DEVELOPMENT OF A SOLID-OXIDE FUEL CELL / GAS TURBINE HYBRID SYSTEM MODEL FOR AEROSPACE APPLICATIONS

机译：航空应用固体氧化物燃料电池/燃气轮机混合系统模型的开发

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Recent interest in fuel cell-gas turbine hybrid applications for the aerospace industry has led to the need for accurate computer simulation models to aid in system design and performance evaluation. To meet this requirement, solid oxide fuel cell (SOFC) and fuel processor models have been developed and incorporated into the Numerical Propulsion Systems Simulation (NPSS) software package. The SOFC and reformer models solve systems of equations governing steady-state performance using common theoretical and semi-empirical terms. An example hybrid configuration is presented that demonstrates the new capability as well as the interaction with pre-existing gas turbine and heat exchanger models. Finally, a comparison of calculated SOFC performance with experimental data is presented to demonstrate model validity.

机译：航空航天业对燃料电池-燃气轮机混合动力应用的最新兴趣导致对精确计算机仿真模型的需求，以帮助系统设计和性能评估。为了满足此要求，已经开发了固体氧化物燃料电池（SOFC）和燃料处理器模型，并将其合并到数值推进系统仿真（NPSS）软件包中。 SOFC和重整器模型使用常见的理论和半经验术语来求解控制稳态性能的方程组。展示了一个混合动力配置示例，该配置演示了新功能以及与现有燃气轮机和热交换器模型的相互作用。最后，将计算出的SOFC性能与实验数据进行了比较，以证明模型的有效性。

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来源
《American Society of Mechanical Engineers(ASME) Turbo Expo vol.7; 20040614-17; Vienna(AT)》|2004年|P.371-379|共9页
会议地点 Vienna(AT)
作者
Joshua E. Freeh; Joseph W. Pratt; Jacob Brouwer;
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作者单位

National Aeronautics and Space Administration John H. Glenn Research Center Cleveland, OH 44135;

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会议组织
原文格式 PDF
正文语种 eng
中图分类气体透平（涡轮机）;
关键词
solid oxide fuel cell; reformer; system model; aerospace; hybrid system; NPSS;

机译：固体氧化物燃料电池；重整器；系统模型；航空航天；混合动力系统； NPSS;

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1. Thermodynamic Model and Analysis of Hybrid Power Installations Built around Solid-Oxide Fuel Cells and Gas-Turbine Units [J] . R. R. Grigoryants, V. I. Zalkind, P. P. Ivanov, Thermal engineering . 2008,第9期

机译：围绕固体氧化物燃料电池和燃气轮机的混合动力装置的热力学模型和分析
2. Probabilistic analysis of a solid-oxide fuel-cell based hybrid gas-turbine system [J] . Rama S.R. Gorla Applied Energy . 2004,第1期

机译：基于固体氧化物燃料电池的混合燃气轮机系统的概率分析
3. Fuel cell system modeling for solid oxide fuel cell/gas turbine hybrid power plants, Part I: Modeling and simulation framework [J] . Florian Leucht, Wolfgang G. Bessler, Josef Kallo, Journal of power sources . 2011,第3期

机译：固体氧化物燃料电池/燃气轮机混合动力装置的燃料电池系统建模，第一部分：建模和仿真框架
4. DEVELOPMENT OF A SOLID-OXIDE FUEL CELL/GAS TURBINE HYBRID SYSTEM MODEL FOR AEROSPACE APPLICATIONS [C] . Joshua E. Freeh, Joseph W. Pratt, Jacob Brouwer ASME Turbo Expo . 2004

机译：航空航天应用的固氧化物燃料电池/燃气轮机混合系统模型的研制
5. Solid Oxide Fuel Cell-Gas Turbine Hybrid Power Systems: Energy Analysis, Control Assessments, Fluid Dynamics Analysis and Dynamic Modeling for Stationary and Transportation Applications [D] . Azizi, Mohammad Ali. 2018

机译：固体氧化物燃料电池-燃气轮机混合动力系统：固定和运输应用的能量分析，控制评估，流体动力学分析和动力学建模
6. Hybrid Modeling of Cell Signaling and Transcriptional Reprogramming and Its Application in C. elegans Development [O] . Elana J. Fertig, Ludmila V. Danilova, Alexander V. Favorov, 2011

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7. Development of a Solid-Oxide Fuel Cell/Gas Turbine Hybrid System Model for Aerospace Applications [O] . Freeh, Joshua E., Brouwer, Jacob, Pratt, Joseph W. 2004

机译：航空航天应用固体氧化物燃料电池/燃气轮机混合系统模型的开发
8. Development of a Solid-Oxide Fuel Cell/Gas Turbine Hybrid System Model for Aerospace Applications [R] . Freeh, J. E. , Pratt, J. W. , Brouwer, J. 2004

机译：用于航空航天应用的固体氧化物燃料电池/燃气轮机混合系统模型的开发

DEVELOPMENT OF A SOLID-OXIDE FUEL CELL / GAS TURBINE HYBRID SYSTEM MODEL FOR AEROSPACE APPLICATIONS

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