姓名:刘 琳(Liu Lin)
职称:副教授
职务:无
导师类别:硕士研究生导师
电子邮箱:[email protected];[email protected]
研究方向:
(1)城市多尺度建筑风热环境与舒适性动态预测技术及信息交互平台;
(2)城市供需能源互补利用与柔性调控算法的节能潜力分析;
(3)基于人工智能技术的城市区域气候-能耗-碳排动态计算及碳中和情景预测;
(4)城市多景观要素的物理环境参数动态传输建模、模拟与环境适宜性设计;
(5)城市复杂场景下群众认知决策理论模型与人员安全风险评估。
招生专业:081400土木工程(02城市水系统及建筑环境理论与技术)供热、供燃气、通风及空调工程方向;085906人工环境工程;125601工程管理
1. 个人简介
刘琳,1991年生,本科(2009~2013)毕业于哈尔滨工业大学 建筑环境与能源应用工程专业,博士(2013~2018)毕业于哈尔滨工业大学 供热、供燃气、通风及空调工程专业,期间赴香港理工大学、新加坡州立大学等进行短期学术访问交流。2018年至今,依托快猫
“青年百人计划”进入快猫
担任教学科研工作。主持国家级/省部级/市厅级/企业研发等科研项目与教改项目10余项,作为指导教师培养2名学生获得本科毕业设计优秀奖,指导10余项大学生创新创业训练项目。在国内外重要刊物正式发表学术论文70余篇,其中SCI检索论文44篇(一作/通讯论文25篇,引用650余次,H因子15),代表性成果发表在建筑环境、城市气候、能源等领域重要期刊《Build. Environ.》《Urban CLim.》《Appl. Energy》《Energy》《Energy Build.》等,参加国内外学术会议并作报告10余次,授权国家发明专利/软件著作权等10余项;参编行业工程技术规程与标准2项,获得广东省市政行业协会科学技术奖一等奖1项(5/15)及中国施工企业管理协会工程建设科学技术进步奖三等奖1项(4/10)等;担任10余个国际主流期刊的通讯评审人和Buildings、Climate等SCI期刊专刊客座编辑,暖通空调产业技术创新联盟计算机模拟专业委员会委员(2023-2024)和城市气候与低空经济气象保障专业委员会副主任委员(2025年起)。
2. 代表性科研项目
1. 2025.01-2028.12,国家自然科学基金(面上项目),城市大型蓝绿空间季相特征对建成区局地热环境的复合影响机理及建模,主持
2. 2023.01-2025.12,国家自然科学基金(青年项目),湿热地区高密度居住区空调排热的时变特性及其对街区热环境的影响机理研究,主持
3. 2025.01-2027.12,广东省自然科学基金(面上项目),城市蓝绿空间网络对建成区降温减碳的复合影响机理及协同优化方法,主持
4. 2023.01-2025.12,广东省自然科学基金(面上项目),湿热地区高密度街区行道树格局对交通源PM2.5动态传输特性的影响机理研究,主持
5. 2020.01-2023.12,广东省自然科学基金(面上项目),湿热地区街区热环境的时空特性分析及优化调控研究,主持
6. 2025.01-2026.12,广州市科技计划项目(启航),基于城市多物理场环境信息交互技术的区域能源智慧调控方法,主持
7. 2022.04-2024.03,广州市科技计划项目(续航),高密度城市滨江街区复杂下垫面格局下的热环境形成机理研究——以广州市珠江两岸为例,主持
8. 2025.06-2027.06,中国气象局城市气象重点开放实验室开放基金,基于人工智能技术的城市区域“气候-能耗-碳排”耦合模拟及碳中和情景预测,主持
9. 2020.07-2021.06,高密度人居环境生态与节能教育部重点实验室开放课题,湿热地区高密度城市空间街区热环境评价及优化策略,主持
10. 2018.08-2023.06,快猫
青年百人启动项目,主持
3. 代表性论文
[1] 第一作者. Modeling the impact of heat rejection from split air conditioner on outdoor air temperature in high-density residential areas. Building and Environment, 2025: 112685.
[2] 通讯作者. Quantifying the influence of wetland park cooling on adjacent building energy consumption based on local climate zone scheme. Energy, 2025, 323: 135739.
[3] 第一作者. Developing a spatial optimization design approach towards energy-saving and outdoor thermal comfortable densely-built residential blocks using a dynamic local energy balance model. Energy and Buildings, 2025, 328: 115194.
[4] 第一作者. Field investigation of indoor air quality and its association with heating lifestyles among older people in severe cold rural China. Journal of Building Engineering, 2024, 95, 110086.
[5] 第一作者. Spatio-temporal analysis of local thermal environment in waterfront blocks along the both sides of pearl river in Guangzhou, China. Case Studies in Thermal Engineering, 2024, 103875.
[6] 通讯作者. Mathematical models for traffic-source PM2.5 dispersion in an urban street canyon considering the capture capability of roadside trees, Science of the Total Environment, 2024,951,175513.
[7] 通讯作者. Establishment of LCZ-based urban building energy consumption dataset in hot and humid subtropical regions through a bottom-up method, Applied Energy, 2024, 368, 123491.
[8] 通讯作者. Adaptability Analysis of Integrated Project Delivery Method in Large and Medium-Sized Engineering Projects: A FAHP-Based Modeling Solution, Buildings, 2024, 14, 1999.
[9] 第一作者. Energy-Efficiency-Oriented Spatial Configuration of VRV Outdoor Units in an Equipment Layer Under Background Wind Conditions, Buildings, 2024, 14: 3681.
[10] 通讯作者. A review on the mathematical models of thermostatically controlled load, Architectural Intelligence, 2024, 3, 33.
[11] 第一作者. Cooling effects of wetland parks in hot and humid areas based on remote sensing images and local climate zone scheme, Building and Environment, 2023, 243:110660.
[12] 第一作者. Developing a CNN-based, block-scale oriented Local Climate Zone mapping approach: A case study in Guangzhou, Building and Environment, 2023, 240:110414.
[13] 通讯作者. Effects of roadside trees three-dimensional morphology characteristics on traffic-related PM2.5 distribution in hot-humid urban blocks. Urban Climate, 2023, 49: 101448.
[14] 第一作者. Spatiotemporal Distribution Characteristics and Multi-Factor analysis of Near-Surface PM2.5 Concentration in Local-Scale Urban Areas, Atmosphere, 2023, 14.
[15] 第一作者. Landscape pattern optimization strategy of coastal mountainside greenway from a microclimatic comfort view in hot and humid areas. Urban Climate, 2022, 46: 101297.
[16] 第一作者. Developing practical techniques for rapid quantitative assessment of time-varying block-scale urban climate under varied landscape patterns. Urban Climate, 2022, 43: 101156.
[17] 第一作者. Association analysis on spatiotemporal characteristics of block-scale urban thermal environments based on a field mobile survey in Guangzhou, China, Urban Climate, 2022, 42: 101131.
[18] 第一作者. Field Survey on Local Thermal Comfort of Students at a University Campus: A Case Study in Shanghai. Atmosphere, 2022, 13: 1433.
[19] 第一作者. Wind-Thermal Environmental Characteristic of Multi-Variable Passive Enhanced Natural Ventilation System for High and Large Space Building. Journal of Harbin Institute of Technology(New Series), 2023, 30(05):34-51.
[20] 第一作者. Climate-conscious spatial morphology optimization strategy using a method combining local climate zone parameterization concept and urban canopy layer model, Building and Environment, 2020, 185(5):107301.
[21] 通讯作者. Block-based local climate zone approach to urban climate maps using the UDC model, Building and Environment, 2020, 186: 1-18.
[22] 通讯作者. Field Assessment of Neighboring Building and Tree Shading Effects on the 3D Radiant Environment and Human Thermal Comfort in Summer within Urban Settlements in Northeast China. Advances in Meteorology, 2020, 1:1-19.
[23] 第一作者. Quantitative effects of urban spatial characteristics on outdoor thermal comfort based on the LCZ scheme, Building and Environment, 2018, 143: 443-460.
[24] 第一作者. An integrated local climatic evaluation system for green sustainable eco-city construction: a case study in Shenzhen, China. Building and Environment,2017, 114: 82-95.
[25] 第一作者. Analysis of local-scale urban heat island characteristics using an integrated method of mobile measurement and GIS-based spatial interpolation. Building and Environment, 2017, 117: 191-207.
[26] 第一作者. An improved temporal correction method for mobile measurement of outdoor thermal climates. Theoretical and Applied Climatology, 2017, 129: 201-212.
[27] 第一作者. Quantitative Analysis of the Outdoor Thermal Comfort in the Hot and Humid Summertime of Shenzhen, China. Journal of Harbin Institute of Technology, 2017, 24(02):30-38.
[28] 第一作者. Dynamic Spatial-temporal Evaluations of Urban Heat Islands and Thermal Comfort of a Complex Urban District Using an Urban Canopy Model. Journal of Asian Architecture and Building Engineering, 2016, 15(3): 627-634.
[29] 第一作者. Spatial-temporal analysis of the urban heat island of a subtropical city by using mobile measurement. Procedia Engineering, 2016, 169: 55-63.
[30] 第一作者. Evaluation on the outdoor thermal climate using an integrated urban canopy model and geographic information: a case study in Shenzhen, 9th International Conference on Urban Climate (ICUC9), July 20-24, 2015, Toulouse, France
4. 代表性知识产权情况
[1] 发明专利(排名第1).街区尺度气候图绘制方法、装置、电子设备及存储介质,ZL 2021 1 0897603.6
[2] 发明专利(排名第1).一种基于人工智能获取街区尺度LCZ的方法,ZL 2023 1 0432490.1
[3] 发明专利(排名第1).湿地公园降温效应及建筑能耗预测系统、方法及装置,ZL 2023 1 0425169.0
[4] 发明专利(排名第1).一种交通源PM2.5动态预测方法及系统,ZL 2023 1 0363107.1
[5] 发明专利(排名第1).城市建筑能耗时变图集构建方法、装置、设备及存储介质, 202111 294562.8
[6] 发明专利(排名第1).道路环境数据处理装置、方法、电子装置及存储介质,ZL 2024 1 1065113.X
[7] 实用新型专利(排名第1).一种便携式太阳能环境监测装置 ZL 2021 2 2083891.X
[8] 软件著作权. 场地气候舒适度评价模型软件,2015SR248514
[9] 软件著作权. 城市控制性详细规划阶段的热环境与热舒适评估软件,2017SR459248
[10] 软件著作权. 亚热带城市交通源颗粒物扩散预测软件,2021SR2166722
[11] 软件著作权. 基于街区尺度的湿热地区城市局地气候分区热环境评估软件,2021SR0567622
[12] 软件著作权. 基于定温条件的热力过程计算软件,2024SR0652384
[13] 软件著作权. 基于欧拉法的自然出流计算软件,2024SR0652016
[14] 软件著作权. 基于有限差分的一维导热温度分布绘图软件,2024SR0652355
[15] 软件著作权. 基于Rayman简化模型的人体等效生理温度计算软件,2024SR0682218
5. 我的团队
本人性格开朗,积极乐观,秉承着“解放思想、实事求是、快乐科研”的态度。欢迎具有建筑环境、大气物理、计算机、自动化、交通规划、景观规划等专业背景或学习兴趣的同学加入课题组!
