郑森林、院长助理、副教授、硕士生导师、广东省优秀博士、华南农业大学高层次引进人才(突出人才)、国家一级注册建筑师、注册暖通工程师、美国LEED AP、WELL AP。
先后主持/主要承担科技部重点研发计划、政府间国际科技创新合作重点专项、国家自然科学基金重点项目、中国-新加坡国际科技合作项目、国家自然科学基金面上项目、国家自然科学基金青年项目、欧盟地平线居里夫人行动项目、广东省重点国别双边联合资助、广东省重点研发等国家级及省部级科研项目十余项。
完成省市重点工程项目二十余项。
担任广东省及广州市节能评审专家,中国建筑协会建筑物理分会会员,广东省建筑节能协会会员,Building and Environment,Sustainable Cities and Society,Engineering with Computers等多个国际期刊评阅人。
联系方式:
地址:广东省广州市天河区五山路华南农业大学水利与土木工程学院35号楼106
研究方向:
绿色-零碳-零能耗建筑与园区关键技术研究及应用
生态城市与海绵城市关键技术研究与应用
轨道交通上盖建筑(TOD)振动噪声控制关键技术研究与应用
近年来主持及主研项目:
1.佛山海关大楼绿色-低碳-节能-海绵专题研究,2023-2024, 结题, 主持
2.佛山综合停车场及配套项目绿色-低碳-节能-海绵专题研究,2023-2024, 结题, 主持
3.佛山杨和镇风景区骑楼项目绿色-低碳-节能-海绵专题研究,2023-2024, 结题, 主持
4.佛山市城市轨道交通四号线一期工程项目《平胜车辆段综合减振降噪专题研究》,2021-2022, 结题, 主持
5.佛山市城市轨道交通四号线一期工程项目《大朗山停车场综合减振降噪专题研究》,2021-2022, 结题, 主持
6.佛山地铁三号线大良停车场上盖建筑综合减振降噪专题研究,2022-2023, 结题, 主持
7.广州地铁三号线广州新城停车场上盖物业开发综合减振降噪专题研究,2023,在研, 主持
8.佛山地铁三号线大良停车场绿色-低碳-节能-海绵综合设计,2023, 在研, 主持
9.顺德创意园绿色-低碳-节能-海绵综合设计,2022-2023, 在研, 主持
10.国家自然科学基金委员会,青年基金,52008115, 湿热气候下树木对城市街谷热环境影响的热湿传递机理及模型化研究, 在研, 主持
11.亚热带建筑科学国家重点实验室面上项目,2021ZB08,基于大湾区城市群气候特征的自适应墙体构造研究,2021-01至2022-12, 在研, 主持。
12.政府间国际科技创新合作重点专项,2019YFE012078, 近零能耗高层建筑自适应围护结构关键技术研究,2020-12至2023-11,627万元,结题,主研。
13.国家自然科学基金委员会,面上项目,51878288, 湿热地区乔木对城市居住区热环境影响机理及优化配置研究,2019-01至2022-12, 在研,主研
14.国家自然科学基金委员会,面上项目,51778237, 热地区硬化路面淋水对城市街区热环境影响的机理研究,2018-01至2021-12, 在研,主研
15.欧盟地平线2020 计划居里夫人行动项目,A novel loop-heat-pipe (LHP)-based data centre heat removal and recovery system employing the micro-channels cold/hot plates,2019-01至2021-12, 结题,主研
16.广东省重点国别双边联合资助项目,2018A050501002,先进绿色城镇能耗及碳排放预测管理与辅助设计平台,2018-01至2021-12, 结题,主研
17.国家自然科学基金委员会,青年基金,51608206, 亚热带城区建筑风驱雨模型研究,2017-01至2019-12, 结题,主研
18.亚热带建筑科学国家重点实验室, 探索创新项目,2017KB10, 亚热带地区树木对居住区室外微气候影响研究,2017-01至2019-12, 结题,主研
19.广州市越秀科技局, 面上项目,2016—GX—013, 住区园林环境微气候改善关键技 术创新与应用,2016-09至2018-12, 结题,主研
20.广东省重点研发绿色低碳智能养殖关键技术专项,集约化养殖中禽畜典型异常行为调控关键技术研究,2026-2028,在研,主研
近年发表论文(*为通讯作者):
1: Yang Liu, Quan Liao,Senlin Zheng*. Prediction and analysis of building nose above metro depot, Vibroengineering Procedia, 2022, 77-83.
2:Senlin Zheng, Zining Qiu, Caiwei He, Zhangyuan Wang*, Research on heat transfer mechanism and performance of a novel adaptive enclosure structure based on micro-channel heat pipe, Energy, 2022, 124337.
3:Senlin Zheng, Jean-Michel Guldmann, Zhangyuan Wang*, Zining qiu, Caiwei He,KailaiWang.Experimental and theoreticalstudy ofurban tree instantaneous and hourly transpiration rates and their cooling effect in hot and humid area. Sustainable Cities and Society, 2021 (68):102808.
4:Senlin Zheng,Jean-Michel Guldmann, Zhixin Liu, Lihua Zhao*. Influence of Trees on the Outdoor Thermal Environment in Subtropical Areas: An Experimental Study in Guang Zhou, China. Sustainable Cities and Society, 2018 (42):482-497.
5:Senlin Zheng, Lihua Zhao*, Qiong Li.Numerical simulation of the impact of different vegetation species on the outdoor thermal environment. Urban Forestry & Urban Greening,2016(18):138-150.
6:Senlin Zheng, Wei Zhang*, Xiangcui Lv. Numerical simulation of cross-flow around three equal diameter cylinders in an equilateral-triangular configuration at low Reynolds numbers. Computers and Fluids,2016(130):94-108.
7:Senlin Zheng, Jean-Michel Guldmann, Zhixin Liu, Lihua Zhao*, Junsong Wang. Modeling of shade creation and radiation modification by four tree species in hot and humid areas: Case study of Guangzhou, China. Urban Forestry & Urban Greening,2019 (47):126545
8:Senlin Zheng, Jean-Michel Guldmann, Zhixin Liu, Lihua Zhao*, Junsong Wang. Predicting the influence of trees on urban wind through wind tunnel tests and numerical simulations: Case study of Guangzhou, China. Sustainable Cities and Society,2020,30,102116.
9:Senlin Zheng. Early prediction of cooling load in energy eicient buildings through novel optimizer of shuled complex evolution.Engineering with Computers, 2020, 40, 115-128.
10:Guang Chen, Minjie He, Nan Li, Senlin Zheng*. A Method for Selecting the Typical Days with Full Urban Heat Island Development in Hot and Humid Area, Case Study in Guangzhou, China. Engineering with Computers, 2020(1):1-15.
11:Zhixin Liu,Senlin Zheng, Lihua Zhao. Evaluation of the ENVI-Met Vegetation Model of Four Common Tree Species in a Subtropical Hot-Humid Area.Atmosphere,2018(1):1-19.
12:Wang, Junsong, Qinglin Meng, Lei Zhang, Yu Zhang, Bao-Jie He,Senlin Zheng, Mat Santamouris. "Impacts of the water absorption capability on the evaporative cooling effect of pervious paving materials." Building and Environment (2019).
13:Zhixin Liu, Robert D.,Senlin Zheng, Yi Jiang, Lihua Zhao. An In-Depth Analysis of the Effect of Trees on Human Energy Fluxes. Urban Forestry & Urban Greening, 2020, 126646.
14:Zhixin Liu, Robert D.,Senlin Zheng, Yi Jiang, Lihua Zhao. The Effect of Trees on Human Energy Fluxes: An experimental study in Guangzhou, China. International Journal of Biometeorology,2020,08, 1-12.
15:Zhixin Liu,Senlin Zheng, Lihua Zhao.An investigation of transpiration and its cooling effect of three urban tree species in Guangzhou, China.ICUC, Newyork, USA.
16: Zhangyuan Wang , Xudong Zhao, Zhonghe Han, Liang Luo, Jinwei Xiang,Senglin Zheng , Guangming Liu , Min Yu, Yu Cui, Samson Shittu, Menglong Hu. Advanced big-data/machine-learning techniques for optimization and performance enhancement of the heat pipe technology – A review and prospective study. Applied Energy, 2021,30, 116969.
17: Xianling Wang , Liang Luo , Jinwei Xiang,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.
18:Senlin Zheng, Caiwei He, Jean-Michel Guldmann, Haodong Xu , Xiao Liu. Heat Mitigation Benefits of Urban Trees: A Review of Mechanisms, Modeling, Validation and Simulation. Forests, 2023, 14, 2280.
19.Senlin Zheng, Caiwei He, Haodong Xu, Jean-Michel Guldmann, Xiao Liu. Heat Mitigation Benefits of Street Tree Species during Transition Seasons in Hot and Humid Areas: A CaseStudy in Guangzhou. Forests, 2024, 15, 1459.
20.Senlin Zheng , Yang Liu , Wei Xia , Wenfeng Cai, Han Liu, Energy consumption optimization through prediction models in buildings using deep belief networks and a modified version of big bang-big crunch theory. Building and Environment ,2025, 112973 .
授权及申请的专利及软件著作权情况
1:一种自适应墙体构造,
2:一种植入墙体的热管结构
3:用于植入自适应墙体的热管形式
4:优化的地源热泵能源桩,已授权,
5:一种交通轨道用定频橡胶减振结构
6:一种可调式轨道交通减振降噪装置
