automatic generating plant
简明释义
自动发电装置
英英释义
A facility that automatically produces energy or electricity using various sources such as solar, wind, or hydro power without the need for manual intervention. | 一个自动生产能源或电力的设施,利用太阳能、风能或水能等各种来源,无需人工干预。 |
例句
1.The new automatic generating plant 自动发电厂 will significantly reduce our energy costs.
新的自动发电厂 automatic generating plant将显著降低我们的能源成本。
2.Engineers are currently working on the upgrades for the automatic generating plant 自动发电厂 to improve efficiency.
工程师们正在对自动发电厂 automatic generating plant进行升级,以提高效率。
3.The automatic generating plant 自动发电厂 uses advanced technology to maximize output and minimize waste.
该自动发电厂 automatic generating plant使用先进技术来最大化产出并最小化浪费。
4.Our city is investing in a new automatic generating plant 自动发电厂 to support renewable energy initiatives.
我们城市正在投资建设一个新的自动发电厂 automatic generating plant以支持可再生能源倡议。
5.The automatic generating plant 自动发电厂 can operate without human intervention, making it ideal for remote locations.
该自动发电厂 automatic generating plant可以在没有人工干预的情况下运作,非常适合偏远地区。
作文
In today's rapidly evolving technological landscape, the concept of energy generation has undergone a significant transformation. One of the most innovative advancements in this field is the development of the automatic generating plant, which represents a paradigm shift in how we produce and manage energy. An automatic generating plant (自动发电厂) is a facility designed to generate electricity with minimal human intervention, utilizing advanced automation technologies to optimize efficiency and reliability.The primary advantage of an automatic generating plant is its ability to operate continuously without the need for constant human oversight. This is achieved through sophisticated control systems that monitor and adjust the plant's operations in real-time. For instance, sensors can detect fluctuations in energy demand and automatically adjust the output levels accordingly. This not only ensures a stable supply of electricity but also helps in reducing waste and improving overall energy efficiency.Moreover, the integration of renewable energy sources into automatic generating plants has become increasingly common. Wind, solar, and hydropower are examples of sustainable energy sources that can be harnessed by these automated systems. By incorporating these green technologies, automatic generating plants contribute to a more sustainable energy future while decreasing our reliance on fossil fuels.Another significant benefit of automatic generating plants is their ability to enhance grid stability. In many regions, the electrical grid faces challenges due to the intermittent nature of renewable energy sources. However, with the help of automated systems, energy generation can be balanced more effectively. For example, when solar energy production is high during the day, excess electricity can be stored or redirected to meet demand during peak hours. This flexibility is crucial for maintaining a reliable energy supply.The economic implications of automatic generating plants are also noteworthy. By reducing the need for manual labor and increasing operational efficiency, these plants can lower production costs significantly. This cost-effectiveness can lead to lower electricity prices for consumers, making energy more accessible to everyone. Additionally, the reduced environmental impact associated with automated energy generation aligns with global efforts to combat climate change, further enhancing the appeal of automatic generating plants.However, the transition to fully automated energy generation is not without its challenges. One of the primary concerns is the potential loss of jobs in the traditional energy sector as automation takes over manual tasks. It is crucial for policymakers to address this issue by investing in workforce retraining and creating new job opportunities in the renewable energy sector.In conclusion, the advent of the automatic generating plant (自动发电厂) marks a significant step forward in the evolution of energy production. With their ability to operate autonomously, integrate renewable resources, and enhance grid stability, these plants represent a promising solution to the pressing energy challenges we face today. As we continue to innovate and adapt to new technologies, the role of automatic generating plants in our energy landscape will undoubtedly grow, paving the way for a more sustainable and efficient future.
在当今快速发展的技术环境中,能源生产的概念经历了重大转变。在这个领域中,最具创新性的进展之一是自动发电厂(automatic generating plant)的开发,它代表了我们生产和管理能源方式的范式转变。自动发电厂(automatic generating plant)是一种旨在以最少人为干预生成电力的设施,利用先进的自动化技术来优化效率和可靠性。自动发电厂(automatic generating plant)的主要优点是它能够在没有持续人工监督的情况下持续运行。这是通过复杂的控制系统实现的,这些系统实时监测和调整工厂的操作。例如,传感器可以检测到能源需求的波动,并自动相应地调整输出水平。这不仅确保了电力的稳定供应,还帮助减少浪费,提高整体能源效率。此外,将可再生能源源整合到自动发电厂(automatic generating plant)中已变得越来越普遍。风能、太阳能和水能是这些自动化系统可以利用的可持续能源来源的例子。通过结合这些绿色技术,自动发电厂(automatic generating plant)为更可持续的能源未来做出了贡献,同时减少了我们对化石燃料的依赖。自动发电厂(automatic generating plant)的另一个显著好处是增强电网的稳定性。在许多地区,由于可再生能源源的间歇性特征,电网面临挑战。然而,借助自动化系统,能源生成可以更有效地平衡。例如,当白天太阳能生产高时,多余的电力可以被储存或重新引导以满足高峰时段的需求。这种灵活性对于维持可靠的能源供应至关重要。自动发电厂(automatic generating plant)的经济影响也值得注意。通过减少对人工劳动的需求并提高运营效率,这些工厂可以显著降低生产成本。这种成本效益可以导致消费者电价的降低,使能源对每个人都更加可及。此外,与自动化能源生成相关的环境影响减少与全球应对气候变化的努力相一致,进一步增强了自动发电厂(automatic generating plant)的吸引力。然而,向完全自动化的能源生产过渡并非没有挑战。其中一个主要担忧是,随着自动化接管手动任务,传统能源部门可能会失去工作岗位。政策制定者必须通过投资于劳动力再培训和创造可再生能源部门的新就业机会来解决这个问题。总之,自动发电厂(automatic generating plant)的出现标志着能源生产演变的重要一步。凭借其自主运行、整合可再生资源和增强电网稳定性的能力,这些工厂代表了我们今天面临的紧迫能源挑战的有前景的解决方案。随着我们继续创新和适应新技术,自动发电厂(automatic generating plant)在我们的能源格局中的角色无疑将不断增长,为更可持续和高效的未来铺平道路。
相关单词
