stroke of valve

简明释义

阀行程

英英释义

例句

1.The stroke of valve needs to be calibrated for the new system configuration.

新的系统配置需要对阀门的行程进行校准。

2.The engineer adjusted the stroke of valve to optimize the flow rate.

工程师调整了阀门的行程以优化流量。

3.A longer stroke of valve can increase the volume of fluid passing through.

更长的阀门行程可以增加通过的流体体积。

4.In this application, the stroke of valve is critical for pressure control.

在这个应用中，阀门的行程对于压力控制至关重要。

5.During the maintenance check, we measured the stroke of valve for accuracy.

在维护检查期间，我们测量了阀门的行程以确保准确性。

作文

The operation of various machinery often relies on intricate components that work in harmony to produce the desired output. One such component is the valve, which plays a crucial role in controlling the flow of fluids within a system. Understanding the mechanics behind a valve's function can significantly enhance our ability to troubleshoot and optimize these systems. One key term related to this is the stroke of valve, which refers to the distance that the valve moves from its fully closed position to its fully open position. This movement is essential for regulating the flow of liquids or gases through pipes and channels.In many industrial applications, valves are used to manage the flow of materials in processes such as heating, cooling, and chemical reactions. The stroke of valve determines how much fluid can pass through at any given time, thereby influencing the efficiency and effectiveness of the entire system. For instance, in a steam engine, the precise control of steam flow is vital for maintaining optimal performance. If the stroke of valve is too short, not enough steam may enter the engine, leading to reduced power output. Conversely, if the stroke is too long, it may allow excessive steam to escape, wasting energy and potentially causing damage.Moreover, the design of the valve itself can affect the stroke of valve. Different types of valves, such as gate valves, globe valves, and ball valves, have varying mechanisms that dictate their stroke length and flow characteristics. A gate valve typically has a longer stroke compared to a ball valve, which can open and close with minimal movement. Understanding these differences is essential for engineers and technicians when selecting the appropriate valve for a specific application.In addition to their mechanical functions, valves also play a significant role in safety. Many systems incorporate safety valves that automatically release pressure if it exceeds a certain threshold. The stroke of valve in these safety devices is critical; it must be calibrated correctly to ensure that it opens at the right time to prevent accidents or equipment failure. Therefore, regular maintenance and inspection of valves are necessary to ensure that their stroke of valve remains within specified limits.The importance of the stroke of valve extends beyond just mechanical operations. In fields like environmental engineering, valves are essential for controlling the release of pollutants and managing wastewater treatment processes. The precise adjustment of a valve's stroke can help minimize environmental impact by ensuring that harmful substances are contained and treated effectively before being discharged into the environment.In conclusion, the stroke of valve is a fundamental concept in understanding how valves operate within various systems. Its significance spans across multiple industries, from manufacturing to environmental management. By grasping the implications of the stroke of valve, professionals can make informed decisions that enhance system performance, ensure safety, and contribute to sustainable practices. As technology continues to evolve, the role of valves and their strokes will remain pivotal in advancing engineering solutions and improving operational efficiencies.

各种机械的操作通常依赖于复杂组件的协调工作，以产生所需的输出。其中一个关键组件是阀门，它在控制系统内流体流动方面发挥着至关重要的作用。理解阀门功能背后的机械原理可以显著增强我们故障排除和优化这些系统的能力。与此相关的一个关键术语是阀门行程，它指的是阀门从完全关闭位置到完全打开位置移动的距离。这种运动对于调节液体或气体通过管道和通道的流动至关重要。在许多工业应用中，阀门用于管理加热、冷却和化学反应等过程中的材料流动。阀门行程决定了在任何给定时间可以通过多少流体，从而影响整个系统的效率和效果。例如，在蒸汽机中，蒸汽流量的精确控制对于维持最佳性能至关重要。如果阀门行程过短，则可能导致进入发动机的蒸汽不足，从而降低功率输出。相反，如果行程过长，则可能允许过多的蒸汽泄漏，浪费能源并可能造成损坏。此外，阀门本身的设计也会影响阀门行程。不同类型的阀门，如闸阀、截止阀和球阀，具有不同的机制，这决定了它们的行程长度和流动特性。与球阀相比，闸阀通常具有较长的行程，可以在最小运动下打开和关闭。理解这些差异对于工程师和技术人员在选择适当的阀门以满足特定应用时至关重要。除了机械功能外，阀门在安全性方面也发挥着重要作用。许多系统都配备有安全阀，当压力超过某一阈值时自动释放压力。此类安全装置中的阀门行程至关重要；必须正确校准，以确保它在适当的时间打开，以防止事故或设备故障。因此，定期维护和检查阀门是必要的，以确保其阀门行程保持在规定范围内。阀门行程的重要性不仅限于机械操作。在环境工程等领域，阀门对控制污染物释放和管理废水处理过程至关重要。精确调整阀门的行程可以通过确保有害物质被有效地控制和处理，最大限度地减少对环境的影响。总之，阀门行程是理解阀门在各种系统中如何运作的基本概念。它的意义跨越多个行业，从制造业到环境管理。通过掌握阀门行程的含义，专业人员可以做出明智的决策，从而提高系统性能，确保安全，并为可持续实践做出贡献。随着技术的不断发展，阀门及其行程的作用将继续在推动工程解决方案和提高操作效率方面发挥关键作用。