governing and emergency shutdown system

简明释义

调速应急停车系统

英英释义

例句

1.The governing and emergency shutdown system was activated when the pressure levels exceeded safe limits.

当压力水平超过安全限制时，调节和紧急停机系统被激活。

2.Engineers are required to regularly inspect the governing and emergency shutdown system for any potential failures.

工程师需要定期检查调节和紧急停机系统以发现任何潜在故障。

3.During the drill, we tested the governing and emergency shutdown system to ensure it functions correctly.

在演习中，我们测试了调节和紧急停机系统以确保其正常运作。

4.The factory's safety protocols include a robust governing and emergency shutdown system to prevent accidents.

工厂的安全协议包括一个强大的调节和紧急停机系统以防止事故。

5.The new regulations mandate that every facility must have a functional governing and emergency shutdown system.

新规定要求每个设施必须有一个功能正常的调节和紧急停机系统。

作文

In the world of engineering and technology, safety is paramount. One of the critical components that ensure safety in various systems, especially in industrial operations, is the governing and emergency shutdown system. This system plays a vital role in maintaining control over machinery and processes, particularly in situations where something goes wrong. The governing and emergency shutdown system can be defined as a mechanism designed to regulate the operation of equipment and provide a means to safely halt its function in case of emergencies. To understand the importance of the governing and emergency shutdown system, we must first consider the potential hazards present in industrial environments. Machines often operate under high pressures and temperatures, and any malfunction can lead to catastrophic consequences. For instance, in a chemical plant, a runaway reaction could result in explosions or toxic releases. Therefore, having a reliable governing and emergency shutdown system is crucial for preventing such disasters.The governing and emergency shutdown system typically consists of sensors, controllers, and actuators. Sensors monitor the operational parameters of the machinery, such as temperature, pressure, and flow rates. When these parameters exceed predefined thresholds, the sensors send signals to the controller, which evaluates the situation. If the controller determines that the machine is operating outside safe limits, it activates the emergency shutdown procedure.This procedure often involves shutting down the machinery gradually to avoid sudden changes that could cause further damage. The actuators are responsible for physically stopping the equipment, whether by closing valves, shutting off power, or activating brakes. This systematic approach ensures that the machinery comes to a halt safely, minimizing risks to both personnel and the environment.Moreover, the governing and emergency shutdown system is not only about stopping the machinery but also about maintaining control during normal operations. The governing aspect of the system ensures that machinery operates within safe and efficient parameters. It regulates the inputs to the machines, adjusting them based on real-time data to optimize performance while preventing overloads. For example, in a turbine engine, the governing system adjusts fuel flow based on the engine's speed and load conditions. This regulation helps maintain efficiency and prevents damage due to excessive speeds or temperatures. By ensuring smooth and controlled operations, the governing and emergency shutdown system contributes to the longevity of equipment and reduces maintenance costs.Training personnel to understand and operate the governing and emergency shutdown system is equally important. Workers should be familiar with the system's functions, how to respond in emergencies, and the procedures for regular testing and maintenance. Regular drills and training sessions can enhance readiness and ensure that everyone knows their role in an emergency.In conclusion, the governing and emergency shutdown system is an indispensable part of modern industrial operations. It not only safeguards against potential hazards but also optimizes the performance of machinery. As industries continue to evolve, the importance of these systems will only grow, making it essential for engineers and operators to prioritize their development and implementation. Understanding the intricacies of the governing and emergency shutdown system is fundamental for anyone involved in managing industrial processes, ensuring safety, efficiency, and sustainability in the workplace.

在工程和技术的世界中，安全至关重要。确保各种系统，尤其是工业操作安全的关键组成部分之一是调节和紧急停机系统。该系统在维护机器和工艺的控制方面发挥着至关重要的作用，特别是在出现问题的情况下。调节和紧急停机系统可以定义为一种旨在调节设备运行并在紧急情况下提供安全停止其功能的方法。要理解调节和紧急停机系统的重要性，我们必须首先考虑工业环境中存在的潜在危害。机器通常在高压和高温下运行，任何故障都可能导致灾难性的后果。例如，在化工厂中，失控反应可能导致爆炸或有毒物质释放。因此，拥有可靠的调节和紧急停机系统对于防止此类灾难至关重要。调节和紧急停机系统通常由传感器、控制器和执行器组成。传感器监测机器的操作参数，例如温度、压力和流量。当这些参数超过预定义的阈值时，传感器会向控制器发送信号，控制器评估情况。如果控制器确定机器的操作超出了安全限制，它将激活紧急停机程序。该程序通常涉及逐步关闭机器，以避免可能导致进一步损坏的突然变化。执行器负责物理停止设备，无论是通过关闭阀门、切断电源还是激活制动。这种系统的方法确保机器安全停机，最大限度地减少对人员和环境的风险。此外，调节和紧急停机系统不仅仅是关于停止机器，还关于在正常操作期间保持控制。系统的调节方面确保机器在安全和高效的参数内运行。它根据实时数据调节机器的输入，以优化性能，同时防止过载。例如，在涡轮发动机中，调节系统根据发动机的速度和负载条件调整燃料流量。这种调节有助于维持效率并防止由于过高的速度或温度而造成的损坏。通过确保平稳和受控的操作，调节和紧急停机系统有助于设备的寿命，并降低维护成本。培训人员理解和操作调节和紧急停机系统同样重要。工作人员应熟悉系统的功能、如何在紧急情况下做出反应以及定期测试和维护的程序。定期演练和培训课程可以增强准备工作，并确保每个人都知道自己在紧急情况下的角色。总之，调节和紧急停机系统是现代工业操作中不可或缺的一部分。它不仅保护潜在危害，而且优化机器的性能。随着工业的不断发展，这些系统的重要性只会增加，因此工程师和操作人员必须优先考虑其开发和实施。理解调节和紧急停机系统的复杂性对于任何参与管理工业过程的人来说都是基础，确保工作场所的安全、高效和可持续性。