姓名

王新立

职称

副研究员

电子邮件

wangxinli@sdu.edu.cn

通讯地址

山东省济南市经十路17923号

山东大学千佛山校区创新大厦521室

主要研究方向

1.绿色建筑系统优化控制 2.溶液除湿空调节能优化 3.预测控制及应用

个人简介

教育经历：

2010.09 - 2015.06           浙江大学   控制理论与控制工程         博士

2010.12 - 2012.11           Nanyang Technological University    联合培养博士

2006.09 - 2010.06           浙江大学   自动化                     学士

工作经历：

2016.11 - 至今          山东大学控制科学与工程学院   副研究员

2015.09 - 2016.11           Nanyang Technological University   Research Fellow

2013.05 - 2015.08           Nanyang Technological University   Project Officer

主要研究兴趣包括：

（1）      绿色建筑系统优化控制；

（2）      溶液除湿空调传热传质建模及优化；

（3）      预测控制及其应用。

获奖：

2018年ICIEA会议最佳论文奖

入选山东大学青年学者未来计划

Outstanding contribution reviewer: Applied Energy (2017), Energy   (2017), Energy Conversion and Management (2018), Applied Thermal Engineering   (2018)

主要兼职：

TCCT预测控制学组member

中国自动化学会会员

Applied Energy，Energy，International Journal of Refrigerant，Applied Thermal Engineering等能源控制领域SCI期刊审稿人

近年来，在《Applied   Energy》、《Energy》、《Industrial   & Engineering Chemistry Research》、《Energy and   Buildings》、《Applied Thermal   Engineering》等国内外著名学术期刊和国际会议上发表论文二十余篇，被SCI、EI收录十余篇。获发明专利2项，PCT国际专利1项。

2014年至今科研计划

1、国家自然科学基金青年基金，61703238，溶液除湿空调动态传热传质建模与多目标优化控制研究，25万，2018/01-2020/12，主持，在研；

2、国家重点研发计划子课题，2017YFB130411，视觉伺服与系统安全关键技术研究，98万， 2017/12-2020/11，主持，在研；

3、国家自然科学基金重点基金, 61733010,新能源多能互补冷热电联供系统一体化设计与优化控制,305万，2018/01-2022/12，参与，在研；

4、山东省自然科学基金面上基金，ZR2017MF017，溶液除湿空调的模型预测控制与多目标节能优化，12万，2017/08-2020/12，主持，在研；

5、山东大学交叉学科培育计划，2017JC037，海洋极端湿热气候下溶液除湿空调建模与控制研究，35万，2017/01-2019/12，主持，在研；

6、山东大学人才引进与培养类专项，2017TB007，溶液除湿空调节能优化控制研究，15万，2017/01-2019/12，主持，在研；

代表性论著/专利

期刊论文：

1.       Gu Wending, Wang   Xinli*, Wang Lei, Yin Xiaohong, Liu Hongbo, Performance Investigation of an Auto-Tuning   Area Ratio Ejector for MED-TVC Desalination System. Applied Thermal   Engineering, 155, 470-479, 2019, (SCI);

2.         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 Environment, 154, 1-12, 2019, (SCI);

3.         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);

4.         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);

5.         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);

6.         Xinli Wang,   Wenjian Cai*, Jiangang Lu, Youxian Sun, Lei Zhao, Model-based optimization   strategy of chiller driven liquid desiccant dehumidifier with genetic   algorithm, Energy, 82, 939-948, 2015 (SCI);

7.         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, 410-423, 2017 (SCI);

8.         Xiaohong Yin, Xinli   Wang*, Shaoyuan Li, Wenjian Cai,   Energy-efficiency-oriented cascade control for vapor compression   refrigeration cycle systems, Energy, 116, 1006-1019, 2016 (SCI);

9.       Yun. Zhang, Zhengguo. Xu*, Xinli Wang, Jiangang. Lu,   Youxian. Sun, Single minimal path based backup path for multi-state network,   Proceedings of the Institution of Mechanical Engineers Part O-Journal of Risk   and Reliability, 228(2), 152-165, 2015 (SCI);

10.    Binqiang Xue, Wenjian Cai*, Xinli Wang, State-space   modelling for the ejector-based refrigeration system driven by low grade   energy. Applied Thermal Engineering, 75, 430-444, 2015 (SCI);

11.    Qiong Wu, Wenjian Cai*, Xinli Wang, Suping Shen,   Simplified Soft Sensing Model Applied in the Centralized Regenerator of a   Distributed Operating Liquid Desiccant Dehumidification System, Industrial   & Engineering Chemistry Research, 55(34), 9256-9266, 2016(SCI);

12.    Qiong Wu, Wenjian Cai*, Xinli Wang, A. Chakraborty,   Dehumidifier desiccant concentration soft-sensor for a distributed operating   Liquid Desiccant Dehumidification System, Energy and Buildings, 129, 215-226,   2016(SCI);

13.    Suping Shen, Wenjian. Cai*, Xinli Wang, Qiong Wu, Haoren   Yon, Hybrid Model for Heat Recovery Heat Pipe System In Liquid Desiccant   Dehumidification System, Applied Energy, 82, 383-393, 2016(SCI);

14.      Suping Shen, Wenjian Cai*, Xinli Wang, Qiong   Wu, Haoren Yon, Investigation of   liquid desiccant regenerator with fixed-plate heat recovery system, Energy,   137, 172-182, 2017(SCI);

15.      Qiong Wu, WenJian Cai*, Suping Shen, Xinli Wang,   Haoren Ren, A regulation strategy of working concentration in the   dehumidifier of liquid desiccant air conditioner, Applied Energy, 202,   648-661, 2017(SCI);

16.      Suping Shen, Wenjian Cai*, Xinli Wang, Qiong   Wu, Haoren Yon, Investigation of liquid desiccant regenerator with heat   recovery heat pipe system, Energy and Buildings, 146, 353-363, 2017(SCI);

17.    Yon Hao Ren, Cai Wenjian, Wang Youyi, Wang Xinli, Shen   Suping, Dynamic model for a novel liquid desiccant regeneration system   operating in vacuum condition, Energy and Buildings, 167, 69-78,2018(SCI);

18.    Ou Xianhua, Cai Wenjian, He Xiongxiong, Zhai   Deqing, Wang Xinli,   Dynamic modeling and validation of a liquid desiccant cooling and   dehumidification system, Energy and Buildings, 163, 44-57,2018(SCI);

19.    Zhang Hailun, Wang Lei, Jia, Lei, Wang Xinli,   Assessment and prediction of component efficiencies in supersonic ejector   with friction losses, Applied Thermal Engineering, 129, 618-627,2018(SCI);

20.    Wang Chen, Wang Lei, Wang   Xinli, Zhao Hongxia, Design and numerical   investigation of an adaptive nozzle exit position ejector in multi-effect   distillation desalination system, Energy, 140, 673-681,2017(SCI);

21.    Liu Jiapeng, Wang Lei, Jia Lei, Wang Xinli, The   influence of the area ratio on ejector efficiencies in the MED-TVC   desalination system, Desalination, 413, 168-175,2017(SCI);

22.    Liu Jiapeng, Wang Lei , Jia Lei, Wang Xinli, The influence of the area ratio on ejector   efficiencies in the MED-TVC desalination system, International Journal of   Heat and Mass Transfer, 2018. 126: p. 485-492.

会议论文：

1.         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 Paper   Award.

2.         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).

3.         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

4.         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；

5.         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；

6.         Qiong Wu, Wenjian Cai, Xinli Wang, Lei   Wang. Dynamic Analysis of Mass Transfer in a Liquid Desiccant Dehumidifier,   Industrial Electronics and Applications (ICIEA), 2015 10th International   Conference on, 28-33, 2015；

7.         Qiong Wu, Wenjian Cai, Xinli Wang, H.   Yon, An Model for Dynamic Humidity Control of Liquid Desiccant   Dehumidfication system, Control and Automation (ICCA), 2016 12th   International Conference on, 535-540, 2016

8.         Gu Wending, Wang Lei, Wang Xinli, Area   Ratio Optimization of an Ejector Refrigeration System with Water-Cooled   Condenser, 3155-3158, 2017 CHINESE AUTOMATION CONGRESS (CAC) Jinan, PEOPLES R   CHINA

9.         Deng Jie, Wang Lei, Wang   Xinli, Refrigeration performance research and   simulation of two-stage ejector with water cooled condenser, 3159-3163, 2017   CHINESE AUTOMATION CONGRESS (CAC) Jinan, PEOPLES R CHINA

10.      Bai Shuaifeng, Wang Lei, Wang Xinli,   Optimization of ejector geometric parameters with Hybrid Artificial Fish   Swarm Algorithm for PEM fuel cell, 3319-3322, 2017 CHINESE AUTOMATION   CONGRESS (CAC) Jinan, PEOPLES R CHINA

11.      Jing Gang, Jia Lei, Wang   Xinli, Xian Huacai, Zhang Ling, Gong Shunmei,   Reconfiguration During Data Collection for Many-to-one Routing in Wireless   Sensor Networks, 5279- 5282, 2017 CHINESE AUTOMATION CONGRESS (CAC) Jinan,   PEOPLES R CHINA

12.      Chen Zhongtian, Cai Wenjian, He, Xiongxiong, Wang xinli, Zhao   Lei, Soft-sensing of liquid desiccant concentration   based on ELM, 16-21, 2013 Seventh International Conference on Sensing   Technology (ICST).

13.      Xudong Ding, Wenjian Cai, Peiyong Duan, Xinli Wang, Chunjie   Yin, Jing Wang, A Low-order hybrid dynamic model for   evaporators, 7522-7527, 2017 CHINESE AUTOMATION CONGRESS (CAC) Jinan, PEOPLES   R CHINA

14.      Hao Wang, Cai Wenjian, Wang Xinli, Experimental analysis of a hybrid   ejector-based air-conditioning system using R134a, 1-6, 2014, 7th   International Conference on Information and Automation for Sustainability.

专利：

1.         Cai Wenjian，Zhao Lei，Wang Xinli，A dehumidifying system, a method of   dehumidifying and a cooling system，2016.11.29，Singapore,11201405212U

2.         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，201811434735X

3.         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，201810732034.8