郭君诚
副教授
福州大学物理与信息工程学院副教授,硕士生导师。2013年毕业于厦门大学物理系,获理论物理博士学位。主要研究方向为非平衡态热力学、有限时间热力学、受限量子微循环、新能源及其耦合系统开发利用。本课题组承担多项科研项目,发表SCI论文20多篇。欢迎有志于科研的优秀研究生加入团队。

Email:junchengguo@qq.com
Juncheng Guo
College of Physics and Information Engineering
Fuzhou University
2 Xueyuan Rd, University Town
Fuzhou, Fujian 350116, P. R. China

Research fields:
Nonequilibrium Thermodynamics, Renewable energy technologies, Energy storage technologies, Low-grade thermal energy utiliztion
 
 
学术及社会兼职(Academic and social work)  
1担任 Applied energy, Energy, Energy conversion and managment, Journal of energy storage等多个国际学术期刊评审
 
科研项目(Research project)  
111404061复杂生物开放系统中的量子相干控制23万元国家自然科学基金2015.01.01-2017.12.313 
211405032弱耗散热力学循环的性能特性与优化理论研究23万元 国家自然科学基金项目2015.01.01-2017.12.31独立撰编写 
361773121网络演化博弈中结合收益与舆论的策略选择研究53万国家自然科学基金委2018.1-2021.12其它 
 
科技论著(Scientific treatise)  
1Comparative Assessment of Various Low-Dissipation Combined Models for Three-Terminal Heat Pump SystemsEntropy 2021SCI通讯
2The equivalent low-dissipation combined cycle system and optimal analyses of a class of thermally driven heat pumpsEnergy conversion and management 2020(JCR1区)SCI1
3Thermally driven refrigerators: Equivalent low-dissipation three-heat-source model and comparison with experimental and simulated resultsEnergy conversion and management 2019 (JCR1区)SCI1
4Continuous power output criteria and optimum operation strategies of an upgraded thermally regenerative electrochemical cycles system Energy conversion and management 2019 (JCR1区)SCI1
5Performance characteristics and parametric optimizations of a weak dissipative pumped thermal electricity storage systemEnergy conversion and management 2018 (JCR1区)SCI1
6Performance optimization and comparison of pumped thermal and pumped cryogenic electricity storage systemsEnergy 2016 (JCR1区)SCI1
7Performance evaluation and parametric choice criteria of a Brayton pumped thermal electricity storage systemEnergy 2016 (JCR1区)SCI1
8Comment on “thermodynamic efficiency of pumped heatprl,2016 (JCR1区)SCI2
9Efficiencies of two-level weak dissipation quantum Carnot engines at the maximum power outputJAP,2013SCI1
10Universal efficiency bounds of weak-dissipative thermodynamic cycles at the maximum power outputPRE,2013SCI1
11General performance characteristics and parametric optimum bounds of irreversible chemical engines.JAP,2012SCI1
12The performance analysis of a micro-/nanoscaled quantum heat engine2012,PHYSICA ASCI1
13The performance evaluation of a micro/nano-scaled cooler working with an ideal Bose gas.Phys. Lett. A,2012SCI1