邹雪琳

发布时间:2026-06-15

一、基本信息:

学位:博士

职称:讲师、硕士生导师

电子邮箱zouxl@dgut.edu.cn

招生专业:动力工程及工程热物理、能源动力

二、教育工作经历:

201809-至今,东莞理工学院,专任教师

201309- 201806月,中山大学,材料物理与化学,博士

三、研究领域:

工业催化过程原理和相变热储能。

四、代表性研究成果:

(一)代表性论文/论著

1Yuan, Kunjie; Chen, Qiuyang; Zhang, Aijia; Xiao, Nan; Zou, Xuelin; Lin, Zhiqun; Efficient thermal energy conversion and storage enabled by hybrid graphite nanoparticles/silicaencapsulated phase-change microcapsules, Journal of Materials Chemistry A, 2024, 12(4): 2456- 2464.

2Liu, Jian; Zou, Xuelin; Cai, Zhuodi; Peng, Zhezhe; Xu, Yongjun; Polymer based phase change material for photo-thermal utilization, Solar Energy Materials and Solar Cells, 2021, 220: 110852-110858.

3Zou, Xuelin; Liu, Jian; Polyoxyethylene based phase change materials with enhanced mechanical property, thermal conductivity and photo-thermal energy charging capacity, Energy Reports, 2020, 6: 2948-2955.

4Zou, Xuelin; Liu, Jian; Gao, Yu; Chen, Xianghui; Su, Haoyao; Huang, Kaibin; The mechanism on enhancing heat and mass transfer property for improving CH4 catalytic combustion performance of hollow CeO2 microspheres, Chemical Engineering Science, 2023, 277: 118837-118843.

5Zou, Xuelin; Ma, Zilin; Deng, Jiale; Zhong, Jiajin; He, Yunbing; Liu, Jian; Core-shell PdO@SiO2/Al2O3 with sinter-resistance and water-tolerance promoting catalytic methane combustion, Chemical Engineering Journal, 2020, 396: 125275-125281.

(二)科研项目

1、国家自然科学基金青年基金:基于热质传递行为探讨Pd/CeO2@hol-ZSM-5中空多级核壳结构提升CH4催化燃烧性能的作用机制,26万,主持。

2、广东省自然科学基金面上项目,2017A030313261,多级套管式Pd/Co3O4@hol-ZSM-5核壳结构强化热质传递过程提升CH4催化燃烧性能的作用机制研究,10万,主持。

(三)专利

邹雪琳; 刘鉴; 一种用于低浓度甲烷燃烧的催化剂及其制备方法, 2024-10-22, 中国, CN202211467490.7



Zou Xuelin

Basic information

Degree:Ph.D.

Job Title:Lecturer and Master's Supervisor

Email address:zouxl@dgut.edu.cn

Admission Majors: Power Engineering and Engineering Thermophysics、Energy and Power

Ⅱ、Education and work experience:

Sept. 2018 – Present, Dongguan University of Technology, Full-time Faculty

Sept. 2013 – Jun. 2018, Sun Yat-sen University, Materials Physics and Chemistry, Ph.D.

Ⅲ、Research Interests

Principles of Industrial Catalytic ProcessesPhase Change Thermal Energy Storage

Ⅳ、Representative research achievements:

Representative papers/books

1Yuan, Kunjie; Chen, Qiuyang; Zhang, Aijia; Xiao, Nan; Zou, Xuelin; Lin, Zhiqun; Efficient thermal energy conversion and storage enabled by hybrid graphite nanoparticles/silicaencapsulated phase-change microcapsules, Journal of Materials Chemistry A, 2024, 12(4): 2456- 2464.

2Liu, Jian; Zou, Xuelin; Cai, Zhuodi; Peng, Zhezhe; Xu, Yongjun; Polymer based phase change material for photo-thermal utilization, Solar Energy Materials and Solar Cells, 2021, 220: 110852-110858.

3Zou, Xuelin; Liu, Jian; Polyoxyethylene based phase change materials with enhanced mechanical property, thermal conductivity and photo-thermal energy charging capacity, Energy Reports, 2020, 6: 2948-2955.

4Zou, Xuelin; Liu, Jian; Gao, Yu; Chen, Xianghui; Su, Haoyao; Huang, Kaibin; The mechanism on enhancing heat and mass transfer property for improving CH4 catalytic combustion performance of hollow CeO2 microspheres, Chemical Engineering Science, 2023, 277: 118837-118843.

5Zou, Xuelin; Ma, Zilin; Deng, Jiale; Zhong, Jiajin; He, Yunbing; Liu, Jian; Core-shell PdO@SiO2/Al2O3 with sinter-resistance and water-tolerance promoting catalytic methane combustion, Chemical Engineering Journal, 2020, 396: 125275-125281.

Scientific research project

1National Natural Science Foundation of China (Youth Program), Mechanistic Study on the Enhancement of CH4 Catalytic Combustion Performance by Pd/CeO2@hol-ZSM-5 Hollow Hierarchical Core-Shell Structure Based on Heat and Mass Transfer Behavior, Principal Investigator.

2Guangdong Provincial Natural Science Foundation (General Program), 2017A030313261, Mechanistic Study on the Enhancement of Heat and Mass Transfer Process by Multi-layered Telescopic Pd/Co3O4@hol-ZSM-5 Core-Shell Structure for Improved CH4 Catalytic Combustion Performance, Principal Investigator.

Patents

Zou Xuelin, Liu Jian. A Catalyst for Lean Methane Combustion and Preparation Method Thereof. China, CN202211467490.7, October 22, 2024.



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