高温燃料电池
- 网络High Temperature Fuel Cell;SOFC;htfc
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磷钨酸/磺化聚芳醚酮砜复合型高温燃料电池用质子交换膜
Heteropolyacid / sulfonated poly ( aryle ether ketone sulfone ) composite proton exchange membrane for high temperature fuel cell applications
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介绍了钠硫电池、全固态锂电池,高温燃料电池、钠热机等方面的研究现状和发展趋势。
They are : sodium-sulfur battery , solid state lithium battery , high temperature fuel cell and sodium heat engine .
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本文介绍了国内外高温燃料电池(MCFC、SOFC)的研究和主要特点,总结了国内外生物质气化燃料电池一体化发电的研究进展,分析了我国开展该项研究的可行性和应用前景。
Research status of high temperature fuel cells ( MCFC and SOFC ) are introduced and the study on integrated biomass gasification and power generation system are reviewed . The feasibility and prospect of the technology are analyzed based on the situation of China .
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生物质气化高温燃料电池一体化发电技术研究
Status of integrated biomass gasification and fuel cell power generation system
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高温燃料电池发电系统模拟
Simulation of power generating system with high temperature fuel cells
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高温燃料电池技术分析及前景展望高温燃料电池发电系统模拟
Analysis and Prospect of power generation technology using high temperature fuel cells
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混合装置中高温燃料电池建模综述
Modeling of high-temperature fuel cells in hybride plant
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国外相关的试验研究和一体化示范工程。分析了生物质气化高温燃料电池一体化发电技术在我国应用的可行性,提出了目前需要解决的关键技术问题。
The feasibility and key technology of developing BIG-FC power generation system in China are analyzed .
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高温燃料电池与燃气轮机相结合的混合发电系统
A Power Generation System Based on the Combination of High-temperature Fuel Cells and Gas Turbines - a Hybrid Power Generation System
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介绍了生物质气化高温燃料电池一体化发电的系统组成和特点;
The components and characteristics of biomass integrated gasification and high temperature fuel cell ( BIGFC ) power generating system were summarized .
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高的排气温度(400℃以上),使高温燃料电池能更好地驱动吸收式制冷机工作。
The high exhaust temperature ( above 400 ℃) of HTFCs makes them quite suitable for driving the absorption refrigeration in the TES .
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高温燃料电池是一种将碳氢化合物的化学能通过电化学反应直接转化成电能的最有效的装置之一。
High temperature fuel cell is one of the most effective devices for the electrochemical conversion of chemical energy of hydrocarbon fuel into electricity .
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此外,在降低质子交换膜的成本的基础上,探讨了Nafion/SiO2/PTFE复合膜用于高温燃料电池的可行性。
To reduce the cost of proton exchange membrane , the feasibility of Nafion / SiO2 / PTFE composite membrane in high-temperature fuel cell applications was also investigated .
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在此基础上对常规动力系统和高温燃料电池两类不同的合成气利用方式进行了比较,发现高温燃料电池在利用生物质合成气上具有较为明显的优势。
Comparisons are made between the conventional power systems and high temperature fuel cell to use biomass syngas . The results show that high temperature fuel cell is more competitive .
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然而,高温燃料电池-燃气轮机混合动力系统是一个复合过程、一个复杂的能量转换过程,该类系统的非线性特性及其协调控制问题一直是悬而未决的难题。
However , the problem of the nonlinear characteristics and the coordinated control on hybrid system is a worldwide difficult problem for its compound and complex conversion process of energy .
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在国内外学者的不懈努力下,已探索出以燃气轮机、内燃机、高温燃料电池等多种能量设备为原动机的总能系统构成方式。
With the unremitting efforts of scholars in the world , many kinds of DTES have been developed , which mainly employ gas turbine , internal combustion engine or high-temperature fuel cells as the prime mover .
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目前已有高温燃料电池与燃气轮机混合发电系统成功运行,但仍有很多问题需要进行进一步的研究和探索,以使该混合发电系统早日实现商业化运行。
Currently , several of such hybrid power generation systems are already operating successfully . However , there still remain many problems , which require further study and exploration in order to realize their early commercial operation .
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铝酸镧作为一种新型的稀土材料,在电子器件、催化、高温燃料电池、陶瓷、污水处理、衬底材料等方面得到了广泛应用。
As a novel type of rare earth functional materials , lanthanum aluminate has widely been used in the fields of electronic devices , catalysts , high temperature fuel cells , advanced ceramics , sewage treatment , and substrate materials .
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概述了高温燃料电池的早期模型、细化模型、整体堆模型以及控制方面模型,重点介绍了典型模型的建模思想和主要的方程,为实现燃料电池燃气轮机混合装置的建模仿真做准备工作。
The traditional model , detailed model , stack model and control model are reviewed . The idea and equation of classic model are discussed in detail as the preparation for the simulation & modeling of advanced fuel cell combustion gas turbine hybrid plant system .
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高温燃料电池-燃气轮机混合动力系统是上世纪末、本世纪初刚刚兴起的一种高效、环保的新型动力系统,在未来发电领域具有广阔的应用前景。
The high temperature fuel cell-gas turbine hybrid system is an advanced efficiency and ecological power system , which rose at the end of last century and the beginning of this century . It has a wide application prospect in the field of electric power .
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高温型燃料电池的甲烷重整方式
Methane reforming of high temperature fuel cell
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当人们把能源供应仍然寄托于煤的综合利用为主时,可以直接使用多种碳基燃料的高温固体氧化物燃料电池(SOFC)发电技术将是新型高效洁净能源的有效途径之一。
While the coal is still used as a main source , the solid oxide fuel cell ( SOFC ) has become one of the high clear energy technologies , which directly use the carbon-based fuel .
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具体工作及结论如下:(1)以乙醇的水蒸汽重整反应为基础,将其应用到高温固体氧化物燃料电池中。
The specific work and conclusions are as the follows : ( 1 ) Mixture of ethanol and water vapor is applied to high temperature solid oxide fuel cell based on the ethanol steam reforming reaction .