576969传真网:期刊论文(仅第一/通讯作者): 576969传真网:1.YajieSong,XinliWang*, LeiWang, Fengwen Pan, Wenmiao Chen, Fuqiang Xi, A twin-nozzle ejector for hydrogen recirculation in wide power operation ofpolymer electrolyte membrane fuel cell system, Applied Energy 300 (2021), 117442(SCI, 1区); 576969传真网:2.LianjieJiang,Xinli Wang*, Wei Li, Lei Wang, Xiaohong Yin, Lei Jia, Hybrid multitask multi-information fusion deeplearning for household short-term load forecasting,IEEETransactionson Smart Grid(2021) Early Access (SCI, 1区); 576969传真网:3.Xiaohong Yin,Xinli Wang*, Lei Wang, Biao Qin, Hongbo Liu, Lei Jia, Wenjian Cai,Cooperative control of air and fuel feeding for PEM fuel cell withejector-driven recirculation, Applied Thermal Engineering 199 (2021),117590, (SCI, 2区); 576969传真网:4.Xiaohong Yin,Xinli Wang*, Xinyu Wei, Hongxia Zhao, Lei Wang, Lei Jia.Mathematical model and energy efficiency analysisof a vacuum-basedliquid desiccant regenerator, Building and Environment 192 (2021), 107629,(SCI, 1区); 576969传真网:5.Xinli Wang, Lei Wang*, Yajie Song, Jie Deng, Youjie Zhan.Optimal design of two-stage ejector for subzero refrigeration system onfishing vessel,Applied Thermal Engineering 187 (2021),116565,(SCI, 2区); 576969传真网:6.Y. Jiang,X. Wang*,H. Zhao, L. Wang, X. Yin, L. Jia. Dynamic modeling and economic model predictive control of a liquid desiccant air conditioning. AppliedEnergy259(2020),114174,(SCI, 1区); 576969传真网:7.WendingGu,XinliWang*,LeiWang,XiaohongYin,HongboLiu,Performance Investigation of an Auto-Tuning Area Ratio Ejector for MED-TVC Desalination System. Applied Thermal Engineering155,(2019)470-479,(SCI, 2区); 576969传真网:8.Wang Xinli, Wang Lei, Yin Xiaohong, Jiang Yuliang, Liu Hongbo, Jia Lei,Modeling and performance analyses of a batch-wise liquid desiccant air conditioning system. Building and Environment154(2019), 1-12,(SCI,1区); 576969传真网:9.Xinli Wang, Wenjian Cai*, Xiaohong Yin, A global optimized operation strategy for energy savings in liquid desiccant air conditioning using self-adaptive differential evolutionary algorithm, Applied Energy 187(2017), 410-423,(SCI, 1区); 576969传真网:10.Xiaohong Yin,Xinli Wang*, Shaoyuan Li, Wenjian Cai, Energy-efficiency-oriented cascade control for vapor compression refrigeration cycle systems, Energy 116(2016), 1006-1019,(SCI, 1区); 576969传真网:11.Xinli Wang, Wenjian Cai*, Jiangang Lu, Youxian Sun, Lei Zhao, Model-based optimization strategy of chiller driven liquid desiccant dehumidifierwith genetic algorithm, Energy82(2015), 939-948,(SCI, 1区); 576969传真网:12.Xinli Wang, Wenjian Cai*, Jiangang Lu, Youxian Sun, Xudong Ding, Heat and Mass Transfer Model for Desiccant Solution Regeneration Process in Liquid Desiccant Dehumidification System, Industrial & Engineering Chemistry Research, 53(7), 2820-2829, 2014,(SCI, 2区); 576969传真网:13.Xinli Wang, Wenjian Cai*, Jiangang Lu, Youxian Sun, Optimization of Liquid Desiccant Regenerator with Multiobject Particle Swarm Optimization Algorithm, Industrial & Engineering Chemistry Research, 53(49), 19293-19303, 2014,(SCI, 2区); 576969传真网:14.Xinli Wang, Wenjian Cai*, Jiangang Lu, Youxian Sun, Xudong Ding, A hybrid dehumidifier model for real-time performance monitoring, control and optimization in liquid desiccant dehumidification system, Applied Energy, 111, 449-455, 2013,(SCI,1区); 576969传真网:会议论文: 1.Bingyi Xie,Xinli Wang*, Lei Wang, Xiaohong Yin, Hongbo Liu, Lei Jia, Modeling and effects of air temperature and humidity on vapor compression refrigeration system energy performance,2020 Chinese Automation Congress (CAC), Shanghai, China, 2030-2035 2.Yu Ma,Xinli Wang*, Lei Wang, Hongxia Zhao, Xiaohong Yin, Lei Jia, Dynamic simulation of batch-wise solar drivenliquid desiccant air conditioning with TRNSYS,2019 ChineseAutomationCongress(CAC),Hangzhou, China,5329-5334. 3.B. Qin,XinliWang*, L. Wang, H. Zhao, X. Yin, L. Jia. Hydrogen Excess Ratio Control of Ejector-based Hydrogen Recirculation PEM Fuel Cell System. 2019 34rd Youth Academic Annual Conference of Chinese Association of Automation (YAC)2019. pp. 648-653. 576969传真网:4.Wang Xinli, Yin Xiaohong, Wang Lei, Zhao Hongxia, Jia Lei, A novel liquid desiccant air conditioning with batch-wise operation strategy, 662-667, 2018, 13th IEEE Conference on Industrial Electronics and Applications (ICIEA).Best PaperAward. 576969传真网:5.Jiang Yuling,Wang Xinli*, Yin Xiaohong, Wang Lei, Zhao Hongxia, Jia Lei,A T-S Model Based on Adaptive Fuzzy Neural Network for Liquid Desiccant Air Conditioning, 7612-7617, 2018, 37th Chinese Control Conference (CCC). 576969传真网:6.Yin Xiaohong,Wang Xinli*, Liu Ximei, Lin Mingming, Temperature Controller Design for Vapor Compression Refrigeration Cycle Systems, 7359-7400, 2017 CHINESE AUTOMATION CONGRESS (CAC) Jinan, PEOPLES R CHINA 576969传真网:7.Xinli Wang,Jiangang Lu, Qinmin Yang, Wenjian Cai, Youxian Sun, Performance Evaluation of Packed Tower Liquid Desiccant Dehumidifier Based on LSSVM, Control and Automation (ICCA), 2013 10th International Conference on, pp.987-990, 2013; 576969传真网:8.Xinli Wang, Wenjian Cai, Jiangang Lu, Youxian Sun. Energy saving strategy development in liquid desiccant dehumidifier by genetic algorithm. Industrial Electronics and Applications (ICIEA), 2015 10th International Conference on, 2050-2054, 2015; 576969传真网:专利: 576969传真网:1.宋锐,何萱,王新立,李凤鸣,王伟,李贻斌,基于激光雷达和双目相机数据融合的衬板装配系统及方法发明专利,202010161093.1,申请; 576969传真网:2.王新立,何萱,宋锐,江连杰,王伟,李贻斌,一种激光雷达与双目相机数据融合检测方法及系统,发明专利,202010161186.4,申请; 576969传真网:3.王新立,陈鸿,尹晓红,高丽,徐华太,多温区控制的恒温恒湿试验箱及多模式快速控温控湿方法,发明专利,202011357553.4,已授权; 576969传真网:4.王新立,马驭,董勇,王雷,贾磊,尹晓红,一种烟气脱白、供水系统及其控制方法,发明专利,2020101746700,已授权; 576969传真网:5.王新立,陈鸿,高丽,徐华太,尹晓红,一种恒温恒湿试验箱及快速调温调湿控制方法,发明专利,202011356144.2,已授权; 576969传真网:6.王新立,魏新禹,蔡文剑,王雷,贾磊,段培永,尹晓红,一种空调自除霜装置及控制方法,发明专利,201811434735X,申请; 576969传真网:7.王新立,魏新禹,蔡文剑,段培永,王雷,贾磊,一种加湿系统、新风加湿系统、空调器及控制方法,发明专利,201810732034.8,申请; 576969传真网:8.Cai Wenjian,Zhao Lei,Wang Xinli,A dehumidifying system, a method of dehumidifying and a cooling system,2016.11.29,Singapore,11201405212U,国际专利,授权 |