在用电管理系统中,电费计算子系统的性能主要由电费计算的速度决定。
In power utilization management system, the performance of energy charge computing subsystem is determined by the speed of computing energy charge mainly.
你简单的设置一下电费的单价并把仪器安装到家用电器上,它就可以计算出消耗的电费。
You simply set the rate of your electricity cost and plug your appliance into the device, and a monitor calculates its energy cost.
桑迪亚国家实验室的计算机建筑师理查德·墨菲说,按照目前的价格,仅一台机器每年将花费500万美元的电费。
At current price, the electric bill alone for jut one machine could top 0 million per year, ay Richard Murphy, computer architect at Sandia National Laboratorie.
对于两路电源供电给同一用户的情况,目前现场通用的功率因数调整电费有两种计算方法。
In the case of double-source supply to a consumer, there are two kinds of currently prevalent calculation method for tariff regulation by power factors at site.
电力市场环境下,输电费用的计算和分摊成为必须解决的问题之一。
Computation and allocation of transmission costs is one of the problems that must be solved in the environment of electricity market.
利用计算机语音技术和网络技术开发出电费自动催缴及自动查询系统。
This article uses speech technology and local net technology of computer to develop a power bill auto- inquiring and auto hastening system.
两部电价制的基本电费可按变压器容量或最大需量进行计算。
The basic tariff in dual tariff system can be calculated as transformer capacity of maximized demand.
她认为如果我们用计算水费的分层式计算法来收取电费,国人将必须承担更高的电费。这是因为第一层用水收费就已经定在收回全部供水成本的水平。
The tiered system I envisage for electricity is not one where the baseline tier is already set to recoup full cost, with a tax artificially imposed on excess consumption, as is the case for water.
算例结果表明:费用流法计算简洁、中间步骤少、累计误差小,是计算输电费简单有效的方法。
Results show that the cost flow method is simple and effective with less steps and small cumulative error.
其主要特点是:节能——同等产量降低电功率40%,以平均每小时节约6度电计算,日生产可节约30元电费。
Its main features are: Energy — equal to lower production of electric power 40%, saving an average of 6 kilowatt-hour basis, savings of 30 per day production of electricity.
把修改后的合作博弈理论引入到输电费用分配方法中,这是一个新的尝试。 其中输电费用计算是本论文的重点研究部分。
This paper also introduces modified cooperative game theory into transmission pricing and it is a new thought to the transmission pricing.
最后,将所提出的购电模型与算法应用于某地区的日购电优化中,计算结果表明,在考虑网损时的购电费用相对于其他方法可节省约1.9%。
The model and algorithm are applied to the power purchase of a region. Results show that, compared with other methods, the cost with consideration of loss allocation is reduced by about 1.9 %.
提出的智能电度表与专门设计的分时计费电度表不同,毋须更换原有的感应式电度表,利用单片机功能,略加改装,便能使之具有在用电的高峰期与低谷期分时计算电费的功能。
The intelligent time-sharing meter presented by the author is different from the traditional ones specially designed for this purpose; replacement of kilowatt-hour meters now available is not needed.
提出的智能电度表与专门设计的分时计费电度表不同,毋须更换原有的感应式电度表,利用单片机功能,略加改装,便能使之具有在用电的高峰期与低谷期分时计算电费的功能。
The intelligent time-sharing meter presented by the author is different from the traditional ones specially designed for this purpose; replacement of kilowatt-hour meters now available is not needed.
应用推荐