repowering

简明释义

英[ˌriːˈpaʊərɪŋ]美[ˌriːˈpaʊərɪŋ]

更新改造

英英释义

单词用法

同义词

反义词

例句

1.You are considering repowering your current boat.

你在考虑改造你船上现有的的动力装置。

2.You are considering repowering your current boat.

你在考虑改造你船上现有的的动力装置。

3.The government is investing in the repowering 更新 of old wind turbines to increase energy efficiency.

政府正在投资于旧风力涡轮机的repowering 更新以提高能源效率。

4.Many solar farms are considering repowering 更新 their systems to take advantage of newer technology.

许多太阳能农场正在考虑对其系统进行repowering 更新以利用更新的技术。

5.The repowering 更新 of hydroelectric plants can lead to significant increases in power output.

水电站的repowering 更新可以显著增加发电量。

6.Investors are looking at the repowering 更新 of aging coal plants to make them more environmentally friendly.

投资者正在考虑老旧煤电厂的repowering 更新以使其更加环保。

7.The repowering 更新 process involves replacing older components with modern, more efficient ones.

在repowering 更新过程中，旧部件被现代更高效的部件替换。

作文

In recent years, the concept of repowering has gained significant attention in the field of renewable energy. Repowering refers to the process of upgrading or replacing older power generation systems with newer, more efficient technologies. This is particularly relevant in the context of wind and solar energy, where advancements in technology can lead to increased energy output and reduced costs. The importance of repowering lies not only in its potential to enhance energy production but also in its ability to contribute to sustainability and environmental protection. One of the most compelling reasons for repowering existing energy systems is the need to meet growing energy demands. As populations increase and economies expand, the demand for reliable and clean energy sources continues to rise. By repowering outdated facilities, we can harness the latest innovations in energy technology to produce more electricity without having to build new power plants, which can be costly and time-consuming. For instance, in the wind energy sector, many older wind turbines are less efficient and have lower energy output compared to modern designs. By repowering these turbines, energy companies can significantly boost their production capacity. Studies have shown that repowering old wind farms can increase energy output by up to 50% or more, making it a financially viable option for many operators. Furthermore, repowering plays a crucial role in reducing greenhouse gas emissions. Older power plants, especially those that rely on fossil fuels, tend to be less efficient and emit more pollutants. By transitioning to cleaner technologies through repowering, we can decrease our carbon footprint and move closer to achieving global climate goals. This is essential in combating climate change and promoting a healthier planet for future generations. Another aspect of repowering is its potential economic benefits. Upgrading existing infrastructure can create jobs and stimulate local economies. The repowering process often involves extensive engineering work, construction, and maintenance, which can provide employment opportunities in various sectors. Additionally, as energy production becomes more efficient, consumers may benefit from lower energy costs, further boosting economic growth. However, repowering is not without its challenges. One significant hurdle is the initial investment required to upgrade existing systems. While the long-term benefits are clear, the upfront costs can deter some energy providers from pursuing repowering projects. Moreover, regulatory hurdles and permitting processes can complicate the repowering efforts, leading to delays and increased costs. In conclusion, repowering represents a vital strategy in the transition towards a sustainable energy future. By upgrading outdated power generation systems, we can increase efficiency, reduce emissions, and stimulate economic growth. As the world continues to grapple with the challenges of climate change and energy demands, embracing the concept of repowering will be essential in building a cleaner, more sustainable energy landscape. The potential benefits of repowering are immense, and it is imperative that we explore this avenue to secure a better future for our planet.

近年来，repowering的概念在可再生能源领域引起了广泛关注。repowering指的是升级或更换旧的发电系统，以采用更新、更高效的技术。这在风能和太阳能的背景下尤为重要，因为技术的进步可以带来更高的能源产出和降低的成本。repowering的重要性不仅体现在其增强能源生产的潜力上，还在于其对可持续性和环境保护的贡献。 进行repowering的一个 compelling 理由是满足日益增长的能源需求。随着人口的增加和经济的发展，对可靠和清洁能源来源的需求持续上升。通过对过时设施进行repowering，我们可以利用最新的能源技术创新，在不必建造新的发电厂（这可能成本高昂且耗时）的情况下，生产更多的电力。 例如，在风能行业，许多老旧的风力涡轮机效率较低，能源输出也低于现代设计。通过对这些涡轮机进行repowering，能源公司可以显著提升其生产能力。研究表明，对旧风电场进行repowering可以将能源产出提高50%以上，使其成为许多运营商的财务可行选择。 此外，repowering在减少温室气体排放方面也发挥着至关重要的作用。依赖化石燃料的老旧发电厂通常效率较低，排放更多污染物。通过通过repowering转向更清洁的技术，我们可以减少碳足迹，更接近实现全球气候目标。这对于应对气候变化、推动未来世代更健康的星球至关重要。 repowering的另一个方面是其潜在的经济利益。升级现有基础设施可以创造就业机会并刺激地方经济。repowering过程通常涉及广泛的工程工作、建设和维护，这可以在各个行业提供就业机会。此外，随着能源生产变得更加高效，消费者可能会受益于更低的能源成本，进一步促进经济增长。 然而，repowering并非没有挑战。其中一个重大障碍是升级现有系统所需的初始投资。尽管长期利益显而易见，但前期成本可能会阻止一些能源供应商追求repowering项目。此外，监管障碍和许可流程可能会使repowering工作复杂化，导致延误和成本增加。 总之，repowering代表了一种在向可持续能源未来转型中的重要策略。通过升级过时的发电系统，我们可以提高效率、减少排放并刺激经济增长。随着世界继续应对气候变化和能源需求的挑战，拥抱repowering的概念对于构建一个更清洁、更可持续的能源格局至关重要。repowering的潜在收益巨大，我们必须探索这一途径，以确保我们星球的美好未来。