theoretical capacity

It has high theoretical capacity , good cycle performance , low cost , safety and low harm .

它具有较高的理论容量，良好的循环性能，丰富的原料来源，低廉的成本，良好的安全性能以及对环境友好等特性。

This would give a theoretical capacity of154 requests per second , pushing the bottleneck to the database .

这会把理论容量提高到每秒154个请求，瓶颈位置就会转到数据库。

Graphite has a low theoretical capacity and safety problems , so researchers are seeking new materials with higher theoretical capacity and more safety .

但石墨理论容量低且有安全性问题，因此高理论容量、安全性好的新型负极材料得到越来越多的关注。

Tin-based materials attracted many scholars , because of their high theoretical capacity ( 994mAhg-1 ) .

锡基材料由于其较高的理论容量（994mAhg-1），而成为近年来的研究热点之一。

In addition , the theoretical capacity decreases with an increase in lithium content or the Li / Mn molar ratio .

缺陷尖晶石型Li（1±x）Mn2O4中，随着Li成分的增加，晶胞参数逐渐增大，总能量和电池的平均电压逐渐减少，理论容量随着含锂量或Li/Mn摩尔比的增加而减少。

Manganese oxide is an ideal supercapacitor electrode material , which is rich in natural resources , cheap and high theoretical capacity .

氧化锰是理想的超级电容器电极材料，资源丰富、价格便宜、理论容量高。

Vanadate as the cathode materials has the advantages of stability , high theoretical capacity , high-rate capability and so on .

钒酸盐用作锂电池正极材料，具有安全稳定性好、理论容量高、倍率性能好等优点。

Second , the theoretical capacity of MIMO channel is derived at the assumption that the channel state information is known at the receiver .

另外，接收端对信道状态信息的了解是系统获得理论信道容量的先决条件。

Then , Wyner model of BSC is researched , and its information theory performance is given , resulting in a theoretical capacity limit .

然后，研究了基站协作的Wyner模型，并给出了基站协作性能的信息论分析结果，从而得到理论上的极限容量。

We estimate the theoretical capacity of graphene as 736mAh / g , about twice that of graphite .

我们估算出石墨烯的理论比容量为736mAh/g，大约是石墨的两倍。

To unify the path and the system is to scientifically orient socialism with Chinese characteristics , which has sufficient theoretical capacity and enormous innovation space .

中国特色社会主义具有足够的理论容量，也有巨大的创新空间。

Aluminum air metal fuel cell is ideal for the new type power batteries because of its large theoretical capacity , high specific energy , abundant resources and pollution-free .

铝金属燃料电池理论容量大、比能量高、资源丰富、无污染，是理想的新型动力电池。

Over multiple-input and multiple-output channels , space-time coding is one of practical coding that can make the informational capacity approaching the theoretical capacity .

在多输入多输出信道中，空时编码是可以使信息容量接近理论容量的一种较实用的编码。

At the current density of 17 mA / cm ~ 2 , the batteries show a flat working voltage , little electrode polarity effect and nearly theoretical capacity .

充放电测试结果表明，在17mA/cm2的电流密度下，材料工作电压平稳，电极极化效应较小，容量接近其理论值。

Iron oxides have high theoretical capacity , low cost and environmental affinity , which make them promising candidates as anode materials for high energy-density lithium-ion batteries .

铁氧化物具有理论比容量高、价格低廉且环境友好等优点，因而成为极具潜力的高比能量锂离子电池负极材料之一。

LiNiO_2 has been intensely investigated because of its low cost and large theoretical capacity ( 275mAh · g ~ ( - 1 )) .

LiNiO2因为低廉的价格和高的理论容量（275mAh·g~（-1））成为研究的热点。

Aluminum is a very attractive anode material for energy storage and conversion because of its negative standard electrode potential , abundance in nature , low price and high theoretical capacity .

在电池领域中，铝是一种很有吸引力的阳极材料，优点是理论电极电位较负，储量丰富，价格低廉，理论容量高。

Monoclinic Li3V2 ( PO4 ) 3is considered as a potential cathode material due to its high operating voltage , high theoretical capacity and good safety performance .

Li3V2（PO4）3由于工作电压高、理论比容量高以及安全性能好等优点，被认为是具有巨大发展潜力的锂离子电池正极材料。

For the WCDMA system this complex , many factors and mutual coupling , WCDMA radio network planning is comprehensive and diversity , the theoretical capacity of the error is larger cover predictions .

对于WCDMA这样的复杂系统，影响因素众多且相互耦合，WCDMA无线网络规划具有综合性和多元性，理论上的容量覆盖预测结果往往误差较大。

Layered Li_ ( 1 + x ) V_3O_8 is one of the most promising cathode materials in lithium-ion rechargeable batteries because of its low cost and high theoretical capacity .

层状Li（1+x）V3O8价格低廉，理论比容量高，是最有前途的锂离了二次电池正极材料之一。

Silicon-based anode materials have become a focus because of its high theoretical capacity . But the huge volume changes of silicon before and afer lithium insertion results in unstable electrode structure and poor cycle performance .

硅负极材料由于其高的理论比容量等优点而倍受关注，但是由于其嵌、脱锂前后巨大的体积变化，导致其结构不稳定、循环性能差。

Compared with graphite anodes , alloy anode materials have a high theoretical capacity and a fast charge / discharge rate , making alloys a class of very promising high-specific energy Li-ion battery anode materials .

与商业化的碳极相比，合金负极材料具有理论容量高、快速充放电能力等优点，因而是一类非常有发展前景的高比能锂离子电池负极材料。

Aluminium-air batteries have a theoretical capacity morethan 40 times greater than the lithium-ion cells Tesla will soon mass-produce , and Fuji Pigment has stated it will commercialize its innovation by the end of 2015 .

与特斯拉即将量产的锂聚电池相比，铝空气电池理论容量多出40倍以上。而且富士色素表示，将在今年底前实现项目商业化。

The conclusions were showed as following : 1 . Aluminum electrode showed relatively good property in the cycles as negative material of lithium-ion secondary batteries . Its capacity reached 400mAh / g , which is higher than the theoretical capacity of carbon .

采用Al极片作为锂离子二次电池的负极材料在循环中表现出较好的综合性能，容量可到达400mAh/g，高于石墨理论容量。

It was found that carbon materials have the reversible capacities from 787 to 1158 mAh / g at a current density of 50 mA / g after 30 charge / discharge cycles , which is much higher than the theoretical capacity of graphite .

结果表明50mA/g的电流密度下循环30次后，样品的可逆容量保持在787-1152mAh/g，远高于石墨的理论容量。

Since its theoretical capacity is about ten times larger than that of graphite , together with several features of a lower lithium intercalation potential , sufficient abundance , and friendly environment , silicon becomes one of the most promising alternatives of graphite for anode material .

硅材料的理论比容量约为石墨的十倍左右，且具有较低的嵌锂电位、广泛地原料来源和对环境友好等特点，是最有希望代替石墨的负极材料之一。

The theoretical capacity of silicon anode material of lithium-ion battery is up to 4200 mAh g-1 . However , this material undergoes the pulverization arising from its volume expansion and contraction during lithium insertion and extraction , which greatly hinders its commercial application .

硅材料作为锂离子电池负极材料其理论比容量高达4200mAhg-1，但在充放电过程中，其会发生巨大的体积膨胀和收缩，从而阻止了实用化进程。

The theoretical cooling capacity and different kinds of thermal losses were obtained .

通过计算获得了系统的理论制冷量，各种热损失等数据。

MIMO technology , with advantages such as theoretical high capacity , is attaching great attentions .

而MIMO技术以其理论上的高容量等优势得到业界的高度重视。

Theoretical sink capacity is 12821.7 kg / hm2 in average , similar to the control .

理论库容平均为12821.7kg／hm~2，与比对照平均12902.9kg／hm~2相近；