hydraulic impact

简明释义

液压冲击

英英释义

例句

1.Our research focused on the hydraulic impact 液压冲击 of industrial waste discharges in urban rivers.

我们的研究集中在工业废水排放对城市河流的液压冲击上。

2.The construction team had to assess the hydraulic impact 液压冲击 of the new bridge design on the local river.

施工团队必须评估新桥设计对当地河流的液压冲击。

3.The hydraulic impact 液压冲击 from the dam's release can affect downstream ecosystems.

大坝释放的液压冲击可能会影响下游生态系统。

4.Understanding the hydraulic impact 液压冲击 is crucial for designing flood control systems.

理解液压冲击对于设计防洪系统至关重要。

5.Engineers used simulations to predict the hydraulic impact 液压冲击 during heavy rainfall events.

工程师们使用模拟来预测在大雨事件中发生的液压冲击。

作文

The term hydraulic impact refers to the force exerted by a fluid in motion, particularly when it encounters a barrier or changes direction suddenly. This phenomenon is crucial in various engineering and industrial applications, particularly in the fields of civil engineering, hydraulic engineering, and fluid dynamics. Understanding hydraulic impact is essential for designing systems that involve fluid flow, such as dams, pipelines, and hydraulic machinery.To illustrate the importance of hydraulic impact, consider the construction of a dam. When water flows over the dam's edge, it creates a significant amount of pressure due to the sudden change in elevation. This pressure can lead to what is known as 'water hammer,' a type of hydraulic impact that can cause severe damage to pipes and other structures if not properly managed. Engineers must account for these forces when designing the dam and its associated systems to ensure safety and longevity.In addition to civil engineering, hydraulic impact plays a vital role in the operation of hydraulic machinery. For instance, hydraulic presses rely on the principles of hydraulic impact to function effectively. The press uses a small amount of fluid under high pressure to exert a much larger force on an object, allowing for heavy lifting and shaping of materials. Understanding how hydraulic impact affects the machinery's performance is critical for operators to prevent accidents and maintain efficiency.Moreover, the concept of hydraulic impact is not limited to large-scale engineering projects. It can also be observed in everyday situations, such as when a person turns on a faucet quickly. The sudden rush of water creates a brief but intense force that can cause pipes to rattle or even burst if they are old or poorly maintained. This example highlights the need for proper plumbing design that considers hydraulic impact to ensure that residential and commercial buildings remain safe and functional.In conclusion, the study of hydraulic impact is a fundamental aspect of various engineering disciplines. By understanding the forces at play when fluids interact with their environment, engineers can design safer and more efficient systems. Whether it’s in the context of massive infrastructure projects like dams or the simple act of turning on a tap, hydraulic impact is a phenomenon that affects us all. As we continue to advance in technology and engineering practices, a thorough comprehension of hydraulic impact will remain essential for innovation and safety in fluid-related applications.

“液压冲击”一词指的是流体在运动时施加的力量，特别是当它遇到障碍物或突然改变方向时。这种现象在各种工程和工业应用中至关重要，尤其是在土木工程、液压工程和流体动力学领域。理解“液压冲击”对设计涉及流体流动的系统至关重要，例如大坝、管道和液压机械。为了说明“液压冲击”的重要性，可以考虑大坝的建设。当水流过大坝的边缘时，由于高度的突然变化，会产生大量的压力。这种压力可能导致所谓的“水锤”，这是一种“液压冲击”，如果管理不当，可能会对管道和其他结构造成严重损害。工程师必须在设计大坝及其相关系统时考虑这些力量，以确保安全和耐用性。除了土木工程，“液压冲击”在液压机械的操作中也发挥着重要作用。例如，液压压机依赖于“液压冲击”的原理来有效工作。该压机利用少量高压流体对物体施加更大的力量，从而实现重物的提升和材料的成型。理解“液压冲击”如何影响机械性能对操作员来说至关重要，以防止事故并保持效率。此外，“液压冲击”的概念并不限于大型工程项目。在日常情况下，例如当一个人快速打开水龙头时，也可以观察到这一现象。水的突然涌出产生了一种短暂但强烈的力量，可能导致管道震动甚至破裂，尤其是当管道老化或维护不当时。这个例子突显了需要合理的管道设计，以考虑“液压冲击”，以确保住宅和商业建筑的安全和功能。总之，研究“液压冲击”是各种工程学科的基础方面。通过理解流体与其环境相互作用时所发生的力量，工程师可以设计出更安全、更高效的系统。无论是在像大坝这样的大型基础设施项目中，还是简单的打开水龙头的行为中，“液压冲击”都是影响我们所有人的现象。随着我们在技术和工程实践上的不断进步，对“液压冲击”的全面理解将继续在流体相关应用的创新和安全中发挥重要作用。