微能源主要分为微型电池和微型发电机两大类。
Micro power can be classified into two kinds: micro cell and micro generator.
我们已经对微能源和可再生能源进行了研究,不过它们都过于昂贵。
We have done studies on micro-energy and renewables, but they are expensive.
光伏微能源系统主要包括光伏电池、聚合物锂电池和能源管理子系统。
The micro photovoltaic system contains solar cells, Lithium polymer battery and energy management subsystem.
本文阐述了光伏微能源系统的设计,并对微系统的实验测试结果进行了分析。
This paper presents the design, performance test and analysis of the micro system.
目前常规能源和现有的微能源在体积、使用寿命、稳定性及对环境的适应能力方面远达不到微系统的需要。
Presently, conventional energy and existing micropower, in volume, life-time, stability and the adaptation for environment, can't far reach the needs of MEMS.
城市的扩展、能源的消耗和自然环境的破坏给城市区域微热环境造成了消极影响。
With the city expanding, energy consumption and environment destroying show negative effect on the thermal micro-environment of urban areas.
微藻光合作用制氢——能源危机的最终出路?
Microalgal photosynthetic hydrogen production: the ultimate answer to global energy crisis?
同时与好氧工艺相比,微好氧工艺可以减少氮素损失,节省能源。
Loss of N was less and energy consumed was saved during the micro-aerobic composting compared with the aerobic composting.
可再生能源的接入是微网的重要特点之一。
Renewable energy access is one of the important characteristics of microgrid.
海洋微生物化学:微藻活性产物化学及微藻可再生能源利用。
Marine Microbiological chemistry: Microalgal bioactive product chemistry and renewable energy from microalgae.
微藻生物质做为一种可再生能源通过液化可以转化为生物油,减少人类对化石能源的消耗与依赖。
Microalgae biomass, as a renewable energy through liquefaction, can be turned into bio-oil, reducing consumption and reliance on fossil fuels.
微藻生物质做为一种可再生能源通过液化可以转化为生物油,减少人类对化石能源的消耗与依赖。
Microalgae biomass, as a renewable energy through liquefaction, can be turned into bio-oil, reducing consumption and reliance on fossil fuels.
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