electric capacity

简明释义

电容

英英释义

例句

1.The solar panel system has an electric capacity 电力容量 of 5 kilowatts.

这个太阳能电池板系统的电力容量 electric capacity为5千瓦。

2.Energy providers must monitor their electric capacity 电力容量 to avoid blackouts.

能源供应商必须监控他们的电力容量 electric capacity以避免停电。

3.The electric capacity 电力容量 of the battery is crucial for its performance in electric vehicles.

电池的电力容量 electric capacity对其在电动车中的表现至关重要。

4.To ensure sustainability, we need to increase our electric capacity 电力容量 by installing more wind turbines.

为了确保可持续性，我们需要通过安装更多的风力涡轮机来增加我们的电力容量 electric capacity。

5.The new power plant will double the city's electric capacity 电力容量 by next year.

新的发电厂将在明年将城市的电力容量 electric capacity翻倍。

作文

In today's world, the demand for energy is constantly increasing, and understanding various aspects of energy production and consumption is crucial. One important concept in this field is electric capacity, which refers to the maximum amount of electric power that a system can deliver at any given time. This term is commonly used in discussions about power plants, electrical grids, and renewable energy sources. The significance of electric capacity lies not only in its implications for energy supply but also in its impact on sustainability and economic growth.To better understand electric capacity, it is essential to recognize the different types of capacity that exist in the energy sector. For instance, there is installed capacity, which denotes the total power output that a power plant can produce under ideal conditions. This figure is often expressed in megawatts (MW) or gigawatts (GW). However, installed capacity does not always equate to actual production, as factors such as maintenance, fuel availability, and weather conditions can affect performance. Therefore, another critical aspect to consider is the effective capacity, which takes these variables into account and provides a more realistic picture of what a plant can deliver over time.The concept of electric capacity becomes even more relevant when we discuss the transition to renewable energy sources. As countries strive to reduce their carbon footprints, they are increasingly investing in solar, wind, and hydroelectric power. These renewable sources have variable outputs depending on environmental conditions, making it essential to assess their electric capacity accurately. For example, solar panels generate electricity only when sunlight is available, while wind turbines rely on wind strength. Consequently, understanding the electric capacity of these systems helps utilities manage energy supply effectively and ensure grid stability.Moreover, the electric capacity of a region can significantly influence its economic development. Areas with robust energy infrastructure and high electric capacity can attract businesses and industries that require substantial power for operations. Conversely, regions with limited capacity may struggle to support growth, leading to economic stagnation. This relationship highlights the importance of strategic planning in energy generation and distribution.In conclusion, electric capacity is a fundamental concept in the energy sector that encompasses various dimensions of power production and consumption. As the world moves towards a more sustainable energy future, understanding and optimizing electric capacity will be crucial for ensuring reliable energy supply, supporting economic development, and achieving environmental goals. Policymakers, engineers, and energy planners must work together to enhance the electric capacity of existing systems while investing in innovative technologies that can meet the growing energy demands of the future. By doing so, we can create a more resilient and sustainable energy landscape for generations to come.

在当今世界，能源需求不断增加，理解能源生产和消费的各个方面至关重要。在这个领域中，一个重要的概念是电力容量，它指的是一个系统在任何给定时间内能够提供的最大电力。这一术语通常用于讨论发电厂、电网和可再生能源。电力容量的重要性不仅体现在其对能源供应的影响上，还涉及其对可持续发展和经济增长的影响。要更好地理解电力容量，必须认识到能源部门存在不同类型的容量。例如，已安装容量表示发电厂在理想条件下可以产生的总功率输出。这个数字通常以兆瓦（MW）或千兆瓦（GW）为单位。然而，已安装容量并不总是等同于实际生产，因为维护、燃料可用性和天气条件等因素会影响性能。因此，另一个需要考虑的关键方面是有效容量，它考虑了这些变量，并提供了更现实的工厂在一段时间内能够提供的情况。当我们讨论向可再生能源转型时，电力容量的概念变得更加相关。随着各国努力减少碳足迹，他们越来越多地投资于太阳能、风能和水电。这些可再生资源的输出取决于环境条件，因此准确评估其电力容量至关重要。例如，太阳能电池板只有在阳光充足时才能发电，而风力涡轮机则依赖于风速。因此，了解这些系统的电力容量有助于公用事业有效管理能源供应，确保电网稳定。此外，一个地区的电力容量可以显著影响其经济发展。拥有强大能源基础设施和高电力容量的地区可以吸引需要大量电力进行运营的企业和工业。相反，容量有限的地区可能难以支持增长，导致经济停滞。这一关系突显了在能源生产和分配中的战略规划的重要性。总之，电力容量是能源部门的一个基本概念，涵盖了电力生产和消费的各个维度。随着世界向更可持续的能源未来迈进，理解和优化电力容量对于确保可靠的能源供应、支持经济发展和实现环境目标至关重要。政策制定者、工程师和能源规划者必须共同努力，提高现有系统的电力容量，同时投资于能够满足未来日益增长的能源需求的创新技术。通过这样做，我们可以为后代创造一个更具韧性和可持续的能源格局。