师资团队

Teachers' team

王雅然

发布时间:2021-04-28


基本信息

学历:博士

职称:副教授

专业:建筑环境与能源应用工程

系别:建环系

电子邮箱:yaran_wang@tju.edu.cn

电话:

通讯地址:天津市津南区雅观路135号天津大学北洋园校区43楼B320


主要研究方向:

1.复杂流体输配管网高频水力震荡的非线性动力学与代数拓扑学、状态观测与几何控制论;

2.城市级热网动态水力-热力耦合建模、高性能并行计算、鲁棒控制及关键节点的H∞滤波理论;

3.建筑热环境与暖通空调系统中流动、换热过程的快速仿真与自适应控制;

4.建筑热-湿环境营造中的统计建模方法、图像分析处理及理解、机器学习算法与智能系统构建;

5.下一代区域能源-环境仿真与控制系统的架构设计方法、软件工程学、3D图形学、可视化及编程实现;


教育及工作经历:

2021.03至今:天津大学,环境科学与工程学院,英才(长聘)副教授、特聘研究员;

2018.11至2021.03:天津大学,环境科学与工程学院,讲师、硕导;

2012.09至2018.01:天津大学,供热、供燃气、通风及空调工程,博士(直博);

2008.09至2012.06:天津大学,建筑环境与设备工程(辅修计算机),学士;


获奖情况:

2020年获省部级(中国电力科学技术奖)一等奖(4/12)


学术兼职:

2022年起,担任CECS城市供热专业委员会委员;

2021年起,担任天津市供热学会专业学术委员会副主任兼秘书长

2020年起,担任第二届中国城镇供热协会标准化委员会委员;

2019年起,担任中国城镇供热协会城市能源规划专业委员会委员;

2018年起,担任Applied Energy、Energy Conversion and Management、Applied Thermal Engineering、Energy and Buildings、Energy、Solar Energy等一区、二区SCI期刊供热与可再生能源方向的审稿人。

目前担任Sustainability期刊(IF=3.251,JCR分区:Q2),"Sustainable Smart Cities and Society Development"特刊的客座编辑,欢迎各位专家、同行来稿。

 

主讲课程:

《人工智能理论与应用》,32学时

《Java语言程序设计》,32学时

 

在研项目(近五年):

2020.10- 2022.12,科技部,十三五子课题,基于多尺度数字孪生的村镇人居环境智慧感知与规划分析系统研发,189万,主持;

2021.01-2023.12,基金委,青年基金,基于不确定模型集的散热器供暖系统末端群鲁棒平衡调控方法研究,25万,主持;

2020.01-2023.12,科技部,十三五子课题,环渤海典型大城市固废特性大数据管理分析与监控软件平台研发,143万,主持;

2019.04-2022.03,天津市科技局,青年基金,城市多热源环状集中供热管网动态稳定性分析与调控理论研究,6万元,主持;

2020.07-2021.06,华电电科院,研究项目,城市供热系统热力设备设施健康智能诊断分析技术研究,48万元,主持;

2020.07-2021.11,西门子(中国),研究项目,区域供热二次侧控制算法和平台,38万元,主持;

2020.06-2021.01,云泰智能科技有限公司,研究项目,智慧供热二次网仿真分析与平衡调控系统研发,80万元,主持;

2020.07-2022.12,天津城安热电有限公司,研究项目,基于动态3D仿真交互模型的城市供热二次网仿真技术开发项目,57万元,主持;

2019.05-2020.05,天津恒久正泰科技,研究项目,塘沽新村供热站合作能源管理项目经济性分析,10万元,主持;

2019.01-2019.12,天津大学,自主基金,智能热网仿真与控制技术发展研究,4万元,主持。

 

主要论文、成果:

2017-2021年,作为第一/通讯作者发表SCI论文40余篇。

基于所建立的智能热网理论与技术体系,自主开发了城市级大热网优化调度软件系统 Tensok(Thermal Energy Network Simulation & Optimization Kits),成功应用于石家庄、天津市等多个城市,大幅提升热网能效,经济效益显著,获省部级科技进步一等奖。

1)建立GRG水力优化调度技术,解决复杂热网水力工况快速优化的问题,大幅提升水力优化算法的计算速度;

2)构建了超大热网动态热力和水力耦合仿真的“管路拓扑排序+高阶隐式迎风+牛-拉”方法,大幅提升热网动态过程仿真速度,使超大型城市级热网的实时在线优化成为可能;

3)提出并建立热力站稳定性分析的频域方法、热力站和建筑供暖系统的鲁棒控制技术、大热网的高效阻抗辨识解析算法,大幅提升复杂热网的调控性能;

4)提出并建立大热网动态水力分析的DPM和LPM算法,实现大热网宽频带压力摄动特征的高性能计算;

5)建立分布式多级泵供热系统的高效水力优化调度理论,实现分布式多级泵供热系统动态运行时的稳定化,解决三级泵震荡的问题。

部分论文如下:

[1] Wang Yaran, You Shijun, Zheng Xuejing, Zhang Huan. Accurate model reduction and control of radiator for performance enhancement of room heating system [J]. Energy and Buildings, 2017, 138:415-431.(SCI二区

[2] Wang Yaran, You Shijun, Zheng Wandong, Zhang Huan, Zheng Xuejing, Miao Qingwei. State space model and robust control of plate heat exchanger for dynamic performance improvement [J]. Applied Thermal Engineering, 2018, 158:1588-1604.(SCI二区

[3] Wang Yaran, You Shijun, Zhang Huan, Zheng Xuejing, Wei Shen, Miao Qingwei, Zheng Wandong. Operation stability analysis of district heating substation from the control perspective [J]. Energy and Buildings, 2017, 154:373-390.(SCI二区

[4] Wang Yaran, You Shijun, Zhang Huan, Zheng Xuejing, Zheng Wandong, Miao Qingwei, Lu Gang. Thermal transient prediction of district heating pipeline: Optimal selection of the time and spatial steps for fast and accurate calculation [J]. Applied Energy, 2017, 206:900-910.(SCI一区

[5] Wang Yaran, You Shijun, Zhang Huan, Zheng Wandong, Zheng Xuejing, Miao Qingwei. Hydraulic performance optimization of meshed district heating network with multiple heat sources [J]. Energy, 2017, 126:603-621.(SCI二区

[6] Wang Na, You Shijun, Wang Yaran*(通讯作者), Zhang Huan, Miao Qingwei, Zheng Xuejing, Mi Leiyang. Hydraulic resistance identification and optimal pressure control of district heating network [J]. Energy and Buildings, 2018, 170:83-94.(SCI二区

[7] Gong Enwen, Wang Na, You Shijun, Wang Yaran*(通讯作者), Zhang Huan, et al. Optimal operation of novel hybrid district heating system driven by central and distributed variable speed pumps [J]. Energy Conversion and Management, 2019,196:211-226.(SCI一区

[8] Zheng Xuejing, Shi Rui, Wang Yaran*(通讯作者), You Shijun, Zhang Huan, Xia Junbao, Wei Shen, Mathematical modeling and performance analysis of an integrated solar heating and cooling system driven by parabolic trough collector and double-effect absorption chiller [J]. Energy and Buildings, 2019, 202, 109400. (SCI二区

[9] Song Zixu, Wang Na, You Shijun, Wang Yaran*(通讯作者), Zhang Huan, Wei Shen, Zheng Xuejing, Guo Jin. Integration of geothermal water into secondary network by absorption-heat-pump-assisted district heating substations [J]. Energy and Buildings, 2019, 202109403.(SCI二区

[10] Wang Yaran*, Shi Kaiyu, Zheng Xuejing, You Shijun, Zhang Huan, et al. Thermo-hydraulic coupled analysis of meshed district heating networks based on improved breadth first search method [J]. Energy, 2020, 205:117950. (SCI二区

[11] Zheng Xuejing, Shi Kaiyu, Wang Yaran*(通讯作者), You Shijun, Zhang Huan, et al. Performance analysis of three iteration-free numerical methods for fast and accurate simulation of thermal dynamics in district heating pipeline [J]. Applied Thermal Engineering, 2020, 178:115622. (SCI二区

[12] Wu Zhangxiang, You Shijun, Zhang Huan, Wei Shen, Wang Yaran*(通讯作者), et al. Performance analysis and optimization for a novel air-source gas-fired absorption heat pump [J]. Energy Conversion and Management, 2020,223:113423. (SCI一区

[13] Shao Suola, Zhang Huan, Zheng Wandong, You Shijun, Wang Yaran*(通讯作者). Numerical and experimental investigations on heat transfer performance of the refrigerant-heated radiator [J]. Applied Thermal Engineering, 2020,179:115748. (SCI二区

[14] Shao Suola, Zhang Huan, You Shijun, Wang Yaran*(通讯作者), Li Yonggang. Prediction of thermal potentials of multi-panel refrigerant heated radiator based on a mathematical model considering refrigerant flow distribution [J]. Energy and Buildings, 2020,228:110446. (SCI二区

[15] Zheng Xuejing, Sun Qihang, Wang Yaran*(通讯作者), Zheng Lijun, Gao Xinyong, et al.. Thermo-hydraulic coupled simulation and analysis of a real large-scale complex district heating network in Tianjin [J]. Energy, 2021, 236:121389. (SCI二区

[16] Zheng Xuejing, Xu Boxiao, Wang Yaran*(通讯作者), You Shijun, Zhang Huan, et al. Hydraulic transient modeling and analysis of the district heating network [J]. Sustainable Energy, Grids and Networks, 2021, 25:100409. (SCI二区)

[17] Zheng Xuejing, Hu Fangshu, Wang Yaran*(通讯作者), Zheng Lijun, Gao Xinyong, et al. Leak detection of long-distance district heating pipeline: A hydraulic transient model-based approach [J]. Energy, 2021,237:121604. (SCI二区)

[18] Shao Suola, Zhang Huan, Liu Zhikai, You Shijun, Wang Yaran*(通讯作者). Thermo-economic optimization of the direct-condensation radiant heating panel: A numerical-based approach [J]. Energy and Buildings, 2021,240:110908. (SCI二区)

[19] Wu Zhangxiang, You Shijun, Zhang Huan, Wang Yaran*(通讯作者), Jiang Yan, et al. Experimental investigations and multi-objective optimization of an air-source absorption heat pump for residential district heating [J]. Energy Conversion and Management, 2021, 240: 114267.(SCI一区

[20] Liu Zhikai, Zhang Huan, Wang Yaran*(通讯作者), Song Zixu, You Shijun, et al. A thermal-hydraulic coupled simulation approach for the temperature and flow rate control strategy evaluation of the multi-room radiator heating system [J]. Energy, 2022,246:123347. (SCI二区)