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王加强
个人简介
教育经历
2013.6-2019.4

湖南大学 供热、供燃气、通风及空调工程 工学博士

2017.10-2018.10

内布拉斯加大学林肯分校(University of Nebraska-Lincoln) 联合博士培养

2016.6-2016.8

香港城市大学(City University of Hong Kong) 研究助理

2015.6-2016.10

内布拉斯加大学林肯分校(University of Nebraska-Lincoln) 访问学者

2009.9-2013.6

湖南大学 建筑环境与设备工程 本科

工作经历
2019年6月-至今

中南大学 能源科学与工程学院 讲师

学术成果
发表论文

[1]Yuan Li,Quan Zhang, Jiaqiang Wang et al. Field investigation on operation parameters and performance of air conditioning system in a subway station.Energy Exploration & Exploitation.(SCI)

[2] Peng Wang, Sungmin Yoon*, Jiaqiang Wang, Yuebin Yu. Automated reviving calibration strategy for virtual in-situ sensor calibration in building energy systems: Sensitivity coefficient optimization. Energy & Buildings 198 (2019) 291–304. (SCI)

[3] Sikai Zou,Quan Zhang*,Yuebin Yu,Chang Yue,Jiaqiang Wang,Xiaowei Ma. Field study on the self-adaptive capacity of multi-split heat pipe system (MSHPS) under non-uniform conditions in data center. Applied Thermal Engineering, 2019. (SCI)

[4] Jiaqiang Wang, Quan Zhang, Yuebin Yu, Sungmin Yoon. Impact of uncertainties on the supervisory control performance of a hybrid cooling system in data center. Building and Environment. (SCI, IF:4.539)

[5] Jiaqiang Wang, Quan Zhang, Sungmin Yoon, Yuebin Yu. Reliability and availability analysis of a hybrid cooling system with water-side economizer in data center. Building and Environment. (SCI, IF: 4.539)
[6] Jiaqiang Wang, Quan Zhang, Yuebin Yu, et al. "Application of model-based control strategy to hybrid free cooling system with latent heat thermal energy storage for TBSs." Energy & Buildings 167 (2018) 89-105. (SCI, IF:4.457)

[7] Sungmin Yoon, Yuebin Yu, Jiaqiang Wang, Peng Wang. Impacts of HVACR temperature sensor offsets on building energy performance and occupant thermal comfort. Building Simulation. 2018. (SCI,IF:1.673)

[8] Jiaqiang Wang, Quan Zhang, Yuebin Yu. "An Advanced Control of Hybrid Cooling Technology for Telecommunication Base Stations." Energy and Buildings 133, (2016): 172-184.(SCI,IF:4.457)

[9] Hui Tang, Quan Zhang, Jiaqiang Wang et al. A control strategy for natural water-cooling of data center system based on task scheduling, 2018 International Conference on Urban and Rural Energy and Environment

[10] Jiaqiang Wang, Quan Zhang and Yuebin Yu. Intelligent control of hybrid cooling for telecommunication base stations, Proceedings of the eSim 2016 Building Performance Simulation Conference, (2016).

[11] 唐辉,张泉,王加强,陈晓明,雷奥君. 面向任务调度的自然水冷数据中心控制策略. 低温与超导. 2018, 46 (5): 51-57.

[12] 罗新波,张泉,孙小琴,陈晓明,王加强. 基站用相变储能机组性实验及预测模型. 土木建筑与环境工程. 2014, 36 (5): 66-70.


发明专利

[1] 张泉, 王加强, 郭超, 陈晓明, 罗新波. 一种储能式相变空调系统与其控制方法. 中国发明专利,ZL 2015 1 0103567.6.

[2] 张泉, 沙正勇, 崔兵, 吴东波, 王加强. 具有相变蓄冷的双冷凝器数据中心冷却系统及其控制方法. 中国发明专利,ZL 2016 1 0273460.0.

[3] 张泉, 王加强,沙正勇,崔兵,陈飞虎. 增设相变?榈乃舴⑵骰靠盏飨低臣捌淇刂品椒,中国发明专利,201910111975.4.


实用新型专利

[1] 王加强, 张泉,郭超, 陈晓明, 罗新波. 一种储能式相变空调系统. 中国实用新型专利,201320878175.3.

[2] 张泉, 沙正勇, 凌伟, 崔兵, 吴东波, 王加强. 一种相变储能双蒸发器太阳能热泵采暖系统, 中国实用新型专利,ZL 2016 2 0490469.2

[3] 张泉, 王加强,沙正勇,崔兵,陈飞虎. 增设相变?榈乃舴⑵骰靠盏飨低. 中国实用新型专利,201920192662.1.


软件著作权

[1] 张泉,陈晓明,王加强等. 相变储能空调机组性分析及优化设计软件. 2014.4,登记号:2014SR118267.




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