Wang Xianling

Lecturer

ADDRESS:College of Building Environment Engineering, Zhengzhou University of Light Industry

E-mail: wangxl@zzuli.edu.cn

Research Field and Interests:

Heat pipe, PV/T system, Flow boiling, Nanofluids

Education Background:

2013.09-2017.06 Zhongyuan University of Technology, Civil engineering

2017.09-2020.06  Xi'an University of Technology, Architectural and civil engineering

2020.09-2023.06 Guangdong University of Technology, Civil Materials and Engineering

Teaching Courses:

Engineering mechanics, Building environment

Publications:

[1] Wang Xianling, Luo Liang, Xiang Jinwei, Senlin Zheng, Samson Shittu, Zhangyuan Wang, Xudong Zhao. A comprehensive review on the application of nanofluid in heat pipe based on the machine learning: Theory, application and prediction. Renewable and Sustainable Energy Reviews, 2021, 150:111434.   

[2] Wang Xianling, Yang Jingxuan, Wen Qiaowei, Samson Shittu, Guangming Liu, Zining Qiu, Xudong Zhao, Zhangyuan Wang. Visualization study of a flat confined loop heat pipe for electronic devices cooling. Applied Energy, 2022, 322:119451.

[3] Wang Xianling, Wen Qiaowei, Yang Jingxuan, Samson Shittu, Xupeng Wang, Xudong Zhao, Zhangyuan Wang.  Heat transfer and flow characteristic of a flat confined loop thermosyphon with ternary hybrid nanofluids for electronic devices cooling. Applied Thermal Engineering, 2023, 211:119758.

[4] Wang Xianling, Wen Qiaowei, Jinxia Wu, Yang Jingxuan, Xudong Zhao, Zhangyuan Wang.  Sensitivity analysis and A novel neural network for the heat pipe with nanofluids. Applied Thermal Engineering. 2024, 236:121677.

[5] Wang Xianling, Wen Qiaowei, Yang Jingxuan, et al. A review on data centre cooling system using heat pipe technology. Sustainable Computing: Informatics and Systems, 2022, 35:100774.

[6] Wang Xianling, Yang Jingxuan, Wen Qiaowei, et al. Numerical and experimental investigation of a novel liquid upper-feeding micro-channel flat loop thermosyphon cooling and heat recovery system. International journal of green energy, 2022, 35:110774.

Projects:

Investigation on heat transfer performance of nanofluidic loop heat pipe BIPV/T system (Doctoral research start-up fund of Zhengzhou University of Light Industry [2023BSJJ021]).

Development and performance prediction of ternary composite nanofluid plate loop heat pipe BIPV/T system (Science and technology in Henan Province in 2024,[242102241025]).