intermittent load

简明释义

间歇负载

英英释义

例句

1.Engineers must account for intermittent load (间歇负载) when designing bridges to ensure safety.

工程师在设计桥梁时必须考虑间歇负载以确保安全。

2.In renewable energy systems, the intermittent load (间歇负载) can affect the stability of the grid.

在可再生能源系统中，间歇负载可能会影响电网的稳定性。

3.The power supply must be designed to handle an intermittent load (间歇负载) during peak usage times.

电源必须设计成能够在高峰使用时处理间歇负载。

4.The factory's machinery operates under an intermittent load (间歇负载), which requires careful monitoring.

工厂的机器在间歇负载下运行，这需要仔细监控。

5.To optimize performance, the HVAC system needs to be adjusted for intermittent load (间歇负载) conditions.

为了优化性能，HVAC系统需要根据间歇负载条件进行调整。

作文

In modern engineering and energy management, the term intermittent load refers to a type of electrical load that does not operate continuously but rather at irregular intervals. This concept is particularly relevant in the context of renewable energy sources such as solar and wind power, where energy generation can fluctuate due to varying weather conditions. Understanding intermittent load is crucial for designing efficient energy systems that can accommodate these variations. For instance, consider a solar power plant that generates electricity during sunny days but produces little to no energy at night or on cloudy days. The demand for electricity, however, remains constant throughout the day. This creates a scenario where the power supply must be able to handle both the peaks and troughs of energy production and consumption. Here, the notion of intermittent load becomes significant as it affects how energy storage systems and backup power solutions are designed. In practical applications, managing an intermittent load involves utilizing technologies such as batteries or pumped hydro storage, which can store excess energy generated during peak production times and release it when the load is high but the generation is low. This balance is essential for maintaining grid stability and ensuring that consumers have a reliable power supply.Moreover, industries that rely on heavy machinery often experience intermittent load patterns as well. For example, manufacturing plants may operate machines that run only during specific shifts or production cycles. This variability means that energy consumption is not constant, leading to challenges in energy procurement and cost management. By analyzing these intermittent loads, companies can optimize their energy usage, reduce costs, and minimize their environmental impact.Understanding the implications of intermittent load also extends beyond energy management; it plays a significant role in smart grid technology. Smart grids utilize advanced communication and automation technologies to monitor and manage electricity flows more effectively. By integrating information about intermittent loads, utilities can better predict demand and supply fluctuations, making real-time adjustments to maintain balance within the grid.In conclusion, the concept of intermittent load is vital in various fields, especially in energy production and consumption. As we continue to transition towards more sustainable energy sources, recognizing and managing intermittent loads will become increasingly important. By leveraging technology and innovative solutions, we can create a more resilient and efficient energy infrastructure that meets the demands of the future. Understanding intermittent load not only helps in optimizing energy systems but also contributes to a more sustainable environment, highlighting the interconnectedness of technology, economics, and ecological responsibility.

在现代工程和能源管理中，术语间歇负载指的是一种不连续运行的电负载，而是在不规则的时间间隔内运行。这个概念在可再生能源源如太阳能和风能的背景下尤为重要，因为由于天气条件变化，能源生成可能会波动。理解间歇负载对设计能够适应这些变化的高效能源系统至关重要。例如，考虑一个在阳光明媚的日子里产生电力但在夜间或多云的日子里几乎没有能量产生的太阳能发电厂。然而，电力的需求在一天中保持恒定。这就造成了一个场景，即电力供应必须能够处理能源生产和消费的高峰和低谷。在这里，间歇负载的概念变得重要，因为它影响着能源储存系统和备用电源解决方案的设计。在实际应用中，管理间歇负载涉及利用诸如电池或抽水蓄能等技术，这些技术可以在高峰生产时储存多余的能量，并在负载高但发电低时释放出来。这种平衡对于维护电网稳定性和确保消费者拥有可靠的电力供应至关重要。此外，依赖重型机械的行业也经常经历间歇负载模式。例如，制造工厂可能只在特定班次或生产周期内运行机器。这种变化意味着能源消耗并不恒定，从而导致能源采购和成本管理的挑战。通过分析这些间歇负载，公司可以优化其能源使用，降低成本，并最小化其环境影响。理解间歇负载的影响还超出了能源管理；它在智能电网技术中也起着重要作用。智能电网利用先进的通信和自动化技术来更有效地监控和管理电力流。通过整合有关间歇负载的信息，公用事业公司可以更好地预测需求和供应波动，实时进行调整以维持电网内的平衡。总之，间歇负载的概念在各个领域都至关重要，尤其是在能源生产和消费方面。随着我们继续向更可持续的能源来源过渡，认识和管理间歇负载将变得越来越重要。通过利用技术和创新解决方案，我们可以创建一个更具韧性和高效的能源基础设施，以满足未来的需求。理解间歇负载不仅有助于优化能源系统，还有助于实现更可持续的环境，突显了技术、经济和生态责任之间的相互联系。