micropower

简明释义

[ˈmaɪkroʊˌpaʊər][ˈmaɪkroʊˌpaʊər]

n. [电子] 微功率

英英释义

Micropower refers to small-scale power generation systems that produce electricity from renewable sources or other technologies, typically with a capacity of less than 100 kilowatts.

微电力是指从可再生能源或其他技术中产生电力的小规模发电系统,通常容量小于100千瓦。

单词用法

同义词

microgeneration

微发电

Microgeneration technologies can provide energy directly to homes.

微发电技术可以直接为家庭提供能源。

distributed generation

分布式发电

Distributed generation is becoming increasingly popular in urban areas.

分布式发电在城市地区越来越受欢迎。

small-scale power

小规模发电

Small-scale power solutions are essential for remote communities.

小规模发电解决方案对偏远社区至关重要。

renewable energy systems

可再生能源系统

Renewable energy systems contribute to reducing carbon footprints.

可再生能源系统有助于减少碳足迹。

反义词

macropower

大功率

The power plant operates at a macropower level to supply the entire city.

这座发电厂在大功率水平上运作,以供给整个城市。

megawatt

兆瓦

The new wind farm generates energy in megawatts, contributing significantly to the grid.

新的风电场以兆瓦为单位发电,对电网贡献显著。

例句

1.Micropower, quad, single supply, precision Op. Amp.

微功耗,四路,单电源,精密运算。放大器。

2.Cluster analysis showed that different kinds of the herbal Isatidis Radix micropower from different areas were different levels in the main ingredients.

聚类分析表明,不同产地板蓝根药材其主要成分含量存在差异。

3.Mary: And then she made the deal with MicroPower. Vince wanted to sell for fifteen million…

玛莉:然后她跟“微力”谈妥了条件。文斯本想用一千五百万卖掉的……

4.The designers of these circuits based them on the same concept: a fully integrated, single-die-IC switching regulator and a micropower operational amplifier.

些电路的设计者们在设计时都有同样的观念:完整的单一模式集成电路继电器和微功率运放。

5.Objective: To establish the double HPLC fingerprints of water-soluble composition and amino acids precolumn derivative reagent of 13 batches of Isatidis Radix micropower.

目的:建立13批板蓝根超微粉体水溶性成分和氨基酸柱前衍生化双重HPLC指纹图谱。

6.The microPower succeeds in integrating all the sophisticated innovations into the smallest dimensions ever, creating the world's most discreet power device in the industry.

依靠全新的CRT耳道式受话技术,小霸王把精密的数字仿生技术运用到了世界上最小的大功率助听器。

7.However, design methods must be developed to mitigate the effects of low gain and high noise associated with micropower operation.

然而,为此必须开发新的设计方法,来减轻与微操作相联系的低增益和高噪声的影响。

8.Adjustable Precision Micropower Shunt Voltage Reference, 0.5% accuracy.

可调节精密微功耗并联电压参考,0.5%精确度。

9.Adjustable Precision Micropower Shunt Voltage Reference, 0.2% accuracy.

可调节精密微功耗并联电压参考,0.2%精确度。

10.Solar panels are a common form of micropower 微电力 generation in rural households.

太阳能电池板是农村家庭常见的微电力发电形式。

11.The rise of micropower 微电力 has made it easier for small communities to become energy independent.

随着微电力的兴起,小社区更容易实现能源独立。

12.The new village project will utilize micropower 微电力 systems to provide electricity sustainably.

这个新村庄项目将利用微电力系统可持续地提供电力。

13.Investing in micropower 微电力 solutions can significantly reduce energy costs for businesses.

投资于微电力解决方案可以显著降低企业的能源成本。

14.Many remote areas are now being powered by micropower 微电力 technologies that harness local resources.

许多偏远地区现在正通过利用当地资源的微电力技术供电。

作文

In recent years, the concept of micropower (微电力) has gained significant attention as a sustainable energy solution. As the world grapples with the challenges of climate change and dwindling fossil fuel resources, innovative energy generation methods are becoming increasingly important. Micropower refers to small-scale power generation systems that produce electricity from renewable sources such as solar, wind, and hydroelectric power. These systems can be deployed at the local level, providing energy directly to communities and reducing the need for extensive transmission infrastructure.One of the primary advantages of micropower (微电力) is its ability to enhance energy access in remote and underserved areas. Many regions around the world still lack reliable electricity, which hampers economic development and quality of life. By utilizing micropower systems, these communities can harness local resources to generate their own electricity. For instance, small solar panels can be installed on rooftops, allowing households to produce clean energy during the day. Similarly, small wind turbines can be used to capture wind energy in areas with favorable conditions.Moreover, micropower (微电力) technologies are often more environmentally friendly than traditional energy sources. They contribute to a reduction in greenhouse gas emissions, helping to combat climate change. Since micropower systems typically use renewable resources, they have a much smaller carbon footprint compared to fossil fuel-based power generation. This aligns with global efforts to transition towards a low-carbon economy and achieve sustainability goals.In addition to environmental benefits, micropower (微电力) can also provide economic advantages. The deployment of small-scale energy systems can create jobs in installation, maintenance, and operation. Local entrepreneurs can seize opportunities in the renewable energy sector, fostering economic growth and resilience within communities. Furthermore, by generating their own electricity, households and businesses can reduce their energy costs, leading to increased disposable income and investment in other areas.Despite the numerous benefits, there are challenges associated with the widespread adoption of micropower (微电力). One significant barrier is the initial capital investment required for purchasing and installing the technology. Although prices for solar panels and wind turbines have decreased in recent years, many low-income households may still find it difficult to afford these systems without financial assistance or incentives. Governments and organizations can play a crucial role in facilitating access to micropower solutions through subsidies, grants, and affordable financing options.Additionally, the integration of micropower (微电力) into existing energy grids poses technical challenges. Effective management of decentralized energy production requires advanced grid systems and smart technologies to ensure stability and reliability. Policymakers must work collaboratively with utility companies, technology providers, and communities to develop strategies that support the seamless integration of micropower systems into the broader energy landscape.In conclusion, micropower (微电力) presents a promising solution to the energy challenges faced by many communities worldwide. By leveraging local renewable resources, micropower can improve energy access, promote environmental sustainability, and stimulate economic development. While there are obstacles to overcome, the potential benefits make it a worthwhile endeavor. As we move towards a more sustainable future, embracing micropower technologies will be essential in creating resilient and self-sufficient communities.

近年来,微电力的概念引起了广泛关注,成为可持续能源解决方案。随着世界面临气候变化和化石燃料资源日益枯竭的挑战,创新的能源生成方法变得愈发重要。微电力是指小规模的发电系统,这些系统利用太阳能、风能和水电等可再生能源产生电力。这些系统可以在地方层面部署,直接为社区提供能源,减少对广泛传输基础设施的需求。微电力的主要优点之一是能够改善偏远和服务不足地区的能源获取。世界上许多地区仍然缺乏可靠的电力,这妨碍了经济发展和生活质量。通过利用微电力系统,这些社区可以利用当地资源自行发电。例如,可以在屋顶上安装小型太阳能电池板,使家庭在白天产生清洁能源。同样,在风能条件良好的地区,可以使用小型风力涡轮机捕获风能。此外,微电力技术通常比传统能源来源更环保。它们有助于减少温室气体排放,帮助应对气候变化。由于微电力系统通常使用可再生资源,其碳足迹远小于基于化石燃料的发电。这与全球向低碳经济转型和实现可持续发展目标的努力相一致。除了环境效益外,微电力还可以提供经济优势。小规模能源系统的部署可以创造安装、维护和运营方面的就业机会。当地企业家可以在可再生能源领域抓住机会,促进社区内的经济增长和韧性。此外,通过自行发电,家庭和企业可以降低能源成本,从而增加可支配收入并投资于其他领域。尽管有众多好处,但在广泛采用微电力时仍面临挑战。一个重要障碍是购买和安装技术所需的初始资本投资。尽管近年来太阳能电池板和风力涡轮机的价格有所下降,但许多低收入家庭在没有财政援助或激励措施的情况下,可能仍然难以承担这些系统的费用。政府和组织可以通过补贴、赠款和可负担的融资选择,在促进微电力解决方案的获取方面发挥关键作用。此外,将微电力融入现有能源网络也带来了技术挑战。有效管理分散的能源生产需要先进的电网系统和智能技术,以确保稳定性和可靠性。政策制定者必须与公用事业公司、技术提供商和社区合作,制定支持将微电力系统无缝整合到更广泛的能源格局中的战略。总之,微电力为全世界许多社区面临的能源挑战提供了有前景的解决方案。通过利用当地可再生资源,微电力可以改善能源获取,促进环境可持续性,并刺激经济发展。尽管存在障碍,但潜在的好处使其成为值得追求的事业。随着我们朝着更可持续的未来迈进,拥抱微电力技术对于创建具有韧性和自给自足的社区至关重要。