variable load

简明释义

可变负荷

英英释义

例句

1.Electric vehicles must be able to manage variable load 可变负载 when charging.

电动车在充电时必须能够管理可变负载。

2.In data centers, servers often experience variable load 可变负载 based on user demand.

在数据中心，服务器通常根据用户需求经历可变负载。

3.Power plants often have to deal with variable load 可变负载 due to fluctuating energy demands.

由于能源需求波动，发电厂经常必须处理可变负载。

4.The generator is designed to handle a variable load 可变负载 during peak hours.

该发电机设计用于在高峰时段处理可变负载。

5.The HVAC system adjusts its output to accommodate variable load 可变负载 throughout the day.

HVAC系统调整其输出以适应全天的可变负载。

作文

In modern engineering and technology, the concept of variable load plays a crucial role in designing and analyzing systems. A variable load refers to a load that changes over time, which can be due to various factors such as user demand, environmental conditions, or operational requirements. Understanding how to manage and predict these fluctuations is essential for ensuring the efficiency and reliability of systems, especially in sectors like power generation, transportation, and manufacturing.For instance, in the field of electrical engineering, power plants often experience a variable load throughout the day. During peak hours, the demand for electricity increases significantly, resulting in a higher variable load. Conversely, during off-peak hours, the demand decreases, leading to a lower variable load. Engineers must design power generation systems that can adapt to these changes to avoid blackouts and ensure a stable supply of electricity.Similarly, in transportation, vehicles encounter variable loads based on passenger count, cargo weight, and road conditions. For example, a bus carrying fewer passengers will have a different variable load compared to when it is fully loaded. This fluctuation affects fuel efficiency, braking distance, and overall performance. Therefore, automotive engineers must consider variable loads when designing vehicles to optimize safety and efficiency.In manufacturing, production lines often deal with variable loads depending on the order sizes and types of products being produced. A factory may receive large orders for certain items, resulting in a high variable load on its machinery and workforce. To meet these demands, manufacturers need to implement flexible production techniques and workforce management strategies to handle the variable load effectively. This adaptability can lead to increased productivity and reduced downtime.Furthermore, the impact of variable loads extends beyond engineering into economic and environmental considerations. For instance, businesses must account for variable loads in their financial models to predict revenue and costs accurately. A sudden increase in demand can lead to higher operational costs if the company is not prepared to scale up production or services quickly. Additionally, managing variable loads can contribute to sustainability efforts. By optimizing energy use during periods of low demand, companies can reduce their carbon footprint and promote more sustainable practices.In conclusion, the concept of variable load is integral to various fields, influencing design, efficiency, and sustainability. Professionals across disciplines must understand and anticipate variable loads to create resilient systems capable of adapting to changing conditions. By doing so, they can enhance performance, reduce risks, and contribute positively to both the economy and the environment. As technology continues to advance, the ability to manage variable loads will become even more critical, ensuring that systems remain efficient and effective in meeting the needs of society.

在现代工程和技术中，可变负载的概念在系统设计和分析中发挥着至关重要的作用。可变负载是指随时间变化的负载，这可能是由于用户需求、环境条件或操作要求等各种因素造成的。理解如何管理和预测这些波动对于确保系统的效率和可靠性至关重要，尤其是在电力生产、交通运输和制造等行业。例如，在电气工程领域，发电厂在一天中的不同时间通常会经历可变负载。在高峰时段，电力需求显著增加，导致可变负载上升。相反，在非高峰时段，需求减少，导致可变负载降低。工程师必须设计能够适应这些变化的发电系统，以避免停电并确保电力供应的稳定。类似地，在交通运输中，车辆根据乘客数量、货物重量和道路条件面临可变负载。例如，一辆载客较少的公交车与满载时的可变负载会有所不同。这种波动会影响燃油效率、制动距离和整体性能。因此，汽车工程师在设计车辆时必须考虑可变负载以优化安全性和效率。在制造业中，生产线往往根据订单规模和产品类型处理可变负载。一家工厂可能会因某些产品的大宗订单而面临高可变负载，这对其机器和劳动力产生影响。为了满足这些需求，制造商需要实施灵活的生产技术和劳动力管理策略，以有效应对可变负载。这种适应能力可以提高生产力并减少停机时间。此外，可变负载的影响不仅限于工程领域，还涉及经济和环境方面的考虑。例如，企业必须在财务模型中考虑可变负载，以准确预测收入和成本。需求的突然增加可能导致运营成本上升，如果公司没有准备好迅速扩大生产或服务。管理可变负载还可以促进可持续发展。通过在低需求期间优化能源使用，公司可以减少碳足迹，推动更可持续的实践。总之，可变负载的概念在各个领域都是不可或缺的，影响设计、效率和可持续性。各学科的专业人士必须理解和预见可变负载，以创建能够适应变化条件的弹性系统。通过这样做，他们可以提高性能、降低风险，并对经济和环境产生积极影响。随着技术的不断进步，管理可变负载的能力将变得更加重要，确保系统在满足社会需求方面保持高效和有效。