installed capacity

简明释义

设备容量

英英释义

例句

1.The power plant has an installed capacity of 500 megawatts.

这座发电厂的装机容量为500兆瓦。

2.Increasing the installed capacity of renewable energy sources is crucial for sustainable development.

增加可再生能源的装机容量对于可持续发展至关重要。

3.The factory operates at full efficiency with its current installed capacity.

该工厂在其当前的装机容量下以最高效率运作。

4.The government plans to double the installed capacity of solar panels by 2030.

政府计划到2030年将太阳能电池板的装机容量翻倍。

5.The installed capacity of wind turbines in the region has increased significantly over the past decade.

该地区风力涡轮机的装机容量在过去十年中显著增加。

作文

The concept of installed capacity plays a crucial role in the energy sector, particularly when discussing renewable energy sources. Installed capacity refers to the maximum output that a power plant can produce under specific conditions. This metric is essential for understanding how much energy can be generated and how reliable that generation will be over time. For instance, a wind farm with an installed capacity of 100 megawatts (MW) indicates that under optimal wind conditions, it can produce up to 100 MW of electricity. However, actual output may vary due to fluctuations in wind speed, making the concept of capacity factor equally important. In recent years, the push for sustainable energy has led to significant investments in renewable energy infrastructure. Countries around the world are increasing their installed capacity for solar, wind, and hydropower. For example, China has become a global leader in solar power, boasting an installed capacity of over 200 gigawatts (GW). This massive installed capacity allows China to harness the sun's energy more effectively, contributing to its goal of reducing carbon emissions and combating climate change. However, installed capacity alone does not tell the whole story. It is also vital to consider the energy demand of a region. An area with high energy consumption needs to have sufficient installed capacity to meet peak demands. If the installed capacity is too low, there may be power shortages, leading to blackouts and economic disruption. On the other hand, excess installed capacity can result in wasted resources and increased costs. Therefore, energy planners must carefully balance installed capacity with projected energy needs. Furthermore, advancements in technology are continually changing the landscape of installed capacity. Innovations in battery storage and grid management are allowing for greater flexibility in how energy is generated and consumed. For example, even if a solar facility has a high installed capacity, its ability to provide power during nighttime or cloudy days can be limited. However, with improved storage solutions, such as lithium-ion batteries, excess energy generated during sunny days can be stored and used later, effectively increasing the utility of the installed capacity. In conclusion, understanding installed capacity is essential for anyone involved in energy production and consumption. It serves as a key indicator of potential energy output and plays a significant role in planning for future energy needs. As the world shifts toward more sustainable energy sources, the focus on maximizing installed capacity while ensuring reliability and efficiency will be paramount. By investing in technology and infrastructure that enhances installed capacity, we can pave the way for a cleaner, more sustainable energy future.

“装机容量”的概念在能源领域中发挥着至关重要的作用，尤其是在讨论可再生能源时。“装机容量”是指发电厂在特定条件下可以产生的最大输出。这一指标对于理解能够产生多少能源以及这种产生在时间上的可靠性至关重要。例如，一个装机容量为100兆瓦（MW）的风电场表明，在最佳风况下，它可以产生高达100 MW的电力。然而，实际输出可能因风速波动而有所不同，这使得容量因子这一概念同样重要。近年来，推动可持续能源的发展导致了对可再生能源基础设施的重大投资。世界各国正在增加其太阳能、风能和水电的“装机容量”。例如，中国已成为全球太阳能的领导者，拥有超过200千兆瓦（GW）的“装机容量”。这一庞大的“装机容量”使中国能够更有效地利用太阳能，为其减少碳排放和应对气候变化的目标做出贡献。然而，仅仅考虑“装机容量”并不能讲述整个故事。考虑到一个地区的能源需求也至关重要。一个能源消耗高的地区需要有足够的“装机容量”来满足峰值需求。如果“装机容量”过低，可能会出现电力短缺，导致停电和经济扰动。另一方面，过剩的“装机容量”可能导致资源浪费和成本增加。因此，能源规划者必须仔细平衡“装机容量”和预期能源需求。此外，技术的进步不断改变着“装机容量”的格局。电池储存和电网管理的创新使得能源的生成和消费更加灵活。例如，即使一个太阳能设施具有较高的“装机容量”，但在夜间或阴天提供电力的能力可能会受到限制。然而，借助于改进的储能解决方案，如锂离子电池，白天产生的多余能源可以储存起来，稍后使用，从而有效提高“装机容量”的效用。总之，了解“装机容量”对于任何参与能源生产和消费的人来说都是至关重要的。它作为潜在能源输出的关键指标，在未来能源需求的规划中发挥着重要作用。随着世界向更可持续的能源来源转变，最大化“装机容量”的同时确保可靠性和效率将是首要任务。通过投资于提升“装机容量”的技术和基础设施，我们可以为更清洁、更可持续的能源未来铺平道路。