uniform flow
简明释义
均匀流动
英英释义
例句
1.The river's uniform flow 均匀流动 was disrupted by the construction of a dam.
河流的uniform flow 均匀流动因大坝的建设而受到干扰。
2.In a well-designed irrigation system, the water should maintain a uniform flow 均匀流动 to ensure all crops receive adequate moisture.
在一个设计良好的灌溉系统中,水应该保持uniform flow 均匀流动,以确保所有作物获得足够的水分。
3.To achieve a uniform flow 均匀流动, the channel must be free of obstructions and properly graded.
为了实现uniform flow 均匀流动,通道必须没有障碍物并且适当倾斜。
4.The engineers tested the pipe for uniform flow 均匀流动 to prevent any pressure fluctuations in the system.
工程师测试了管道的uniform flow 均匀流动,以防止系统中的压力波动。
5.A uniform flow 均匀流动 is essential for accurate measurements in fluid dynamics experiments.
在流体动力学实验中,uniform flow 均匀流动对于准确测量至关重要。
作文
In the study of fluid dynamics, the concept of uniform flow is crucial for understanding how fluids behave in various environments. Uniform flow refers to a situation where the velocity of a fluid remains constant along a streamline. This means that every particle of the fluid moves at the same speed and in the same direction, which simplifies many calculations and analyses in engineering and physics. For instance, when designing pipelines or channels, engineers often aim for uniform flow to ensure efficiency and reduce turbulence. The importance of uniform flow can be observed in natural systems as well. Rivers, for example, may exhibit uniform flow under certain conditions, such as when water moves steadily without obstacles. This allows for predictable patterns of erosion and sediment deposition, which are vital for maintaining ecosystems. Understanding these patterns helps environmental scientists develop strategies for conservation and management of waterways.Moreover, uniform flow is not just limited to natural occurrences. In industrial applications, achieving uniform flow is essential for processes like chemical mixing, cooling systems, and even in the food industry where consistent flow rates can affect product quality. Engineers use various methods, such as adjusting pipe diameters or using pumps, to create conditions that promote uniform flow. This can lead to increased efficiency and lower operational costs.However, achieving uniform flow is not always straightforward. Factors such as changes in elevation, temperature, and the presence of obstructions can disrupt the flow of a fluid. For example, if a river encounters a dam, the flow may become turbulent, leading to unpredictable behavior downstream. This highlights the need for careful planning and design in both natural and engineered systems to maintain uniform flow where it is desired.In conclusion, the concept of uniform flow plays a vital role in both natural and artificial systems. Whether it's in the context of a flowing river or an industrial process, understanding and achieving uniform flow can lead to better outcomes, improved efficiency, and more effective management of resources. As we continue to study fluid dynamics, the principles surrounding uniform flow will undoubtedly remain a key area of focus for researchers and practitioners alike.
在流体动力学的研究中,均匀流动的概念对于理解流体在各种环境中的行为至关重要。均匀流动指的是流体沿着流线的速度保持恒定的情况。这意味着流体的每个颗粒以相同的速度和方向移动,这简化了工程和物理学中的许多计算和分析。例如,在设计管道或渠道时,工程师通常旨在实现均匀流动,以确保效率并减少湍流。均匀流动的重要性也可以在自然系统中观察到。例如,河流在某些条件下可能表现出均匀流动,例如当水流稳步流动而没有障碍物时。这允许可预测的侵蚀和沉积模式,这对维持生态系统至关重要。理解这些模式有助于环境科学家制定保护和管理水道的策略。此外,均匀流动不仅限于自然现象。在工业应用中,实现均匀流动对于化学混合、冷却系统甚至食品工业等过程至关重要,其中一致的流速会影响产品质量。工程师使用各种方法,如调整管道直径或使用泵,来创造促进均匀流动的条件。这可以提高效率并降低运营成本。然而,实现均匀流动并不总是简单的。诸如海拔变化、温度变化和障碍物的存在等因素可能会干扰流体的流动。例如,如果一条河流遇到大坝,流动可能会变得湍急,导致下游的不确定行为。这突显了在自然和工程系统中仔细规划和设计以维持所需的均匀流动的必要性。总之,均匀流动的概念在自然和人造系统中发挥着重要作用。无论是在流动的河流还是工业过程中,理解和实现均匀流动都可以带来更好的结果,提高效率,并更有效地管理资源。随着我们继续研究流体动力学,围绕均匀流动的原则无疑将继续成为研究人员和从业者关注的重点领域。
