electric output

简明释义

电输出电功率

英英释义

例句

1.We need to calculate the electric output 电力输出 for our new generator to meet the power demands.

我们需要计算新发电机的电力输出 电力输出以满足电力需求。

2.The solar panels can generate an impressive electric output 电力输出 of 300 watts on sunny days.

这些太阳能电池板在阳光明媚的日子里可以产生惊人的电力输出 电力输出，达到300瓦特。

3.The battery's electric output 电力输出 decreases significantly as it nears the end of its charge.

当电池接近充电结束时，其电力输出 电力输出显著下降。

4.Engineers are testing the electric output 电力输出 of the new wind turbine model to ensure efficiency.

工程师们正在测试新型风力涡轮机模型的电力输出 电力输出以确保其效率。

5.The electric output 电力输出 from the geothermal plant is enough to power thousands of homes.

地热发电厂的电力输出 电力输出足以为数千户家庭供电。

作文

The world is increasingly reliant on electricity to power our daily lives. From the moment we wake up to the sound of an alarm clock to the time we go to bed while scrolling through our smartphones, electricity plays a crucial role. One of the most important aspects of electricity generation is its electric output, which refers to the amount of electrical energy produced by a power plant or generator over a specific period. Understanding electric output is essential for both consumers and producers of electricity, as it directly affects energy availability, pricing, and sustainability efforts. To begin with, the electric output of a power plant is influenced by various factors, including the type of energy source used. For instance, renewable energy sources such as wind, solar, and hydroelectric power have different efficiencies and production rates compared to fossil fuels like coal and natural gas. A solar farm's electric output may vary significantly depending on weather conditions, while a coal-fired power plant can produce a more consistent output but at a higher environmental cost. This variability in electric output necessitates careful planning and management within the energy sector. Moreover, the demand for electricity fluctuates throughout the day and across seasons. During peak hours, when everyone is using their appliances, the grid requires a higher electric output. Conversely, during nighttime or off-peak periods, the demand decreases. Energy providers must balance this supply and demand to ensure that there is enough electricity available without overproducing, which can lead to waste and increased costs. This balancing act is critical for maintaining a stable and reliable energy grid. Additionally, advancements in technology are continuously shaping the future of electric output. Innovations in energy storage, such as batteries, allow excess energy generated during low-demand periods to be stored and used later. This capability enhances the efficiency of renewable energy sources, enabling them to contribute more effectively to the overall electric output. Furthermore, smart grid technologies are being developed to optimize the distribution of electricity, ensuring that it reaches consumers where and when it is needed most. In conclusion, understanding electric output is vital for navigating the complexities of modern energy systems. It encompasses not only the quantity of electricity produced but also the methods of generation, demand fluctuations, and technological advancements that influence how we harness and use energy. As we move towards a more sustainable future, the ability to manage and improve electric output will be crucial in meeting the growing energy needs of our society while minimizing environmental impacts. By prioritizing efficient energy production and consumption, we can work towards a greener and more sustainable planet for generations to come.

世界越来越依赖电力来驱动我们的日常生活。从我们醒来时闹钟的声音开始，到我们在床上刷手机的时间，电力扮演着至关重要的角色。电力生成中最重要的一个方面就是它的电力输出，这指的是发电厂或发电机在特定时间内产生的电能量。理解电力输出对电力的消费者和生产者都至关重要，因为它直接影响能源的可用性、价格和可持续发展努力。首先，发电厂的电力输出受到多种因素的影响，包括所使用的能源类型。例如，风能、太阳能和水电等可再生能源的效率和生产率与煤炭和天然气等化石燃料有所不同。太阳能发电场的电力输出可能会因天气条件而显著变化，而燃煤发电厂则可以产生更稳定的输出，但环境成本更高。这种电力输出的变化性要求能源部门进行仔细的规划和管理。此外，电力的需求在一天中的不同时间和四季之间波动。在高峰时段，当每个人都在使用电器时，电网需要更高的电力输出。相反，在夜间或非高峰期，需求会减少。能源供应商必须平衡这种供需关系，以确保有足够的电力可用，而不会过度生产，这可能导致浪费和成本增加。这种平衡对于维持稳定可靠的能源网至关重要。此外，技术的进步不断塑造电力输出的未来。能源存储技术的创新，例如电池，使得在低需求期间产生的多余电能能够被储存并在之后使用。这种能力提高了可再生能源的效率，使其能够更有效地贡献于整体的电力输出。此外，智能电网技术正在开发中，以优化电力的分配，确保电力在需要时到达消费者。总之，理解电力输出对于驾驭现代能源系统的复杂性至关重要。它不仅包含产生的电力数量，还包括影响我们如何利用和使用能源的发电方法、需求波动和技术进步。随着我们朝着更可持续的未来迈进，管理和改善电力输出的能力对于满足我们社会日益增长的能源需求，同时最小化环境影响，将至关重要。通过优先考虑高效的能源生产和消费，我们可以为子孙后代创造一个更绿色、更可持续的星球。