fluctuation of load

简明释义

负载波动

英英释义

例句

1.The fluctuation of load 负载波动 can cause significant wear on machinery if not properly managed.

如果管理不当，负载波动可能会对机械造成显著磨损。

2.During peak hours, the fluctuation of load 负载波动 increases dramatically, affecting service delivery.

在高峰时段，负载波动显著增加，影响服务交付。

3.To predict the fluctuation of load 负载波动, we analyzed historical data and usage patterns.

为了预测负载波动，我们分析了历史数据和使用模式。

4.Understanding the fluctuation of load 负载波动 is crucial for optimizing energy consumption in smart grids.

理解负载波动对于优化智能电网中的能耗至关重要。

5.The engineer monitored the fluctuation of load 负载波动 during the test to ensure the system's stability.

工程师在测试过程中监测了负载波动，以确保系统的稳定性。

作文

In the modern world, we are increasingly reliant on electricity to power our homes, businesses, and industries. However, one of the significant challenges faced by electrical engineers and utility companies is the fluctuation of load (负荷波动). This term refers to the variations in the amount of electrical power consumed over time. Understanding the fluctuation of load is crucial for maintaining a stable and efficient power supply. The fluctuation of load can occur due to various factors, including changes in weather conditions, time of day, and human activity. For instance, during hot summer days, the demand for air conditioning increases significantly, leading to a spike in electricity consumption. Conversely, at night, when most people are asleep, the demand tends to drop. These changes in consumption patterns create a constant ebb and flow in the power grid, which must be managed effectively to prevent outages and ensure reliability.Utility companies utilize sophisticated forecasting techniques to predict the fluctuation of load. By analyzing historical data and current trends, they can anticipate periods of high and low demand. This information allows them to adjust their power generation accordingly, either ramping up production during peak times or reducing it during off-peak hours. Additionally, they may employ energy storage systems to store excess energy generated during low-demand periods for use during high-demand periods.Another aspect of managing the fluctuation of load involves the integration of renewable energy sources, such as solar and wind power. These sources are inherently variable, meaning their output can change rapidly based on weather conditions. As more renewable energy is added to the grid, the need for effective management of the fluctuation of load becomes even more critical. Engineers are constantly working to develop technologies that can help stabilize the grid, such as advanced battery storage systems and demand response programs that incentivize consumers to reduce their usage during peak times.Moreover, the fluctuation of load can have economic implications as well. During periods of high demand, electricity prices often rise due to the increased cost of generating additional power. Consumers can benefit from understanding these fluctuations and adjusting their usage patterns accordingly. For example, running heavy appliances during off-peak hours can result in lower electricity bills.In conclusion, the fluctuation of load is a fundamental concept in the field of electrical engineering that affects everyone who relies on electricity. By understanding and managing these fluctuations, utility companies can provide a more reliable service, while consumers can make informed decisions that benefit both their wallets and the environment. As technology continues to evolve, the strategies for managing the fluctuation of load will also improve, paving the way for a more sustainable and efficient energy future.

在现代社会中，我们越来越依赖电力来为我们的家庭、企业和工业提供动力。然而，电气工程师和公用事业公司面临的一个重大挑战是负荷波动（fluctuation of load）。这个术语指的是电力消费量随时间的变化。理解负荷波动对维持稳定和高效的电力供应至关重要。

负荷波动可能由于多种因素而发生，包括天气条件的变化、一天中的时间以及人类活动。例如，在炎热的夏季，空调的需求显著增加，导致电力消费激增。相反，在夜间，大多数人都在睡觉时，需求往往会下降。这些消费模式的变化在电网中形成了一个不断的起伏，必须有效管理，以防止停电并确保可靠性。

公用事业公司利用复杂的预测技术来预测负荷波动。通过分析历史数据和当前趋势，他们可以预见高峰和低谷需求期。这些信息使他们能够相应地调整发电量，无论是在高峰时段增加生产还是在低谷时段减少生产。此外，他们可能会采用能源储存系统，在低需求期间储存多余的能源，以便在高需求期间使用。

管理负荷波动的另一个方面涉及可再生能源源的整合，例如太阳能和风能。这些来源本质上是可变的，这意味着它们的输出会根据天气条件迅速变化。随着越来越多的可再生能源接入电网，有效管理负荷波动的需求变得更加关键。工程师们不断努力开发可以帮助稳定电网的技术，例如先进的电池储存系统和激励消费者在高峰时段减少使用的需求响应程序。

此外，负荷波动还可能带来经济影响。在高需求期间，电价通常因额外发电的成本增加而上涨。消费者可以从理解这些波动中受益，并相应调整他们的使用模式。例如，在非高峰时段运行重型电器可以导致更低的电费。

总之，负荷波动是电气工程领域的一个基本概念，影响着每一个依赖电力的人。通过理解和管理这些波动，公用事业公司可以提供更可靠的服务，而消费者则可以做出有利于自己钱包和环境的明智决策。随着技术的不断发展，管理负荷波动的策略也将得到改善，为更可持续和高效的能源未来铺平道路。