wetted profile

简明释义

浸水截面形状

英英释义

例句

1.The engineer analyzed the wetted profile to determine the water flow patterns in the channel.

工程师分析了湿润轮廓以确定水流在渠道中的模式。

2.The wetted profile of the river affects the habitat of aquatic species.

河流的湿润轮廓影响水生物种的栖息地。

3.The wetted profile was altered due to sediment deposition after heavy rainfall.

由于强降雨后沉积物的沉积，湿润轮廓发生了变化。

4.In hydrodynamic studies, understanding the wetted profile is crucial for accurate modeling.

在水动力学研究中，理解湿润轮廓对于准确建模至关重要。

5.To improve the design of the dam, we need to measure the wetted profile at various water levels.

为了改善大坝的设计，我们需要在不同水位下测量湿润轮廓。

作文

The concept of the wetted profile is essential in various fields, particularly in fluid mechanics and environmental engineering. The term refers to the surface area of a solid object that is in contact with a liquid, which can significantly affect the behavior of fluids as they interact with different materials. Understanding the wetted profile is crucial for engineers and scientists who deal with the flow of liquids over surfaces, as it influences factors such as drag, friction, and heat transfer.In hydraulic engineering, the wetted profile plays a pivotal role in determining how water flows through channels and pipes. For instance, when designing a drainage system, engineers must consider the wetted profile of the channel to ensure efficient water flow and minimize the risk of flooding. A larger wetted profile can lead to increased resistance and slower flow rates, while a streamlined design can enhance fluid movement.Moreover, in the context of environmental studies, the wetted profile is significant when assessing the impact of pollutants in rivers and streams. When contaminants are released into a body of water, their interaction with the wetted profile of the riverbed can influence how quickly they disperse and how much sediment they adhere to. This understanding helps in developing strategies for pollution control and remediation efforts.In addition, the wetted profile is also relevant in the study of biological systems. For example, in aquatic ecosystems, the wetted profile of plants and substrates can affect the habitat available for various organisms. Aquatic plants with extensive wetted profile areas can provide shelter and breeding grounds for fish and invertebrates, thus supporting biodiversity.Furthermore, the wetted profile is critical in the design of various industrial applications, such as cooling systems and heat exchangers. In these systems, the efficiency of heat transfer between liquids and solids is dependent on the wetted profile. Engineers must optimize the wetted profile to enhance performance and energy efficiency, ensuring that systems operate effectively while minimizing waste.In summary, the wetted profile is a fundamental concept that impacts numerous disciplines, from engineering to environmental science. Its importance cannot be overstated, as it affects fluid dynamics, ecological interactions, and industrial processes. By gaining a deeper understanding of the wetted profile, professionals can make informed decisions that lead to better designs, improved environmental outcomes, and enhanced operational efficiencies. As we continue to face challenges related to water management and conservation, the significance of the wetted profile will only grow, underscoring the need for ongoing research and innovation in this area.

“wetted profile”这个概念在多个领域中至关重要，尤其是在流体力学和环境工程中。该术语指的是固体物体与液体接触的表面积，这会显著影响液体在不同材料之间相互作用的行为。理解“wetted profile”对于处理液体在表面上流动的工程师和科学家来说至关重要，因为它影响着阻力、摩擦和热传递等因素。在水利工程中，“wetted profile”在确定水流通过渠道和管道的方式时发挥着关键作用。例如，在设计排水系统时，工程师必须考虑渠道的“wetted profile”，以确保水流畅通并最大限度地降低洪水风险。较大的“wetted profile”可能导致阻力增加和流速减慢，而流线型设计则可以增强流体运动。此外，在环境研究的背景下，“wetted profile”在评估河流和溪流中污染物影响时也很重要。当污染物释放到水体中时，它们与河床的“wetted profile”的相互作用会影响其扩散速度和沉积量。这种理解有助于制定污染控制和修复工作的策略。此外，“wetted profile”在生物系统研究中同样相关。例如，在水生生态系统中，植物和基质的“wetted profile”会影响各种生物的栖息地。具有广泛“wetted profile”区域的水生植物可以为鱼类和无脊椎动物提供庇护和繁殖场，从而支持生物多样性。此外，“wetted profile”在各种工业应用的设计中至关重要，例如冷却系统和热交换器。在这些系统中，液体和固体之间的热传递效率依赖于“wetted profile”。工程师必须优化“wetted profile”以提高性能和能效，确保系统有效运行，同时最大限度地减少浪费。总之，“wetted profile”是一个基本概念，影响着众多学科，从工程到环境科学。其重要性不容小觑，因为它影响着流体动力学、生态互动和工业过程。通过深入了解“wetted profile”，专业人士可以做出明智的决策，从而实现更好的设计、改善环境结果和提高运营效率。随着我们继续面临与水管理和保护相关的挑战，“wetted profile”的重要性只会增加，强调了在这一领域持续研究和创新的必要性。