transient operation

简明释义

过渡工况

英英释义

例句

1.The system is designed to handle transient operation effectively during peak loads.

该系统旨在有效处理高峰负载期间的瞬态操作。

2.Engineers must consider transient operation when designing safety protocols.

工程师在设计安全协议时必须考虑瞬态操作。

3.During transient operation, the equipment may experience fluctuations in performance.

在瞬态操作期间，设备可能会经历性能波动。

4.Monitoring transient operation is crucial for maintaining system stability.

监测瞬态操作对维持系统稳定至关重要。

5.The software can simulate transient operation scenarios to predict potential failures.

该软件可以模拟瞬态操作场景，以预测潜在故障。

作文

In the field of engineering and technology, particularly in systems design and analysis, the term transient operation refers to temporary states that occur when a system is transitioning from one steady state to another. This concept is critical for understanding how systems respond to changes, whether they are electrical circuits, mechanical systems, or even complex software applications. The significance of transient operation lies in its implications for performance, stability, and reliability of the system in question.For instance, consider an electrical circuit that is powered on. The moment the switch is flipped, the circuit does not immediately reach its steady state; instead, it experiences a series of changes in voltage and current. These fluctuations during this initial phase are what we refer to as transient operation. Engineers must carefully analyze these transients to ensure that the system can handle them without failure. If the transient response is not adequately managed, it could lead to overheating, component damage, or even catastrophic failure.In mechanical systems, transient operation can be observed in processes such as starting and stopping motors or engines. When a motor is turned on, it accelerates from rest to its operating speed, going through various stages of torque and power consumption. Understanding these transient behaviors is essential for designing control systems that can effectively manage the transition and ensure smooth operation. For example, if a motor is started too quickly, it might draw excessive current, causing a drop in voltage that affects other connected devices. Therefore, engineers often implement soft starters or variable frequency drives to control the rate of acceleration and minimize adverse effects during transient operation.Moreover, in the context of software systems, transient operation can refer to temporary states during data processing or network communication. When a user sends a request to a server, there is a period where the system is busy processing that request before returning a response. During this time, the system may experience various transient states, such as queuing requests or handling errors. Properly managing these transient states is vital to ensuring a responsive and reliable user experience. Developers often use techniques like caching and load balancing to mitigate the impact of transient operation on system performance.The study of transient operation is not only limited to engineering but extends to various fields such as economics, environmental science, and even social dynamics. In economics, for example, the concept can apply to market fluctuations that occur due to sudden changes in consumer behavior or external factors like policy changes. Understanding these transient dynamics can help businesses and policymakers make informed decisions.In conclusion, transient operation is a fundamental concept that spans multiple disciplines, emphasizing the importance of understanding temporary states in systems. Whether in engineering, software development, or economics, recognizing and managing transient operation can lead to improved performance, reliability, and overall success. As technology continues to evolve, the ability to effectively analyze and adapt to transient behaviors will remain a crucial skill for engineers, developers, and decision-makers alike.

在工程和技术领域，特别是在系统设计和分析中，术语瞬态操作指的是当一个系统从一个稳态过渡到另一个稳态时发生的临时状态。这个概念对于理解系统如何响应变化至关重要，无论是电路、机械系统，还是复杂的软件应用程序。瞬态操作的重要性在于它对系统性能、稳定性和可靠性的影响。例如，考虑一个电路，当电源开启时，电路并不会立即达到稳态；相反，它会经历一系列电压和电流的变化。这些初始阶段的波动就是我们所称的瞬态操作。工程师必须仔细分析这些瞬态，以确保系统能够处理它们而不发生故障。如果瞬态响应没有得到适当管理，可能会导致过热、组件损坏甚至灾难性故障。在机械系统中，瞬态操作可以在启动和停止电机或发动机等过程中观察到。当电机被打开时，它从静止加速到其工作速度，经历各种扭矩和功率消耗的阶段。理解这些瞬态行为对于设计能够有效管理过渡并确保平稳运行的控制系统至关重要。例如，如果电机启动过快，可能会消耗过多的电流，导致电压下降，从而影响其他连接的设备。因此，工程师通常会实施软启动器或变频驱动器来控制加速率，并最小化在瞬态操作期间的不利影响。此外，在软件系统的背景下，瞬态操作可以指在数据处理或网络通信期间发生的临时状态。当用户向服务器发送请求时，在系统忙于处理该请求并返回响应的过程中，会有一个阶段。在此期间，系统可能会经历各种瞬态状态，例如排队请求或处理错误。妥善管理这些瞬态状态对于确保响应迅速和可靠的用户体验至关重要。开发人员通常使用缓存和负载均衡等技术来减轻瞬态操作对系统性能的影响。瞬态操作的研究不仅限于工程，还扩展到经济学、环境科学，甚至社会动态等多个领域。例如，在经济学中，这个概念可以应用于由于消费者行为或政策变化等外部因素的突然变化而发生的市场波动。理解这些瞬态动态可以帮助企业和政策制定者做出明智的决策。总之，瞬态操作是一个基本概念，跨越多个学科，强调理解系统中的临时状态的重要性。无论是在工程、软件开发还是经济学中，识别和管理瞬态操作都可以带来更好的性能、可靠性和整体成功。随着技术的不断发展，有效分析和适应瞬态行为的能力将仍然是工程师、开发人员和决策者的重要技能。