厦门大学能源学院能效工程导师介绍:赵英汝
作者:聚创厦大考研网-小厦老师
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发布时间: 2018-09-06 16:52
微信号: H17720740258
赵英汝
职 称: 副教授
职 务: 能效工程研究所所长
邮 箱: yrzhao@xmu.edu.cn
研究方向: 能源系统工程&能效工程
个人履历
2011– 厦门大学,能源研究院,副教授
2010–2011 伦敦帝国理工学院,化学工程系,博士后
2008–2010 伦敦帝国理工学院,地球科学与工程系,博士后
2003–2008 厦门大学,物理与机电工程学院,博士
1999–2003 厦门大学,物理与机电工程学院,本科
研发方向
研究方向
主要研究围绕复杂能源系统的多尺度模拟和优化展开,侧重于对低碳技术和系统进行建模、分析与优化集成,综合系统能效、经济性和排放特性等因素对系统的整体性能进行评估,探寻能源体系的最优设计和运行方案。具体工作涉及超临界二氧化碳布雷顿循环、有机朗肯循环、燃料电池混合发电装置、化工动力多联产、生物质气化联合循环、碳捕捉与封存、燃煤燃气电厂动态性能仿真及低碳技术改造等工程应用研究以及城市能源系统、能源经济等。
承担课题项目
1)美国能源基金会中国可持续能源项目,福建省新型城镇化建设中新能源技术综合利用与产业发展路线图研究,2014.03,主要参与
2)中德科学基金项目,智能城市过程:科学认识能源系统在规划和设计资源高效型城市中的作用,2014.06,中方主持
3)企业横向课题,园区综合能源项目,2014.03,主持
4)企业横向课题,低温余热高效回收利用系统及换热器优化,2014.03,主持
5)企业横向课题,S-CO2布雷顿循环能量转换系统技术评估,2013.08,主持
6)国家自然科学青年基金项目,生物质气化燃料电池-燃气轮机(BGFC-GT)一体化多联产系统的全局优化集成策略研究,2013.01,主持
7)企业横向课题,厦门大学翔安校区一期工程建筑能效理论值测评技术服务,2012.12,主持
8)厦门大学引进人才科研启动费,2011.10,主持
9)企业横向课题,碳捕捉与封存价值链的整体系统动态模拟, 2010.06,主要参与
10)英国工程和自然科学研究委员会(EPSRC)项目,分布式多联产能源系统研究平台,2008.11,主要参与
荣誉及奖励
1)2014年任ASME 2014 12th Fuel Cell Science, Engineering and Technology Conference分会共同主席
2)2013年任ECOS2013国际能源大会Organizing Committee成员及分会主席
3)2011年入选教育部“新世纪优秀人才支持计划”
4)2008年应德国林岛诺贝尔奖获得者大会基金会的邀请出席第58届诺贝尔物理奖获得者大会
5)国际期刊评审:
《International Journal of Hydrogen Energy》
《Renewable Energy》
《Energy》
《Fuel Cells》
《Expert Systems with Applications》
《ASME Journal of Engineering for Gas Turbines and Power》
《Chemical Engineering Research and Design》
《Journal of Power and Energy》
《Applied Mathematical Modelling》
《Applied Soft Computing》
出版物代表作
ang, W., Zhao, Y.*, Liso, V., Brandon, N. Optimal Design and Operation of A Syngas-fuelled SOFC Micro-CHP System for Residential Applications in Different Climate Zones in China, Energy and Buildings, 2014, in press, http://dx.doi.org/10.1016/j.enbuild.2014.05.015.
Yang, W., Li, N., Zhao, Y. Research and Design of Technology Readiness Levels Evaluating System for Digital Instrumentation and Control System, Applied Mechanics and Materials Vol. 448-453 (2014) pp 3629-3634.
Yang, W., Li, N., Zhao, Y. System Architecture Design for Technology Readiness Assessment of NPPs’ Digital I&C, WIT Transactions on Information and Communication Technologies, Vol. 49, (2014) pp1441-1448.
Zhao, Y., Sadhukhan, J., Lanzini, A., Brandon, N., Shah, N. Optimal Integration Strategies for A Syngas Fuelled SOFC and Gas Turbine Hybrid System, Journal of Power Sources, Vol. 196, Pages 9516-9527, 2011.
Zhao, Y., Shah, N., Brandon, N. Comparison between two optimization strategies for Solid Oxide Fuel Cell-Gas Turbine hybrid cycles, International Journal of Hydrogen Energy, Vol. 36, Pages 10235-10246, 2011.
Zhao, Y., Shah, N., Brandon, N. The development and application of a novel optimisation strategy for solid oxide fuel cell-gas turbine hybrid cycles, Fuel Cells, Vol. 10, Pages 181-193, 2010.
Liso, V., Zhao, Y., Brandon, N., Nielsen, M.P., K?r, S.K. Heat-to-Power Ratio analysis of a SOFC based micro CHP system for residential application under different climates, International Journal of Hydrogen Energy, Vol. 36, Pages 13715-13726, 2011.
Zhang, X., Su, S., Chen, J., Zhao, Y., Brandon, N. A new analytical approach to evaluate and optimize the performance of an irreversible solid oxide fuel cell-gas turbine hybrid system, International Journal of Hydrogen Energy, Vol. 36, Pages 15304-15312, 2011.
Sadhukhan, J., Zhao, Y., Leach, M., Brandon, N., Shah, N. Energy Integration and Analysis of Solid Oxide Fuel Cell Based Microcombined Heat and Power Systems and Other Renewable Systems Using Biomass Waste Derived Syngas, Industrial & Engineering Chemistry Research, Vol. 49, Pages 11506-11516, 2010.
Sadhukhan, J., Zhao, Y., Shah, N., Brandon, N. Performance analysis of integrated biomass gasification fuel cell (BGFC) and biomass gasification combined cycle (BGCC) systems, Chemical Engineering Science, Vol. 65, Pages 1942-1954, 2010.
Zhao, Y., Chen, J. Modeling and optimization of a typical fuel cell–heat engine hybrid system and its parametric design criteria, Journal of Power Sources, Vol. 186, Pages 96-103, 2009.
Zhao, Y., Ou, C., Chen, J. A new analytical approach to model and evaluate the performance of a class of irreversible fuel cells, International Journal of Hydrogen Energy, Vol. 33, Pages 4161-4170, 2008.
Zhao, Y., Chen, J. An irreversible Otto heat engine with friction and heat leak losses and its parametric optimum criteria, Journal of the Energy Institute, Vol. 81, Pages 54-58, 2008.
Lin, T., Zhao, Y., Chen, J. Expressions for Entropy Production Rate of Fuel Cells, Chinese Journal of Chemical Physics, Vol. 21, Pages 361-366, 2008.
Lin, B., Zhao, Y., Chen, J. Parametric optimum analysis of an irreversible Ericsson cryogenic refrigeration cycle working with an ideal Fermi gas, Pramana-Journal of Physics, Vol. 70, Pages 779-795, 2008.
Zhao, Y., Chen, J. Optimum performance analysis of an irreversible Diesel heat engine affected by variable heat capacities of working fluid, Energy Conversion And Management, Vol. 48, Pages 2595-2603, 2007.
Zhao, Y., Chen, J. Performance analysis of an irreversible Miller heat engine and its optimum criteria, Applied Thermal Engineering, Vol. 27, Pages 2051-2058, 2007.
Zhao, Y., Chen, J. An irreversible heat engine model including three typical thermodynamic cycles and their optimum performance analysis, International Journal of Thermal Sciences, Vol. 46, Pages 605-613, 2007.
Zhao, Y., Lin, B., Chen, J. Optimum criteria on the important parameters of an irreversible Otto heat engine with the temperature-dependent heat capacities of the working fluid, Journal of Energy Resources Technology-Transactions of the ASME, Vol. 129, Pages 348-354, 2007.
Zhao, Y., Lin, B., Zhang, Y., Chen, J. Performance analysis and parametric optimum design of an irreversible Diesel heat engine, Energy Conversion and Management, Vol. 47, Pages 3383-3392, 2006.
Zhao, Y., Chen, J. Performance analysis and parametric optimum criteria of an irreversible Atkinson heat-engine, Applied Energy, Vol. 83, Pages 789-800, 2006.
Chen, J., Zhao, Y., He, J. Optimization criteria for the important parameters of an irreversible Otto heat-engine, Applied Energy, Vol. 83, Pages 228-238, 2006.
李宁,杨文元,赵英汝,张彬彬 ,陈锦,一种系统技术成熟度评估方法和装置,发明专利公开,公布号CN 103391317 A ,公布日2013年11月13日,中华人民共和国国家知识产权局。
杨文元,李宁,赵英汝,陈锦,数字化技术成熟度评估系统,证书号:软件登字第0665232号,2013年12月27日,中华人民共和国版权局。
李宁,杨文元,赵英汝,张彬彬,陈锦,基于工作分解结构系统技术成熟度评估系统,证书号:软件登字第0673771号,2014年01月13日,中华人民共和国版权局。
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