王慧龙
研究中心信息与国际化办公室副主任
助理教授
硕士生导师
学历:博士
毕业院校:香港理工大学
主要研究方向:建筑柔性用能,建筑能源管理,智慧能源,需求响应
个人简介:
主要研究内容为通过建筑柔性用能提高城市能源系统的韧性。承担广东省自然科学基金一项,深圳市海外高层次人才科研启动项目1项,深圳大学青年教师科研启动项目1项,深圳大学党建研究重点项目一项;参与广东省教育厅在线开放课程项目1项。已发表论文十余篇,其中以第一作者身份发表SCI论文7篇(均为中科院JCR1区论文)。担任《Applied Energy》《Energy》等期刊审稿人。获国家专利6项,其中第一发明人2项(发明专利和实用新型专利各一项)。
一、近十年项目情况
1.纵向课题
[1] 广东省区域联合基金-青年基金项目,主持,建筑空调系统为电网提供可再生能源瞬时波动消纳服务时效率变化分析及可提供消纳潜力量化研究,2021- 2024,在研.
[2] 深圳市海外高层次人才科研启动项目,主持,双碳目标下建筑发电储电及柔性用电特性及综合能源管理策略研究,2023- 2025,在研.
[3] 深圳大学青年教师科研启动项目,主持,基于建筑信息化技术的蓄热系统优化设计以增加建筑用电柔性的研究,结题.
[4] 深圳大学党建研究重点项目,主持,通过高校教工党支部建设引领教育高质量发展的对策研究——基于数据挖掘与机器学习,2021-2022 ,在研.
[5] 广东省教育厅在线开放课程项目,参与,广东省系列在线开放课程——《建筑信息化与智慧建造》 ,2021- 2022,结题.
2.横向课题
[1] 北京经纬信息技术有限公司,施工工点模型创建服务,在研,参与.
二、代表性论文发表情况
研究方向一:建筑柔性用能
[1] Wang H, Wang S, Tang R. Development of grid-responsive buildings: Opportunities, challenges, capabilities and applications of HVAC systems in non-residential buildings in providing ancillary services by fast demand responses to smart grids. Applied Energy. 2019;250:697-712.
[2] Wang H, Wang S. The impact of providing frequency regulation service to power grids on indoor environment control and dedicated test signals for buildings. Building and Environment. 2020;183:107217.
[3] Wang H, Wang S, Shan K. Experimental study on the dynamics, quality and impacts of using variable-speed pumps in buildings for frequency regulation of smart power grids. Energy. 2020;199:117406.
[4] Wang H, Wang S. A hierarchical optimal control strategy for continuous demand response of building HVAC systems to provide frequency regulation service to smart power grids. Energy. 2021;230.
[5] Wang H, Wang S. A disturbance compensation enhanced control strategy of HVAC systems for improved building indoor environment control when providing power grid frequency regulation. Renewable Energy. 2021.
[6] Wang H, Ding Z, Tang R, Chen Y, Fan C, Wang J. A machine learning-based control strategy for improved performance of HVAC systems in providing large capacity of frequency regulation service. Applied Energy. 2022;326.
[7] Wang H, Wang S, Tang R. Investigation on the Use of Pumps in HVAC Systems for Providing Ancillary Services in Smart Grids. Energy Procedia. 2019;159:219-24.
[8] Tang R, Wang S, Wang H. Optimal power demand management for cluster-level commercial buildings using the game theoretic method. Energy Procedia. 2019;159:186-91.
[9] Li W, Xu P, Wang H, Lu X. A new method for calculating the thermal effects of irregular internal mass in buildings under demand response. Energy and Buildings. 2016;130:761-72.
[10] Li W, Xu P, Lu X, Wang H, Pang Z. Electricity demand response in China: Status, feasible market schemes and pilots. Energy. 2016;114:981-94.
研究方向二:建筑能源管理
[1] Wang H, Xu P, Lu X, Yuan D. Methodology of comprehensive building energy performance diagnosis for large commercial buildings at multiple levels. Applied Energy. 2016;169:14-27.
[2] Chen Z, Chen Y, Xiao T, Wang H, Hou P. A novel short-term load forecasting framework based on time-series clustering and early classification algorithm. Energy and Buildings. 2021.
[3] Lu X, Xu P, Wang H, Yang T, Hou J. Cooling potential and applications prospects of passive radiative cooling in buildings: The current state-of-the-art. Renewable and Sustainable Energy Reviews. 2016;65:1079-97.
[4] Wang H, Lu X, Xu P, Yuan D. Short-term Prediction of Power Consumption for Large-scale Public Buildings based on Regression Algorithm. Procedia Engineering. 2015;121:1318-25.
三、代表性专利情况
研究方向一:智能建造技术开发应用与管理
[1] 许鹏,苑登阔,王慧龙,鲁星,侯瑾. 一种基于电耗数据的公共建筑空调能效诊断系统.专利号:ZL201510128729.
[2] 许鹏,姬颖,侯瑾,鲁星,王慧龙. 一种公共建筑空调系统末端设备电耗间接计量系统.
[3] 宋丽萍,朱洪光,田恒仪,刘建政,史建国,叶昀暘,王慧龙. 一种环境可控的清洁猪场及其操作方式.
四、代表性成果介绍
