discharge orifice

简明释义

排出口

英英释义

例句

1.A larger discharge orifice can increase the flow capacity of the system.

更大的排放孔可以增加系统的流量能力。

2.To calculate the velocity of the fluid, we need to know the diameter of the discharge orifice.

要计算流体的速度，我们需要知道排放孔的直径。

3.The engineer measured the flow rate through the discharge orifice to ensure it met the required specifications.

工程师测量了通过排放孔的流量，以确保符合要求的规格。

4.Regular maintenance of the discharge orifice is essential to prevent blockages.

定期维护排放孔对于防止堵塞是必不可少的。

5.The discharge orifice was clogged, causing a backup in the drainage system.

由于排放孔被堵塞，导致排水系统出现倒灌。

作文

The concept of a discharge orifice is crucial in various engineering and fluid dynamics applications. Essentially, a discharge orifice refers to an opening or a hole through which fluid exits a system. This term is often used in the context of hydraulic systems, where controlling the flow of liquid is vital for efficiency and safety. Understanding how a discharge orifice functions can greatly enhance our ability to design and operate systems that rely on fluid movement.In many industrial processes, the size and shape of a discharge orifice can significantly affect the flow rate of the fluid being discharged. For instance, a larger orifice will typically allow more fluid to pass through than a smaller one. However, this is not the only factor at play; the pressure of the fluid, the viscosity, and even the temperature can all influence how effectively a discharge orifice performs its function. Engineers must take these variables into account when designing systems that incorporate discharge orifices.Moreover, the location of a discharge orifice within a system can also impact its performance. Placing the orifice too close to a pump may result in turbulence, while positioning it too far away could lead to a drop in pressure, affecting the overall efficiency of the system. Therefore, strategic placement is key to maximizing the effectiveness of a discharge orifice.In addition to its practical applications, the study of discharge orifices contributes to our understanding of fluid mechanics. By analyzing how fluids behave as they exit through an orifice, researchers can gain insights into various phenomena, such as cavitation or flow separation. These insights are not only academically interesting but also have real-world implications in fields like aerospace engineering, chemical processing, and even environmental science.Furthermore, the design of a discharge orifice can be optimized using computational fluid dynamics (CFD) simulations. These advanced modeling techniques allow engineers to visualize the flow patterns around the orifice, helping them make informed decisions about size, shape, and placement. As technology continues to evolve, the tools available for analyzing discharge orifices will only improve, leading to more efficient designs and better-performing systems.In conclusion, the discharge orifice is more than just a simple opening; it is a critical component in many systems that handle fluid flow. By understanding the factors that influence its performance, engineers can design more effective systems that operate safely and efficiently. Whether in industrial applications or research, the significance of the discharge orifice cannot be overstated, making it a vital topic for anyone involved in the field of fluid dynamics.

“排放孔”这一概念在各种工程和流体动力学应用中至关重要。基本上，discharge orifice指的是液体从系统中排出的开口或孔。这一术语通常用于液压系统的背景下，在这些系统中，控制液体流动对于效率和安全性至关重要。理解discharge orifice的工作原理可以大大增强我们设计和操作依赖于流体运动的系统的能力。在许多工业过程中，discharge orifice的大小和形状会显著影响排放液体的流速。例如，较大的孔通常允许更多的液体通过，而较小的孔则相反。然而，这并不是唯一的影响因素；液体的压力、粘度甚至温度都会影响discharge orifice的功能。因此，工程师在设计包含discharge orifices的系统时，必须考虑这些变量。此外，discharge orifice在系统中的位置也会影响其性能。将孔放置得离泵太近可能会导致湍流，而放置得太远可能会导致压力下降，从而影响系统的整体效率。因此，战略性地放置是最大化discharge orifice有效性的关键。除了实际应用外，discharge orifices的研究还促进了我们对流体力学的理解。通过分析液体在通过孔排出时的行为，研究人员可以获得关于各种现象的见解，例如气蚀或流动分离。这些见解不仅在学术上引人入胜，而且在航空航天工程、化学加工甚至环境科学等领域具有现实意义。此外，discharge orifice的设计可以通过计算流体动力学（CFD）模拟进行优化。这些先进的建模技术使工程师能够可视化孔周围的流动模式，帮助他们做出关于大小、形状和位置的明智决策。随着技术的不断发展，用于分析discharge orifices的工具只会改进，从而导致更高效的设计和更好的系统性能。总之，discharge orifice不仅仅是一个简单的开口；它是处理流体流动的许多系统中的关键组成部分。通过理解影响其性能的因素，工程师可以设计出更有效的系统，使其安全、高效地运行。无论是在工业应用还是研究中，discharge orifice的重要性都不容小觑，使其成为任何参与流体动力学领域的人必须关注的主题。