1) micro fuel cell
微燃料电池
1.
Based on development state of various micro power sources at home and abroad and their researching results,the feasibility of micro fuel cells fabricated by MEMS (micro electro mechanical system) silicon bulk fabrication is analyzed in theory.
结合目前国内外各种微电源的发展现状,总结微电源的研究成果,从理论上探讨了利用MEMS体硅加工工艺制作微燃料电池的可行性。
2) Microbial fuel cells
微生物燃料电池
1.
The application of the microbial fuel cells to wastewater treatment;
微生物燃料电池在废水处理中的应用
2.
Research Progress in Microbial Fuel Cells for Electrons Transfer of Electricigens
微生物燃料电池中产电微生物电子传递研究进展
3.
Based on this biological mechanism, Dissimilatory Metal Reduction Bacteria Rhodoferax ferrireducens was used to construct a suit of microbial fuel cells with sugars as fuel, and .
环境中的一些微生物通过还原金属氧化物进行无氧呼吸,而石墨电极与金属氧化物相似,也可以作为这类微生物呼吸作用的最终电子受体,利用这类微生物构建微生物燃料电池,以糖类物质为燃料,对电池产电情况、产电原理进行研究。
3) microbial fuel cell
微生物燃料电池
1.
Experimental research on integration of anaerobic microbial treatment and microbial fuel cells;
污水厌氧生化处理与微生物燃料电池的结合探讨
2.
A membrane electrode assembly typed microbial fuel cell for electricity generation;
“三合一”微生物燃料电池的产电特性研究
3.
Production of electricity from phenol using a microbial fuel cell;
以苯酚为燃料的微生物燃料电池产电特性
4) MFC
微生物燃料电池
1.
Comparison of difference between two-chambered and single-chamber MFC;
双室和单室微生物燃料电池的研究及比较
2.
Microbial fuel cell(MFC) is a device directly converting microbial metabolic power into electricity with the microbial catalysts,which has the advantages of abundant fuel resource,mild reaction condition and high efficiency.
微生物燃料电池(m icrob ial fuel cell,MFC)利用微生物催化剂将其代谢能直接转化为电能,具有原料广泛、反应条件温和、清洁高效等优点。
3.
As an alternative to alleviate the energy crisis and solve the environmentalproblems, microbial fuel cell (MFC) can generate electricity directly from thetreatment of wastewater and has become one of the focuses in the field ofenvironmental protection and energy recovery.
将微生物燃料电池(Microbial fuel cell,MFC)应用到废水处理领域,在处理有机废水的同时获得电能,是缓解当前能源危机和解决环境问题的有效途径,也是环境能源领域的热点研究课题之一。
5) micro fuel cell
微型燃料电池
1.
Research progress on application of porous silicon in micro fuel cells;
多孔硅在微型燃料电池中的应用研究进展
2.
Research and development of micro fuel cells;
微型燃料电池的研究与发展
3.
MEMS-based micro fuel cell and its air supplying method by piezoelectric fan;
MEMS微型燃料电池及其基于压电风扇的换气方法
6) micro fuel cells
微型燃料电池
1.
Several problems,such as poor micro-machinability of graphite,corrodibility and high density of metal,rise when the conventional materials such as graphite and metal applied in micro fuel cells.
微型燃料电池被认为可作为便携式电子设备的下一代电源而越来越受到关注。
补充资料:固体氧化物燃料电池
分子式:
CAS号:
性质: 以氧化锆陶瓷为固体电解质的一种高温型氢/氧或氢-CO/空气燃料电池。ZrO2(以Y2O3或CaO稳定)在800~1000℃时是一种氧离子导体,在ZrO2薄膜的两边涂以多孔导电物质,作为正、负电极。正极中氧在高温下离子化成为氧离子,它迁移通过ZrO2薄膜,与负极的氢和CO化合,分别生成H2O和CO2,同时输出电流。由于工作温度高达1000℃,电催化等问题不突出,如果充分利用余热,总的能量效率可达60%~65%,但材料的高温腐蚀问题不易解决。该燃料电池已进行过10~100kW级成套电池试运行。
CAS号:
性质: 以氧化锆陶瓷为固体电解质的一种高温型氢/氧或氢-CO/空气燃料电池。ZrO2(以Y2O3或CaO稳定)在800~1000℃时是一种氧离子导体,在ZrO2薄膜的两边涂以多孔导电物质,作为正、负电极。正极中氧在高温下离子化成为氧离子,它迁移通过ZrO2薄膜,与负极的氢和CO化合,分别生成H2O和CO2,同时输出电流。由于工作温度高达1000℃,电催化等问题不突出,如果充分利用余热,总的能量效率可达60%~65%,但材料的高温腐蚀问题不易解决。该燃料电池已进行过10~100kW级成套电池试运行。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条