The electrolyte of an SOFC only transfers oxygen ions, not electrons.
由于燃料电池的电解液仅仅传递氧离子,而非电子,因此回路较长。
Cathode is one of the key components of the solid oxide fuel cell (SOFC).
阴极(空气电极)是固体氧化物电解质燃料电池的关键部件之一。
Solid Oxide fuel cell (SOFC) if the fourth generation of fuel cell family.
固体氧化物燃料电池是第四代燃料电池。
There are three major parts in SOFC which are electrolyte, cathode and anode.
固体氧化物燃料电池主要部件包括电解质、阴极、阳极。
The status and progress of the anode materials for SOFC are reviewed in this paper.
本文综述了固体氧化物燃料电池阳极材料的研究现状和进展。
The electrochemical properties of the obtained SOFC are tested by two-probe method.
利用两端子法对烧结后的SOFC进行了电化学性能测试。
The performance of cathode materials for solid oxide fuel cell (SOFC) was summarized.
综述了固体氧化物燃料电池(SOFC)阴极材料的性能。
Conclusion SOFC could induce human embryo lung diploid cell malignant transformation.
结论胡麻油烟冷凝物具有诱导人胚肺二倍体细胞转化的作用。
This program will focus on advancing SOFC power systems on high-performance liquid fuels.
该计划将主要关注先进的SOFC电源系统在使用高性能液体燃料。
The thermal expand coefficient of modified phosphate glass system is lower than required in SOFC.
改性磷酸盐玻璃体系的热膨胀系数明显偏低;
The output performance of SOFC is adjusted with good effect by PID controller tuned with decay-curve law.
然后,设计衰减曲线整定参数后的PID控制器可较好地改善电池的输出性能。
Currently, intermediate-temperature solid oxide fuel cell (IT-SOFC) is the focus of global investigation.
目前,中温固体氧化物燃料电池是世界各国研究的重点。
The SOFC and its hybrid system are considered to be one of the key technologies to reach the targets of Vision 21.
SOFC及其混合系统被认为是达到“展望21世纪”目标的关键技术之一。
SOFC power generation system with chemical looping combustor is a kind of new solid oxide fuel cell combined cycle.
化学链式燃烧器和固体氧化物燃料电池相结合的发电系统是一种新型联合循环。
The analysis result shows potential application advantages of Solid Oxide Fuel Cell (SOFC) in large-scale power plant.
分析表明,固体氧化物燃料电池在大型电厂的应用具有潜在优势。
The model results could provide some fundamental guidelines for SOFC cathode microstructure optimization and SOFC operation.
模拟结果对电极微观结构优化及电池运行提供了一定的理论指导。
SO, developing new electrolyte with superior properties is one of the major tasks to make SOFC application in the new century.
因此,寻找新的优良的固体氧化物电解质仍然是新世纪推动SOFC实用化的关键任务之一。
About the anode-support SOFC, the average thickness of anode layer, electrolyte layer and cathode layer ware 1mm, 0.5mm and 0.15mm.
阳极支撑式SOFC的阳极平均厚度约为1mm,电解质的平均厚度约为0.5mm,阴极的平均厚度约为0.15mm。
The fuel utilization of the SOFC is taken as the input, the voltage and current density as the outputs of the neural network model.
在建模过程中,以SOFC的燃料利用率为模型的输入,电压和电流为模型输出。
In this paper, the working principle of the solid oxide fuel cell (SOFC) and the theoretic voltage model are introduced and analyzed.
首先介绍并分析了固体氧化物燃料电池(SOFC)的工作原理和理论电压模型。
With 800 groups of experimental data as the training samples, a cell voltage and current density identification model of the SOFC is established.
利用800组实验数据作为训练样本,建立了SOFC的电流-电压辨识模型。
As the key component of the solid oxide fuel cell (SOFC), the electrolyte has significant influence on the main quality of the performance and the cost.
电解质作为固体氧化物燃料电池(SOFC)的关键组件,很大程度上决定着燃料电池性能的优劣和成本的高低。
These two polarization losses together hold 85% in the total loss for tubular SOFC. The ohmic heat mainly depends on the current density in the planar SOFC.
而对于管式SOFC,阴极欧姆损失占总电压损失的比例最大,其次为活化极化损失,两者之和占总损失达85%。
Develop a nonlinear model predictive control (NMPC) for SOFC application. NMPC is well suited in the nonlinear control environment with specified constraints.
建立了基于模型方程的SOFC非线性模型预测控制算法(NMPC)应用。
The tubular solid oxide fuel cell (SOFC) technology is introduced in this paper, as well as the integration with micro gas turbines for distributed generation.
介绍固体氧化物燃电池(SOFC)的技术性能水平现状,以及SOFC与微型燃气轮相结合提供电力的发展前景。
Electrode and electrolyte material fitting to IT-SOFC were synthesized by the combination of sol gel and citric acid-nitrate low temperature self-propagating combustion method.
采用燃烧合成的方法—柠檬酸-硝酸盐法合成中温固体氧化物燃料电池的电解质及电极材料的初始粉末。
SOFC is identified as an advanced power generation technology, playing an important role in improving the fossil fuel utilization efficiency and reducing the emissions in the future.
SOFC在提高传统化石类能源的利用效率、降低污染气体排放方面将发挥着重要作用。
The requirement of operation for SOFC′s component materials, and the present aspects of component materials research, configuration were described. Some problems about SOFC were introduced.
概述固体氧化物燃烧电池运行环境对各组件材料的要求和组件材料研究及制备进展,提出了一些有待解决的问题。
The requirement of operation for SOFC′s component materials, and the present aspects of component materials research, configuration were described. Some problems about SOFC were introduced.
概述固体氧化物燃烧电池运行环境对各组件材料的要求和组件材料研究及制备进展,提出了一些有待解决的问题。
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