology, 2020, 95: 103093.

Xiao F, Shang J, Zhao Z. DDA based grouting prediction and linkage between fracture aperture distribution and grouting characteristics[J]. Computers and Geotechnics, 2019, 112: 350-369.

Xiao F, Zhao Z. Evaluation of equivalent hydraulic aperture (EHA) for rough rock fractures[J]. Canadian Geotechnical Journal, 2019, 56(10): 1486-1501.

Xiao F, Zhao Z, Chen H. A simplified model for predicting grout flow in fracture channels[J]. Tunnelling and Underground Space Technology, 2017, 70: 11-18.

Yang H, Xiao F, 2014. Instability analyses of a top-tensioned riser under combined vortex and multi-frequency parametric excitations. Ocean Engineering: 81 (0), 12-28.

Yang H, Xiao F, Xu P, 2013. Parametric instability prediction in a top-tensioned riser in irregular waves. Ocean Engineering, 70: 39-50.

Xiao F, Yang H, 2013. Probabilistic assessment of parametric instability of a top tensioned riser in irregular waves. Journal of Marine Science and Technology, 19(3): 245-256.

Shang J, Jayasinghe L B, Xiao F, et al. Three-dimensional DEM investigation of the fracture behaviour of thermally degraded rocks with consideration of material anisotropy[J]. Theoretical and Applied Fracture Mechanics, 2019, 104: 102330.

Liu Q, Zhao Z, Nie W, Sun J, & Xiao F. An Analytical Investigation on the Estimation of Water Inflow into a Circular Tunnel Based On site Data.

Yang H, Wang Z, Xiao F, 2017. Parametric resonance of submerged floating pipelines with bi-frequency parametric and vortex-induced oscillations excitations. Ships and Offshore Structures, 12(3), 395-403.

Zhang X, Yang H, Xiao, F, et al. (2017). Ince-Strutt stability charts for ship parametric roll resonance in irregular waves. China Ocean Engineering, 31(4), 447-457.

Xiao F, Yang H, 2014. Hill stability prediction of deep-sea Steel Catenary Riser. Journal of Shanghai Jiao Tong University (EI) 48(04):583-588.

Xiao F, Yang H, Lu Q, et al, 2013. Vortex-induced parametric resonance of top tensioned riser based on bi-frequency excitation. Ocean Engineering (Chinese Core), 31(2): 28-34.

Guo, Yx., Zhang, Qs., Xiao, F. et al. Grouting rock fractures under condition of flowing water. Carbonates Evaporites 35, 96 (2020)

专利与软著

【专利】A Hybrid System With In-Ground LNG Storage, Single-Well Geothermal Exploitation And Power Generation

【专利】一种适用于闪蒸发电的机械式自动喷雾阀门，ZL 202420211291.8

【软著】U型井人造间歇泉自循环地热能系统仿真软件V1.0, 2025SR0734308

【软著】航运绿色能源供应链等效成本与供需预测软件 V1.0, 2025SR0734329

其他教学科研标志性工作

Best presentation, the SRMEG (Singapore) Outstanding Paper Award 2021

第十七届“春晖杯”中国留学人员创新创业大赛，新能源与节能组，优胜奖， 教育部国际合作与交流司

四、荣誉奖项

2024年度，南京航空航天大学本科招生工作先进个人

五、其他（社会兼职等）

江苏省高新技术企业认定专家库，专家

“十五五”民航科技规划研究“航空油料组”专家库，专家

The Society for Rock Mechanics & Engineering Geology (SRMEG），会员

中国岩石力学与工程学会，会员