提出了基于需盐脱硫弧菌以含乳酸盐的海水培养基为电解液的微生物燃料电池。
A microbial fuel cell of laboratory scale employing Desulfovibrio salexigens in lactate based seawater substrate was proposed.
而微生物燃料电池技术能完成这一转换过程。
And the microbial fuel cell technology is something that does exactly that.
生物燃料电池包括酶生物燃料电池和微生物燃料电池。
Biofuel cells include enzyme biology fuel cell and microorganism fuel cell.
微生物燃料电池运行参数的改变对其电流输出有很大影响。
The MFC current output alters a lot by the change of operation parameter.
微生物燃料电池工作原理是能把电子传递到阳极的细菌活动。
Microbial fuel cells work through the action of bacteria which can pass electrons to an anode.
按采用催化剂的不同,可分为微生物燃料电池和酶生物燃料电池。
It can be classified into microbial fuel cell and enzymatic biofuel cell.
“微生物燃料电池(简称缩写为MFC)”中的细菌可以产生电能。”
We use those microbes, particularly inside something called a microbial fuel cell (MFC), to generate electrical power.
研究人员已经证明了微生物燃料电池可使用尿功率到移动电话充电。
The researchers have already proved the microbial fuel cells can use urine power to charge a mobile phone.
一种希瓦氏菌及其在微生物燃料电池中的应用,涉及生物技术领域。
The invention discloses shewanella spp and application thereof in a microbial fuel cell and relates to the technical field of biology.
在微生物燃料电池中,阳极电势会对产电菌的富集和生长产生影响。
The initial anode potential of the microbial fuel cell(MFC) was changed by additional circuit in the anode chamber, and the influence of the initial anode potential on the electricigens was studied.
在研制含铁离子阴极电极板的基础上,构建了单室直接微生物燃料电池。
A new type of single-chamber direct microbial fuel cell was constructed successfully on the basis of studying the cathode electrode containing Fe3 +.
目的研究一种新型酶电极电化学性能,该电极能够被应用到生物燃料电池中。
Objective To study the electrochemical features of an improved enzyme bioelectrode for biofuel cell.
双室藻类微生物燃料电池及其低能耗处理废水的方法,它属于废水处理领域。
The invention relates to a two-chambered alga microbial fuel cell and treatment wastewater method of low energy consumption thereof, belonging to the field of wastewater treatment.
酶生物燃料电池的寿命短以及能量密度低都与酶的稳定性、电子迁移速率和酶载量相关。
The two problems of enzyme-based biofuel cells are short lifetime and poor power density, both of which are related to enzyme stability, electron transfer rate and enzyme loading.
随着外接电阻值的增大,微生物燃料电池的输出电流变小,符合原电池电极的一般规律。
When external resistance is increased, the MFC output electric current becomes smaller and smaller. The principle is in agreement with primary cell electrode.
类似的,这个数字时钟也用一张捕蝇纸来收集猎物,然后通过相同类型的微生物燃料电池供电。
Similarly, a digital clock is powered with the same type of microbial fuel cell, collecting its prey with flypaper.
基冈·库克曾经研究过生物燃料电池,他一直在卖一种称作MudWatt的家庭自制电池组。
Keegan Cooke, a former microbial fuel cell researcher, has been selling a home-built battery called a MudWatt kit.
微生物燃料电池可以将剩余污泥中的化学能转化为最清洁的电能,为污泥资源化提供了新的思路。
Consequently, the microbial fuel cell can transform chemical energy of surplus sludge into the cleanest electrical energy, and it provides a new way of sludge recycling.
简要介绍其工作原理,概括了直接微生物燃料电池的研究进展以及目前需解决的问题和工作方向。
The operation principles of direct microbial fuel cells were described. Present researches of direct microbial fuel cells and the problems to be resolved were pointed out.
阐述了生物燃料电池和以病毒为模板的二次电池的工作原理以及在电池结构和性能等方面取得的研究成果。
The principle of the biofuel cell and virus-enabled rechargeable battery and the relationship between the cell structure and the performance are described.
微生物燃料电池稳定运行的时间随着基质初始浓度的增大而增加,但库仑效率随着基质浓度的增大而减小;
The MFC can operate longer when the initial substrate concentration is higher. The coulomb efficiency decreases while the initial substrate concentration increases.
它能催化o_2、H_2O_2和过氧化物还原,在生物燃料电池和过氧化氢传感器等方面有潜在的应用前景。
It can catalyze the reduction of O2, H2O2 and peroxides. Thus, it possesses the potential application prospect in biofuel cell and H2O2 sensor etc.
综述了酶生物燃料电池的研究进展,特别是近年来在电池结构、性能以及电池的正极和负极研究等方面的成果。
The recent research progress of enzymatic biofuel cells including the properties, structure and components of biofuel cells are briefly reviewed.
模仿人类心脏的挤压动作的设备已被用于抽尿成微生物燃料电池,它可以提供动力的机器人,可将废物转化为电能。
A device that mimics the squeezing action of the human heart has been used to pump urine into a microbial fuel cell, which could power robots that convert the waste into electricity.
英国布里斯托尔机器人实验室负责人ChrisMelhuish说,微生物燃料电池在理论上几乎能在所有有机物上工作。
In theory microbial fuel cells can run on almost any kind of organic matter, says Chris Melhuish, head of the Bristol Robotics Laboratory, England.
英国布里斯托机器人研究所负责人ChrisMelhuish说,微生物燃料电池在理论上能够在任何有机物质条件下工作。
In theory microbial fuel cells can run on just about any kind of organic matter, says Chris Melhuish, head of the Bristol Robotics Laboratory, England.
英国布里斯托机器人研究所负责人ChrisMelhuish说,微生物燃料电池在理论上能够在任何有机物质条件下工作。
In theory microbial fuel cells can run on just about any kind of organic matter, says Chris Melhuish, head of the Bristol Robotics Laboratory, England.
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