主要经历

学习经历

2007.09—2010.06     武汉大学                 结构工程      博士学位

2001.09—2004.06     河南理工大学        工程力学      硕士学位

1995.09—1998.06     河南广播电视大学  工民建         专科学位

任职经历

2018.06-                厕所偷拍 , 副教授/硕导

2017.02-2017.08   香港城市大学, 建筑土木系, 博士后（研究员）

2014.03- 2016.02   曼尼托巴大学, 机械工程系, 博士后

2012.09-2013.09   曼尼托巴大学, 机械工程系, 访问学者

2014.01-2018.05    湖北文理学院, 机械工程学院, 讲师

2010.06-2013.12    湖北文理学院, 土木建筑工程学院, 讲师

2004.06-2007.09    襄樊学院, 土木建筑工程系, 讲师

1998.06-2001.09    南阳市建筑安装总公司二分公司，技术员

主要研究领域和方向

方向一：建筑节能技术

方向二：深井随钻压电发电技术

方向三：波浪能发电技术

主讲课程

本科生课程：建筑结构抗震设计、弹性力学及有限元

研究生课程：结构动力学

代表性成果

项目：

[1] 厕所偷拍 “双一流”项目，压电发电技术的工程应用研究，项目负责人，2018.09-2020.09

[2] 厕所偷拍 ESI计划学科培育项目，压电智能材料的应用研究，项目负责人，2018.09-2020.09

[3] 中国一冶集团横向课题，荆州中医院挑檐施工关键技术研究与应用，项目负责人，2023.02-2023.10

[4] 海口光速启航智能科技横向课题，爬壁机器人实时进度监控与自动循迹控制平台，项目负责人，2025.06-2026.06

[5] 荆州市明德科技有限公司横向课题，双晶扭振梁压电发电机，项目负责人，2025.03-2026.03

[6] 湖北省高等学校大学生创新训练项目（国家级），压电吸能减振装置，指导教师，2020.01—2023.12

[7] 湖北省教育厅教研项目，“新工科”视角下土木工程专业课程体系与教学内容改革的研究与实践，项目参与人，2020.09-2023.08

[8] 湖北省科学技术厅技术创新专项（重大项目），金属管道焊接缺陷智能检测系统研发，项目参与人，2019.01-2023.04

发明专利：

谢向东, 张建坤. 一种离岸振荡水柱发电船. 2021-01-22, 中国ZL201911154852.5

谢向东, 张建坤, 杜国锋. 一种改进的圆环涡轮机. 2021-08-17, 中国ZL201911337413.8

谢向东, 王子敬, 杜国锋. 一种多功能压电发电鞋. 2022-05-24, 中国ZL202010851851.2

谢向东, 张建坤, 杜国锋. 一种室内日照系统. 2022-05-17, 中国ZL202010745089.X

谢向东, 张劲峰, 杜国锋. 一种压电阻尼装置. 2023-09-29, 中国ZL202010505618.9

谢向东, 张建坤, 杜国锋. 一种悬臂式压电阻尼器. 2022-02-01, 中国ZL202010505629.7

谢向东, 张建坤, 杜国锋. 一种压电吸能阻尼器. 2022-02-18, 中国ZL 2020 1 0506599.1

谢向东, 张劲峰, 杜国锋. 多段刚性变截面梁发电机及波浪发电机. 2023-09-29, 中国ZL201811303204.7

谢向东, 杜国锋. 压电发电机. 2024-08-02，中国ZL201811588698.8

谢向东, 杜国锋. U型梁单元压电发电机. 2024-07-05, 中国ZL201810676560.7

谢向东, 王子敬, 杜国锋. 一种压力发电装置. 2024-08-02, 中国ZL201910314493.9

谢向东, 张建坤, 王子敬. 一种独轮车式波浪能俘能发电装置. 2024-01-23, 中国ZL202111130588.9

谢向东, 王克成, 赵焱. 一种地坑院运土升降装置. 2023-01-24, 中国ZL202110523953.6

谢向东, 黄迅楠, 王 克成. 一种地坑院建筑. 2023-10-27, 中国ZL202110444815.9

谢向东, 王俊杰, 张远庆. 一种压电吸能减振装置. 2024-11-26, 中国ZL201911106839.2

谢向东, 廖恒, 杜国锋. 双晶扭振梁单元压电发电机. 2025-01-10,中国ZL201811023718.7

杜国锋, 徐晋东, 谢向东. 高落差管道振动试验台. 2022-05-06,中国ZL201810708345.0

王浩哲, 谢向东, 袁昊天. 一种波浪能发电装置. 2025-05-23,中国ZL2025106746127

谢向东, 陈海龙, 刘金海. 一种波浪能发电装置. 2025-05-16,中国ZL2025106342246

实用新型专利

谢向东, 白冰洁, 杜国锋. 多段弯折梁式压电发电机及波浪发电船. 2019-12-17, 中国ZL201822183671.2

谢向东,张建坤,张劲峰.一种用于梁体的振动试验台. 2020/07/03, 中国ZL201921962967.2

王洋, 谢向东*, 崔熬菘. 一种小型不倒翁式组合发电装置. 2023-08-22, 中国ZL202320666439.2

论文：

X.D. Xie and Q. Wang. Energy harvesting from a vehicle suspension system. Energy (SCI1区), 2015, 86: 385-392.

X.D. Xie and Q. Wang. A mathematical model for piezoelectric ring energy harvesting technology from vehicle tires. International Journal of Engineering Science (SCI1区), 2015, 94:113-127.

X.D. Xie, Q. Wang, N. Wu. Potential of a piezoelectric energy harvester from sea waves. Journal of Sound and Vibration (SCI2区), 2014, 333:1421-1429.

X.D. Xie, N. Wu, K.V. Yuen, Q. Wang. Energy harvesting from high-rise buildings by a piezoelectric coupled cantilever with a proof mass. International Journal of Engineering Science (SCI1区), 2013, 72:98-106.

X.D. Xie, Q. Wang, N. Wu. A ring piezoelectric energy harvester excited by magnetic forces. International Journal of Engineering Science (SCI1区), 2014, 77:71-78.      

X.D. Xie, Q. Wang, N. Wu. Energy harvesting from Transverse Ocean waves by a piezoelectric plate. International Journal of Engineering Science (SCI1区), 2014, 81:41-48.      

X.D. Xie, Q. Wang, and S.J. Wang. Energy harvesting from high-rise buildings by a piezoelectric harvester device. Energy(SCI1区), 2015, 93:1345-1352.      

X.D. Xie and Q. Wang. Design of a piezoelectric harvester fixed under the roof of a high-rise building. Engineering Structures(SCI2区), 2016, 117:1-9.

X.D. Xie and Q. Wang. A theoretical model for a piezoelectric energy harvester with a tapered shape. Engineering Structures (SCI2区), 2017, 144: 17-25.

X.D. Xie and Q. Wang. A study on a high efficient cylinder composite piezoelectric energy harvester. Composite Structures (SCI1区), 2017, 161:237-245.

X.D. Xie and Q. Wang. A study on an ocean wave energy harvester made of a composite piezoelectric buoy structure. Composite Structures (SCI1区), 2017, 178: 447-454.

J. Zhang; X. Xie*; G. Song; G. Du; D. Liu. A study on a near‐shore cantilevered sea wave energy harvester with a variable cross section. Energy Science & Engineering (SCI3区), 2019, 00: 1-12.

X. Hu; Y. Li; X Xie*. A study on a U-shaped piezoelectric coupled beam and its corresponding ingenious harvester. Energy (SCI1区), 2019, 185: 938-950.

D. Liu*; Y. Li; X. Xie*; J. Zhao. Effect of Pre-Corrosion Pits on Residual Fatigue Life for 42CrMo Steel. Materials (SCI2区), 2019, 12(2130): 1-13.

D. Liu*; Y. Li; X. Xie*; G. Liang; J. Zhao. Estimating the Influences of Prior Residual Stress on the Creep Rupture Mechanism for P92 Steel. Metals (SCI2区), 2019, 9(639): 1-14.

X. Xie*, J. Zhang, G. Song*, Z. Wang. An experimental study on a high-efficient multifunctional U-shaped piezoelectric coupled beam. Energy Conversion and Management (SCI1区), 2020; 224:113330.

X. Xie*, Z. Wang, D. Liu*, G. Du*, J. Zhang. An experimental study on a novel cylinder harvester made of L-shaped piezoelectric coupled beams with a high efficiency. Energy (SCI1区), 2020; 212:118752.

X.D. Xie*, J.F. Zhang, Z.J. Wang, X.B. Hu. Contribution evaluation from each optimization factor of cantilevered harvesters in the improvement of their energy harvesting performance. Journal of Electrical Engineering & Technology(SCI3区), 2021. 1-16.

Xiaobin Hu, Chen Lu, Xiaoqing Zhu, and Xiangdong Xie*. A Theoretical Study of Estimating the Elastic Responses of Framed Self-Centering Wall Structures under Lateral Loading. KSCE Journal of Civil Engineering(SCI3区), 2020, 24(12):3714-3725.

Xiangdong Xie*, Heng Liao, Jinfeng Zhang, Guofeng Du*, Quan Wang*. An investigation on a cylinder harvester made of piezoelectric coupled torsional beams. Energy Conversion and Management (SCI1区), 2021, 251(2022):114857.

Jiankun Zhang; Xiangdong Xie*; Jinfeng Zhang. An investigation on an absorber working through piezoelectric conversion mechanism. Energy Science and Engineering(SCI3区), 2021, 10(2): 538-551.

Xie Xiangdong*; Wang Zijing; Zhang Jiankun; Zhao Yan; Du Guofeng. A study on a novel piezoelectric bricks made of double-storey piezoelectric coupled beams. Energy(SCI1区) 2022, 250:123769.

Zijing Wang, Xiangdong Xie*, Jinfeng Zhang, Guofeng Du. An Experimental Study on Efficient Piezoelectric Coupled Beams and Corresponding Piezoelectric Bricks. Applied Sciences (SCI3区) 2021, 11:11504.

Xiangdong Xie*, Xunnan Huang, JunjieWang. An Investigation on Energy Harvesting Behavior of an Array Piezoelectric Coupled Disc Damper. Micromachines(SCI3区) 2022, 13:1244.

Xiangdong Xie*, Jiankun Zhang, Zijing Wang, Lingjie Li. The effect of magnetic proof masses on the energy harvesting bandwidth of piezoelectric coupled cantilever array. Applied Energy (SCI1区, IF11.2), 2024, 353:122042.

Jianing Yan, Xunnan Huang, Xiangdong Xie*. Displacement field and mechanical analysis of a creeping silo-cave and the evaluation about its popularization potentiality. Journal of Asian Architecture and Building Engineering  (SCI3区), 2024, 1(1):1-13.

Xiangdong Xie*, Lingjie Li, Lin Huang. A study on the energy harvesting performance and corresponding theoretical models of piezoelectric seismic energy harvesters. Applied Energy (SCI1区), 2025, 377:124516.

N. Wu; Q. Wang*; XD. Xie. Wind energy harvesting with a piezoelectric harvester. Smart Materials and Structures (SCI3区), 2013, 22: 095023.

N. Wu; Q. Wang*; XD. Xie. Ocean wave energy harvesting with a piezoelectric coupled buoy structure. Applied Ocean Research(SCI2区), 2015, 50:110-118.

N.V. Viet; X.D. Xie; K.M. Liew; N. Banthia; Q. Wang*. Energy harvesting from ocean waves by a floating energy harvester. Energy (SCI1区), 2016, 112:1219-1226.

X. Zeng; F. Dong; X. Xie; G. Du*. A new analytical method of strain and deformation of pipeline under fault movement. International Journal of Pressure Vessels and Piping (SCI1区), 2019, 172 :199-211

F. Dong; X. Bie; J. Tian; X. Xie and G. Du*. Experimental and Numerical Study on the Strain Behavior of Buried Pipelines Subjected to an Impact Load. Applied Sciences (SCI3区), 2019, 9: 3284.

Wenshuai Jiao, Jindong Xu, Jiangping Tian, Xiangdong Xie, Guofeng Du*. Seismic response analysis of buried pipelines with the high drop. International Journal of Pressure Vessels and Piping (SCI3区), 2021, 191:104379.

Xuan Cao, Xiangdong Xie, Tianyi Zhang, Guofeng Du*. Bond-slip behavior between high-strength steel tube and Ultra-high Performance Concrete. Structures (SCI2区), 2022, 47:1498-1510.

Ling Nie, Weiguo Ma*, Xiangdong Xie. Prediction and analysis of dominant factors influencing moisture content during vacuum screening based on machine learning. Scientific Reports (SCI3区, IF3.8), 2024, 14:18272

Xiaozhen Du*, Pengkai Li, Zihao Li, Xiangdong Xie, Lihua Tang. Multi-Pillar Piezoelectric Stack Harvests Ocean Wave Energy with Oscillating Float Buoy. Energy 298 (2024) 131347

Du Xiaozhen*, Du Lixiang, Cai Xing, Hao Zhenfu, Xie Xiangdong. Dielectric elastomer wave energy harvester with self-bias voltage of an ancillary wind generator to power for intelligent buoys. Energy conversion and management, 2022,253:115178

奖励：

[1] 谢向东，王泉. 一直复合压电浮标海洋能采集器的研究（121006），荆州市自然科学优秀学术论文一等奖，2019

[2] 陈语阳. 《荆州市税务局综合办公楼》，厕所偷拍 优秀学士学位论文，指导教师，2019

[3] 张劲峰. 《“弓”字形压电耦合单元吸能减振性能及其应用研究》，厕所偷拍 优秀硕士学位论文，导师，2021

[4] 王子敬. 《基于L形压电耦合梁单元的路面能量俘获装置研究》，厕所偷拍 优秀硕士学位论文，导师，2022

[5] 王俊杰. 压电吸能减震装置（国家级编号：202010489011、校级编号：2019001）, 厕所偷拍 第六届“互联网+”大学生创新创业大赛高教主赛道中荣获“师生共创组”二等奖）,指导老师，2020