equivalent capacity
简明释义
等效电容
英英释义
例句
1.In our analysis, we found that the equivalent capacity 等效容量 of both systems was nearly identical under similar conditions.
在我们的分析中,我们发现两个系统的等效容量 等效容量在类似条件下几乎相同。
2.For this project, we need a generator with an equivalent capacity 等效容量 of at least 10 kW to meet the energy demands.
对于这个项目,我们需要一个至少有10 kW的等效容量 等效容量的发电机,以满足能源需求。
3.The equivalent capacity 等效容量 of the water reservoir is crucial for ensuring a stable water supply during dry seasons.
水库的等效容量 等效容量对确保干旱季节稳定供水至关重要。
4.The new battery design offers an equivalent capacity 等效容量 of 5000 mAh, making it suitable for longer usage times.
新的电池设计提供了5000 mAh的等效容量 等效容量,使其适合更长的使用时间。
5.The team evaluated the equivalent capacity 等效容量 of the new solar panels to determine their efficiency.
团队评估了新太阳能电池板的等效容量 等效容量以确定其效率。
作文
In the realm of engineering and technology, the term equivalent capacity is frequently used to describe the ability of a system or component to perform a specific function compared to another system or component. Understanding equivalent capacity is crucial for engineers and designers as it allows them to assess the effectiveness and efficiency of various designs and make informed decisions during the development process.For instance, consider two different types of batteries: a lithium-ion battery and a nickel-cadmium battery. While both can power the same device, their equivalent capacity may differ significantly due to their chemical composition and design. The lithium-ion battery typically has a higher equivalent capacity, meaning it can store more energy and provide longer usage times. This difference in equivalent capacity is essential for consumers who rely on battery life for their devices, such as smartphones and laptops.Moreover, equivalent capacity can also be applied in the context of renewable energy systems. For example, when comparing solar panels, one panel may have a rated capacity of 300 watts, while another might be rated at 250 watts. However, due to factors like efficiency and environmental conditions, the actual output may vary. By calculating the equivalent capacity of these panels based on their real-world performance, engineers can determine which system provides better energy output over time, thus optimizing energy production and reducing costs.In the field of telecommunications, equivalent capacity plays a vital role in network design and optimization. When evaluating different communication technologies, such as fiber optics versus copper cables, engineers must analyze the equivalent capacity of each medium to transmit data. Fiber optics generally offer a much higher equivalent capacity due to their ability to carry vast amounts of information over long distances without significant loss of quality. This understanding helps service providers choose the right infrastructure to meet their customers' needs effectively.Additionally, equivalent capacity is not limited to physical systems; it can also extend to human resources in organizational settings. For example, when assessing team performance, managers might look at the equivalent capacity of different teams to complete projects. A team with members who possess diverse skill sets and experiences may have a higher equivalent capacity to innovate and solve complex problems compared to a more homogenous team. This insight can guide hiring practices and team formations to maximize productivity and creativity.In conclusion, the concept of equivalent capacity is multifaceted and applies across various fields, from engineering and technology to organizational management. By comprehensively understanding equivalent capacity, professionals can make better decisions, optimize systems, and enhance performance, ultimately leading to improved outcomes in their respective industries. Whether it involves comparing energy sources, communication methods, or team dynamics, recognizing the equivalent capacity of different elements enables a more strategic approach to problem-solving and innovation.
在工程和技术领域,术语equivalent capacity常用于描述系统或组件执行特定功能的能力,与另一个系统或组件进行比较。理解equivalent capacity对于工程师和设计师至关重要,因为它使他们能够评估各种设计的有效性和效率,并在开发过程中做出明智的决策。例如,考虑两种不同类型的电池:锂离子电池和镍镉电池。虽然这两种电池都可以为同一设备供电,但由于其化学成分和设计,它们的equivalent capacity可能会有显著差异。锂离子电池通常具有更高的equivalent capacity,这意味着它可以存储更多的能量并提供更长的使用时间。这种equivalent capacity的差异对依赖电池寿命的消费者(如智能手机和笔记本电脑用户)至关重要。此外,equivalent capacity也可以应用于可再生能源系统的背景中。例如,在比较太阳能电池板时,一块电池板的额定容量可能为300瓦,而另一块可能为250瓦。然而,由于效率和环境条件等因素,实际输出可能会有所不同。通过根据实际表现计算这些电池板的equivalent capacity,工程师可以确定哪个系统在较长时间内提供更好的能源输出,从而优化能源生产并降低成本。在电信领域,equivalent capacity在网络设计和优化中发挥着至关重要的作用。在评估不同通信技术(如光纤与铜缆)时,工程师必须分析每种媒介传输数据的equivalent capacity。光纤通常提供更高的equivalent capacity,因为它们能够在长距离内携带大量信息而不会显著损失质量。这种理解帮助服务提供商选择合适的基础设施,以有效满足客户的需求。此外,equivalent capacity不仅限于物理系统;它还可以扩展到组织设置中的人力资源。例如,在评估团队绩效时,经理可能会查看不同团队完成项目的equivalent capacity。拥有多样化技能和经验的团队可能具有更高的equivalent capacity,以创新和解决复杂问题,相较于更同质的团队。这一见解可以指导招聘实践和团队组建,以最大化生产力和创造力。总之,equivalent capacity的概念是多方面的,适用于各个领域,从工程和技术到组织管理。通过全面理解equivalent capacity,专业人士可以做出更好的决策,优化系统,提高性能,最终在各自行业中取得更好的成果。无论是比较能源来源、通信方法还是团队动态,认识到不同元素的equivalent capacity使得解决问题和创新的策略更加有效。
