空气燃料电池
空气燃料电池-
以该陶瓷作为固体电解质,Pt作电极材料组成氢-空气燃料电池,测定了不同pH介质中水热反应产物纳米晶的陶瓷样品在800~1000°C下的燃料电池性能。
Using these samples as solid electrolyte and Pt as electrode material , hydrogen-air fuel cells were made . The performances of the fuel cells based on ZrO_2-8 mol % Dy_2O_3 were investigated at 800 ~ 1000 (° C ) .
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锌空气燃料电池在电力系统调峰中的应用
Application of zinc-air fuel cell in peak load dispatching power system
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金属空气燃料电池氧电极催化剂
Oxygen electrode catalyst for the metal air fuel cell
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铝-空气燃料电池的研究进展
Research progress of the aluminum - air battery
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碱性固态高分子电解质薄膜的合成与金属-空气燃料电池的应用
Synthesis of Alkaline Solid-state Polymer Electrolyte Membranes and Its Application on Metallic-air Fuel Cell
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氢&空气燃料电池具有稳定的放电性能。
The fuel cells had stable discharging performances .
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试评小功率氢-空气燃料电池
Comments on small power hydrogen-air fuel cells
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海水铝-空气燃料电池
Seawater aluminum air fuel cell
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目前,氢空气燃料电池和直接甲醇燃料电池还不可能用于电动自行车。
Currently hydrogen-air fuel cells and direct methanol fuel cells are not ready for electric bicycle application .
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而金属空气燃料电池具有原材料丰富、容量大、价格低廉且无污染等优点,因此被称为绿色能源。
Metal-air full cell is called as the green energy in term of abundant in raw materials , large capacity , inexpensive and environmental-friendly .
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本研究简要介绍了铝-空气燃料电池、空气电极和空气电极催化剂的发展现状、进展以及存在的主要问题。
In this thesis , the present development , progress and main problems of aluminum-air fuel cells , air cathode and air cathode catalysts were shortly introduced .
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铝空气燃料电池是一种新型高能量化学电源,它具有能量密度高,材料来源丰富,价格便宜,寿命长等优点。
Aluminum-air fuel battery is a new kind of high energy chemical power , due to its high energy density , abundance in nature , no pollution , low price , long life .
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阐述了铝-空气燃料电池的工作原理,综述了铝合金阳极、空气阴极、催化剂、电解液等方面的研究进展及铝-空气燃料电池的应用概况。
In this paper , the mechanism of the Al-air battery was described , and the research progress and application of aluminum-air battery about Al alloy anode , air cathode , catalysts , and electrolyte , were discussed .
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重点分析了铝空气燃料电池的特点,工作原理以及整个电池系统的研究进展。论述了铝空气燃料电池的市场应用及发展前景
The national and international development of aluminum / air fuel cell in the nearest decades is described The analysis is emphasized on the advantages , the operating principle and the researching progress of whole fuel cell systems The applications and the future perspectives are also introduced
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分别用高温固相反应法及溶胶-凝胶法合成了Ba1.03Ce0.8Gd0.2O3-α固体电解质,测定了两种方法合成样品的结构和600℃~1000℃时的氢-空气燃料电池性能。
Ba_ ( 1.03 ) Ce_ ( 0.8 ) Gd_ ( 0.2 ) O_ ( 3 - α) solid electrolytes were synthesized by high-temperature solid state reaction and SolGel method , respectively . Their structures and fuel cell performances at 600 ℃~ 1000 ℃ were determined and studied .
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为了降低成本,PEMFC选用自加湿式的空气冷却燃料电池,避免了PEMFC加湿系统的使用。
In order to reduce costs , a self-humidifying and air cooling PEMFC is selected , avoiding the use of the costly PEMFC humidifying system .
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利用厌氧活性污泥作为接种体成功地启动了空气阴极生物燃料电池(ACMFC),110h的接种产生了0.24V的电压;
An air-cathode microbial fuel cell ( ACMFC ) was successfully started up using anaerobic activated sludge as inoculums , generating a voltage of 0.24V after inoculations for 110 h.
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本文采用空气阴极微生物燃料电池,厌氧活性污泥来接种微生物燃料电池,启动期经过110h获得稳定电压0.24V。
In this study , the air-cathode microbial fuel cell was inoculated with wastewater and anaerobia activated sludge , stable voltage of 0.24V was obtained after 110h during the starting period .
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在空气阴极生物燃料电池(ACMFC)中,从阴极扩散进入阳极的氧气能够被兼性微生物作为电子受体还原,进而导致电子损失严重。
In air-cathode microbial fuel cell ( ACMFC ), oxygen diffused into the reactor from cathode without PEM can be reduced as electron acceptor via aerobic respiration by facultative microorganisms , resulting in either a decreasing of power generation or electron loss .
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短臂型空气阴极微生物燃料电池产电特性研究
Electricity Generation Using the Short-Arm Air-Cathode Microbial Fuel Cell
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电极构型对空气阴极生物燃料电池发电性能的影响
Electrode Configuration as a Factor Affecting Electricity Generation in Air-Cathode Microbial Fuel Cell
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同步废水处理和产能的上流式空气阴极生物燃料电池
An upflow air-cathode microbial fuel cell of simultaneous wastewater treatment and electricity generation
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过量空气系数对燃料电池发动机输出特性的影响
A Study on the Characteristics of a Fuel Cell Engine with Different Excess Air Ratio
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本论文采用碳布阳极,以含10%Pt催化剂的防水处理的碳布为阴极,设计了单室方型空气阴极微生物燃料电池。
Cubic air-Cathode microbial fuel cells were designed and operated , carbon cloth was used as the anode , the air-cathode was made of carbon cloth coated with 10 % Pt catalysts on one side and PTFE waterproof layers on the other side .
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H2S-空气质子固体电解质燃料电池制备及电性能研究
Electrochemical Performance of H_2S-Air SOFC Prepared with Proton Conductor as Electrolyte
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环境对自呼吸式MEMS微型H2/空气质子交换膜燃料电池的影响
Effect of ambient conditions on the air-breathing MEMS H_2 / Air micro PEM fuel cells
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空气自呼吸式燃料电池的阴极通常有两种结构:抽吸式和敞开式。
There are two cathode types of air-breathing fuel cells : ducted type and ribbed type .