发布时间:2024-05-29
姓名:牛纪德
职称:副研究员
系别:建筑环境与能源应用工程系
专业:供热、供燃气、通风及空调工程
主要研究方向:
§ 建筑能源系统优化
§ 建筑需求响应
§ 乡村能源系统
办公电话:13672086760
电子邮箱:niujide@tju.edu.cn
通讯地址:天津市津南区海河教育园区雅观路135号 天津大学 59楼
教育及工作经历(从大学开始填写):
教育背景:
§ 2016.09 - 2020.09 天津大学 供热、供燃气、通风及空调工程 博士
§ 2013.09 - 2015.12 天津大学 供热、供燃气、通风及空调工程 硕士
§ 2009.09 - 2013.06 华北电力大学 建筑环境与设备工程 本科
工作经历:
§ 2024.03-至今:天津大学 副研究员
§ 2023.02-至今:香港理工大学 博士后(香江学者)
§ 2021.03-2024.03:天津大学 助理研究员
获奖情况:
§ 天津市科学技术进步二等奖,2021年 (R8);
§ 香江学者计划获得者, 2022年;
§ 2022年能源与气候变化国际大赛 最佳学术论文一等奖 (排名1);
§ 2022年能源与气候变化国际大赛 实践赛道风采奖 (排名2);
§ 博士研究生国家奖学金,2019年;
§ Applied Energy Summer School 杰出学术奖,2018年;
§ 河北省优秀毕业生,2013年;
§ 华北电力大学优秀毕业生,2013年;
学术兼职:
§ 中国仿真学会建筑仿真专业委员会委员
§ Applied Energy, Energy, Energy and Buildings等期刊审稿人
主讲课程:无
在研项目(近五年):
§ 国家自然科学基金青年基金项目(52108085),《基于时间自解耦的建筑能源系统随机时序边界降维及信息保持方法研究》,2022-2024年,主持,在研;
§ 中国博士后科学基金面上项目(2021M702447)《面向电网灵活交互的建筑空调系统需求响应潜力量化方法研究》,2022-2023年,主持,在研;
§ 香江学者计划项目:Data-driven solutions for decarbonizing transportation sector by coupling renewable energy, energy storage and smart EV-charging 2023.01-2025.12,参与,在研;
§ 企业委托技术研发项目,《建筑冷热负荷模拟装置研发》,2024,主持,在研;
§ 海信日立空调有限公司委托技术开发项目,《建筑负荷预测及其在空调系统中的应用》,2021-2022年,主持,结题;
§ 国家自然科学基金面上项目(51978449),《基于设计目标的空调室外计算参数可靠性预期与评价》,2019-2023年,参与,结题;
§ 十三五国家重点研发计划课题(2017YFB0903404),《分布式综合能源系统联合仿真技术》,2017-2021年,参与,结题;
主要论文、成果:
Google Scholar: https://scholar.google.com/citations?user=OfLzWYoAAAAJ&hl=en&oi=ao
ResearchGate: https://www.researchgate.net/profile/Jide-Niu
低碳建筑能源系统稳健性优化方向:
§ Niu, Jide*., Li, X., Tian, Z., & Yang, H. (2024). Uncertainty analysis of the electric vehicle potential for a household to enhance robustness in decision on the EV/V2H technologies. Applied Energy, 365, 123294.
§ Tian, Z., Li, X., Niu, J.*, Zhou, R., & Li, F. (2024). Enhancing operation flexibility of distributed energy systems: A flexible multi-objective optimization planning method considering long-term and temporary objectives. Energy, 288, 129612.
§ Wu, Xia, Zhe Tian, Jide Niu*, and Xiaoyuan Li. "Hybrid uncertainty quantification method of internal disturbance parameters for reliability assessment of building air-conditioning design load." Energy and Buildings (2023): 113602.
§ Niu, Jide, Xiaoyuan Li, Zhe Tian*, and Hongxing Yang. "A framework for quantifying the value of information to mitigate risk in the optimal design of distributed energy systems under uncertainty." Applied Energy 350 (2023): 121717.
§ Hou, Xinyang, Zhe Tian, Jide Niu*, Xia Wu, and Yakai Lu. "Research on design day generation method for air-conditioning system design considering the coincidence of hourly variation coefficient." Energy and Buildings 270 (2022): 112300.
§ Niu, Jide., Tian, Zhe., & Yue, Lu. (2020). Robust optimal design of building cooling sources considering the uncertainty and cross-correlation of demand and source. Applied Energy, 265, 114793.
§ Niu, Jide., Tian, Zhe., Lu, Yakai, Zhao, Hongfang, & Lan, Bo. (2019). A robust optimization model for designing the building cooling source under cooling load uncertainty. Applied energy, 241, 390-403.
§ Lan, Bo, Zhe Tian, Jide Niu*, and Wei Sun. "Improving the design method of a solar heating system considering weather uncertainty and system reliability." Energy and Buildings 208 (2020): 109606.
§ Wu, Xia, Jide Niu, Zhe Tian, Ruoyu Zhou, and Xinyang Hou. "A stochastic interior disturbance parameter model considering double uncertainty for probabilistic load calculation." Energy and Buildings 285 (2023): 112883.
§ Wu, Xia, Jide Niu, Zhe Tian, Xinyang Hou, and Ruoyu Zhou. "Method of constructing stochastic near-extreme daily weather data for efficient calculation of probabilistic load in air-conditioning system design." Building and Environment 221 (2022): 109278.
§ Lan, Bo, Zhe Tian, Jide Niu, Weizhang Wang, and Shichao Lu. "Applicability analysis of solar heating system in China based on a reliability-based optimization method for auxiliary heater capacity." Sustainable Cities and Society 53 (2020): 101930.
§ 李啸远,田喆,叶创,牛纪德*,吴霞.考虑气象随机性的太阳能热水系统供能可靠性分析[J].西安建筑科技大学学报(自然科学版),2021,53(06):804-810.
建筑需求响应方向:
§ Yue, L., Niu, J., Tian, Z., Lin, Q., & Lu, Y. (2024). A simplified assessment method based on Hooke's law to estimate the grid-friendly ability of buildings. Renewable Energy, 223, 119931.
§ Yue, L., Niu, J., Tian, Z., Lin, Q., & Lu, Y. (2024). A three-dimensional evaluation method for building energy systems to guide power grid-friendly interactions during the planning and operational stages. Journal of Building Engineering, 108816.
§ Zhang, Qiang, Zhe Tian, Yakai Lu, Jide Niu*, and Chuang Ye. "Experimental study on performance assessments of HVAC cross-domain fault diagnosis methods oriented to incomplete data problems." Building and Environment 236 (2023): 110264.
§ Niu, Jide, Ruoyu Zhou, Zhe Tian, Jie Zhu, Yakai Lu, and Jianbo Ma. "Energy-saving potential analysis for a 24-hour operating chiller plant using the model-based global optimization method." Journal of Building Engineering 69 (2023): 106213.
§ Zhen, Cheng, Jide Niu*, and Zhe Tian. "Research on Model Calibration Method of Chiller Plants Based on Error Reverse Correction with Limited Data." Energies 16.2 (2023): 918.
§ Tian, Zhe, Ye, Chuang, Zhu, Jie, Niu, Jide*, Lu, Yakai. "Accelerating Optimal Control Strategy Generation for HVAC Systems Using a Scenario Reduction Method: A Case Study." Energies 16.7 (2023): 2988.
§ Zhang, Qiang, Zhe Tian, Jide Niu*, Jie Zhu, and Yakai Lu. "A study on transfer learning in enhancing performance of building energy system fault diagnosis with extremely limited labeled data." Building and Environment 225 (2022): 109641.
§ Niu, Jide, Zhe Tian, Jie Zhu, and Lu Yue. "Implementation of a price-driven demand response in a distributed energy system with multi-energy flexibility measures." Energy Conversion and Management 208 (2020): 112575.
§ Tian, Zhe, Fawei Fu, Jide Niu*, Rui Sun, and Juan Huang. "Optimization and extraction of an operation strategy for the distributed energy system of a research station in Antarctica." Journal of Cleaner Production 246 (2020): 119073.
§ Niu, Jide, Zhe Tian, Yakai Lu, and Hongfang Zhao. "Flexible dispatch of a building energy system using building thermal storage and battery energy storage." Applied Energy 243 (2019): 274-287.
§ Zhu, Jie, Jide Niu, Zhe Tian, Ruoyu Zhou, and Chuang Ye. "Rapid quantification of demand response potential of building HAVC system via data-driven model." Applied Energy 325 (2022): 119796.
§ Tian, Zhe, Jide Niu, Yakai Lu, Shunming He, and Xue Tian. "The improvement of a simulation model for a distributed CCHP system and its influence on optimal operation cost and strategy." Applied Energy 165 (2016): 430-444.
§ Wang, Chengshan, Bingqi Jiao, Li Guo, Zhe Tian, Jide Niu, and Siwei Li. "Robust scheduling of building energy system under uncertainty." Applied energy 167 (2016): 366-376.