李为林

作者: 时间:2023-11-21 点击数:

李为林

基本信息

汉族

19888月生

201107月毕业于郑州大学,建筑环境与设备工程专业,获学士学位

201709月毕业于同济大学,供热、供燃气、通风及空调工程专业,获工学博士学位(硕博连读)

国家注册公用设备工程师(暖通空调)

联系邮箱:weilinli@163.comweilinli@zzu.edu.cn

社会兼职

1. SCI期刊《BuildingsSpecial   Issue-Heat Pump Systems and Thermal Technology for Buildings,特邀编辑

2. 国际期刊《Journal   of Energy and Natural

Resources》、《Journal   of Advanced Thermal Science Research》,编辑

3. Applied   Energy》、《Energy and Buildings》、《Sustainable   Cities and Society》、《Journal of Energy   Storage》等国际著名期刊审稿人

4. 华电郑州机械设计研究院,企业博士后

专业技能

 

研究领域

1. 建筑可再生能源利用与消纳

2. 建筑电力需求响应

3. 户用主、被动储能技术

拟招生专业

1. (081404)供热、供燃气、通风及空调工程

2. (085213)建筑与土木工程(工程硕士),方向:05(全日制)建筑节能与暖通空调工程,08(非全日制)建筑与土木工程

承担项目

纵向课题:

1. 中国博士后科学基金面上项目,2023M731076,基于热惯性单元模块化建模的建筑空调用电柔性量化方法研究,2023/05-2024/05,主持

2. 河南省重点研发与推广专项(科技攻关),222102320113,基于热电弹性传递机制的零碳建筑电力需求柔性量化技术研究与开发,2022/01-2023/12,主持

2. 国家自然科学基金青年基金项目,51808506,复合流场作用下多风道集热墙热湿迁移特性与共轭传热机理研究,2019/01-2021/12,参加

3. 河南省高等学校重点科研项目,19A560022,热惯性作用下的建筑电力需求响应潜力及评价指标研究,2019/01-2020/12,主持

4. 中国博士后科学基金面上项目,2018M632807,建筑热惯性与空调动态特性耦合下的需求响应潜力研究,2018/05-2020/05,主持

5. 国家科技支撑子课题,10002430020,小型户用可再生能源互补供应成套技术与设备集成,2015/01-2017/12,参加

6. 美国能源基金会项目,G140220095,利用建筑分项计量监控平台进行商业楼宇需求响应控制策略与市场机制研究,2014/03-2015/12,参加

7. 上海市自然科学基金,上海中心城区大型公建节能与能效监控公共服务平台的创新研究与实践,2013/01-2014/12,参加

8. 上海市自然科学基金,12230708900,生态建筑多种能源系统实时优化和控制系统研究与开发,2012/10-2014/09,参加

横向课题:

1. 电量、非电量数据交叉聚类方法,2023/07-2023/12,主持

2. 寒冷地区典型建筑节能技术研究(第二阶段),2023/04-2023/08,主持

3. 研究基于能效控制目标的近零能耗建筑数字化集成关键技术,2021/03-2022/12,主持

4. 寒冷地区典型建筑节能技术研究(第一阶段),2021/11-2021/12,主持

5. 北方典型农村用能基础数据库构建,2021/03-2023/12,主持

6. 中国东、中、西部典型农村用能统计及电气化改造优化设计研究,2020/11-2022/12,主持

发表论文

1.      Weilin   Li,   Mingyi Jing, Rufei Li, et al. Study of the optimal placement of phase change   materials in existing buildings for cooling load reduction - Take the Central   Plain of China as an example, 2023, 209: 71-84. (SCI检索)

2.    Weilin   Li,   Yonghui Liang, Changhai Liu, et al. Study of ultra-light modular phase change   cooling clothing based on dynamic human thermal comfort modeling. Building   and Environment, 2022, 222: 109390. (SCI检索)

3.    Weilin   Li,   Guanyu Fang, Liu Yang. The effect of LEED certification on office rental values   in China. Sustainable Energy Technologies and Assessments, 2021.45: 101182.   (SCI检索)

4.    Weilin   Li,   Liu Yang, Jiayin Zhu, et al. A pre-processing method of internal thermal mass   for building energy simulation software. Journal of Building Performance   Simulation, 2021, 14(3): 328-342. (SCI检索)

5.      Liu   Yang, Shiming Deng, Guanyu Fang, Weilin Li*(通讯作者). Improved   indoor air temperature and humidity control using a novel direct-expansion-based   air conditioning system. Journal of Building Engineering, 2021, 43: 102920 (SCI检索)

6.    Weilin   Li,   Jiayin Zhu, Ruixin Li, et al. Experimental study of the effects of internal   non-structural thermal mass on the thermal inertia of the whole building.   Environmental Science and Engineering. 2020: 491-501. (EI检索)

7.    Liu   Yang, Huaxia Yan, Shiming Deng, Weilin Li*(通讯作者). An   experimental investigation on the operational characteristics of a novel   direct expansion based air conditioning system with a two-sectioned cooling   coil. International Journal of Refrigeration, 2020, 118: 131-138.

8.    Weilin   Li,   Liu Yang, Ying Ji, et al. Estimating demand response potential under coupled   thermal inertia of building and air-conditioning system. Energy &   Buildings, 2019, 182:19-29. (SCI检索)

9.    Weilin   Li,   Liu Yang, Baisong Ning. Effect evaluation of chiller-side strategies in demand   response of Chinese commercial buildings. Energy Procedia, 2019, 158:   2549-2554. (EI检索)

10. Weilin Li, Liu   Yang. Study on the effects of air conditioners under intermittent operation   conditions on residential demand response. Energy Procedia, 2019, 158:   2902-2908. (EI检索)

11. 李为林,杨柳,童丽萍. 基于建筑热惰性实现住宅需求响应的研究. 建筑科学, 2018. 34 (12): 54-58. (中文核心)

12. Weilin Li,   Yiyi Chu, Peng Xu, et al. A transient model for the thermal inertia of   chilled-water systems during demand response. Energy and Buildings, 2017,   150: 383-395. (SCI检索)

13. Weilin Li,   Peng Xu, Xing Lu, et al .Electricity demand response in China: Status,   feasible market schemes and pilots. Energy, 2016, 114: 981-994. (SCI检索)

14. Weilin Li,   Peng Xu, Huilong Wang, et al. A new method for calculating the thermal   effects of irregular internal mass in buildings under demand response. Energy   and Buildings, 2016, 130: 761-772. (SCI检索)

15. Weilin Li,   Yongbao Chen, Peng Xu, et al. Research on the performance of an adsorption   heat pump in winter demand response. Science and Technology for the Built   Environment, 2016, 23(3): 449-456. (SCI检索)

16. Weilin Li,   Peng Xu, Feifei Jiao. Optimal demand response strategy of a portfolio of   multiple commercial buildings: Methods and a case study. Science and   Technology for the Built Environment. 2016, 22(6): 655-665. (SCI检索)

17. Weilin Li,   Peng Xu. A fast method to predict the demand response peak load reductions of   commercial buildings. Science & Technology for the Built Environment,   2016, 22(6): 633-642. (SCI检索)

18. Weilin Li,   Chirag Joshi, Peng Xu, Ferdinand Schmidt. Experimental study on adsorption   refrigeration system with stratified storage - Analysis of storage discharge   operation. Procedia Engineering, 2016, 146: 624-630. (EI检索)

19. Weilin Li,   Peng Xu, Yunyang Ye. Case study of demand response in a large commercial   building-A pilot program in Shanghai. 9th International Conference on Indoor   Air Quality Ventilation & Energy Conservation in Buildings. Seoul,   Republic of Korea, 2016, 10.23-10.26 (国际会议)

20. 李为林, 许鹏. 基于分项计量平台的节能量计算方法研究. 建筑节能, 2014(5): 90-94

授权专利

1. 小型直膨式相变蓄冷空调系统   ZL 2022 2 0931006.0

2. 一种农业垃圾处理装置,ZL 2021 2 3228725.0

3. 配备盘管无压蓄冷水箱的风冷机组蓄冷系统,ZL 2021 2 1230720.9

4. 一种联合飞机空调系统的消毒系统,ZL 2021 2 1214018.3

著作

《建筑需求响应控制及应用技术》 副主编

荣誉奖励

1. 2023年,郑州大学优秀专业硕士学位论文指导教师

2. 2023年,河南省教育厅科技成果奖优秀科技论文奖奖励,一等奖

2. 2019年,郑州大学校级优秀班主任

2. 2019年,郑州大学土木工程学院院级“三育人”

3. 2019年,郑州大学校级优秀毕业论文指导教师

联系方式

weilinli@zzu.edu.cn

weilinli@163.com