installation capacity
简明释义
安装能力
英英释义
Installation capacity refers to the maximum amount of equipment or systems that can be installed or set up in a particular location or for a specific purpose. | 安装能力是指在特定地点或特定目的下,可以安装或设置的设备或系统的最大数量。 |
例句
1.The factory's installation capacity has increased due to new machinery.
由于新机器的引入,工厂的安装容量有所增加。
2.Our new wind turbines have a total installation capacity of 50 megawatts.
我们的新风力涡轮机总安装容量为50兆瓦。
3.To meet the growing demand, we need to expand our installation capacity by 20%.
为了满足不断增长的需求,我们需要将安装容量扩大20%。
4.The installation capacity of our hydroelectric plant is currently at its maximum.
我们水电站的安装容量目前达到了最大值。
5.The solar farm has an installation capacity of 100 megawatts, which is enough to power 30,000 homes.
这个太阳能农场的安装容量为100兆瓦,足以为30,000个家庭供电。
作文
In recent years, the concept of renewable energy has gained significant attention due to the growing concerns about climate change and the depletion of fossil fuels. One of the key factors that determine the effectiveness of renewable energy systems is their installation capacity. This term refers to the maximum amount of energy that can be generated by a renewable energy system, such as solar panels or wind turbines, under optimal conditions. Understanding installation capacity is essential for both policymakers and investors in the energy sector, as it directly impacts the feasibility and efficiency of renewable energy projects.The installation capacity of a renewable energy system is typically measured in megawatts (MW) or gigawatts (GW). For instance, if a solar farm has an installation capacity of 100 MW, it means that under perfect sunlight conditions, it can produce enough energy to power approximately 30,000 homes. However, it is important to note that the actual energy output may vary depending on factors such as weather conditions, time of day, and the technology used.To maximize the benefits of renewable energy, it is crucial to optimize the installation capacity of these systems. This can be achieved through various strategies, including improving technology efficiency, enhancing grid infrastructure, and implementing effective energy storage solutions. For example, advancements in solar panel technology have led to increased installation capacity, allowing for more energy to be harvested from the same physical area. Similarly, the development of battery storage systems enables excess energy generated during peak production times to be stored and used when demand is high, thus improving the overall efficiency of the energy system.Moreover, understanding the installation capacity is vital for regional energy planning. Different regions have varying potentials for renewable energy generation based on geographical and climatic factors. For example, coastal areas often have higher wind energy installation capacity due to consistent wind patterns, while sunny regions are more suitable for solar energy projects. Policymakers need to take these factors into account when designing energy policies and incentives to promote renewable energy adoption.Investors also rely heavily on installation capacity metrics when evaluating potential projects. A higher installation capacity usually indicates a more viable investment opportunity, as it suggests a greater potential return on investment. Therefore, accurate assessments of installation capacity are essential for attracting funding and ensuring the success of renewable energy initiatives.In conclusion, the term installation capacity plays a critical role in the renewable energy landscape. It not only defines the potential energy output of renewable systems but also influences policy decisions, investment strategies, and technological advancements. As the world continues to shift towards sustainable energy solutions, a deeper understanding of installation capacity will be essential for maximizing the benefits of renewable resources and achieving global energy goals.
近年来,由于气候变化和化石燃料枯竭的日益关注,可再生能源的概念受到了极大的关注。决定可再生能源系统有效性的关键因素之一是它们的安装容量。这个术语指的是在最佳条件下,可再生能源系统(如太阳能电池板或风力涡轮机)能够生成的最大能量。理解安装容量对于能源部门的政策制定者和投资者至关重要,因为它直接影响可再生能源项目的可行性和效率。可再生能源系统的安装容量通常以兆瓦(MW)或千兆瓦(GW)为单位进行测量。例如,如果一个太阳能电站的安装容量为100 MW,这意味着在完美的阳光条件下,它可以产生足够的能量来为大约30,000个家庭供电。然而,需要注意的是,实际的能量输出可能会因天气条件、时间和使用的技术而有所不同。为了最大限度地发挥可再生能源的好处,优化这些系统的安装容量至关重要。这可以通过多种策略实现,包括提高技术效率、增强电网基础设施以及实施有效的能量存储解决方案。例如,太阳能电池板技术的进步导致了安装容量的增加,使得在相同的物理区域内能够收集更多的能量。同样,电池存储系统的发展使得在高峰生产时期产生的多余能量能够被储存,并在需求高峰时使用,从而提高整体能源系统的效率。此外,理解安装容量对区域能源规划至关重要。不同地区根据地理和气候因素具有不同的可再生能源发电潜力。例如,沿海地区由于持续的风力模式,往往具有更高的风能安装容量,而阳光充足的地区则更适合太阳能项目。政策制定者需要考虑这些因素,在设计促进可再生能源采用的能源政策和激励措施时加以考虑。投资者在评估潜在项目时也高度依赖于安装容量指标。更高的安装容量通常表明更可行的投资机会,因为它暗示着更大的投资回报潜力。因此,对安装容量的准确评估对于吸引资金和确保可再生能源倡议的成功至关重要。总之,安装容量这一术语在可再生能源领域中发挥着关键作用。它不仅定义了可再生系统的潜在能量输出,还影响政策决策、投资策略和技术进步。随着世界继续向可持续能源解决方案转变,更深入地理解安装容量将对于最大限度地发挥可再生资源的好处和实现全球能源目标至关重要。
