cross flow

简明释义

横流

英英释义

例句

1.The cross flow 交叉流 of traffic at the intersection caused significant delays.

交叉口的交叉流交通造成了显著的延误。

2.The cross flow 交叉流 of ideas during the brainstorming session led to innovative solutions.

头脑风暴会议中思想的交叉流导致了创新的解决方案。

3.The engineers designed a system to manage the cross flow 交叉流 of air between different zones in the building.

工程师们设计了一个系统来管理建筑内不同区域之间的交叉流。

4.To improve efficiency, the team focused on optimizing the cross flow 交叉流 in the manufacturing process.

为了提高效率，团队专注于优化制造过程中的交叉流。

5.In this experiment, we observed the cross flow 交叉流 of water in the two channels.

在这个实验中，我们观察到了两个通道之间的交叉流。

作文

In the world of fluid dynamics, the concept of cross flow (交叉流) is crucial for understanding how fluids interact with one another and their surroundings. This phenomenon occurs when a fluid flows in a direction that is perpendicular to another fluid or surface. For instance, imagine a river flowing north while a strong wind blows from the east. The interaction between the water and the air creates a cross flow (交叉流) that can influence both the movement of the water and the dispersion of particles within it.The significance of cross flow (交叉流) extends beyond natural bodies of water; it is also essential in various engineering applications. In the design of heat exchangers, for example, engineers often utilize cross flow (交叉流) configurations to maximize the transfer of heat between two fluids. By allowing one fluid to flow across the other, they can increase the surface area for heat exchange, improving efficiency and performance. This principle is particularly important in industries such as power generation and chemical processing, where optimal thermal management is vital.Moreover, cross flow (交叉流) plays a significant role in aerodynamics. Aircraft wings are designed to take advantage of cross flow (交叉流) to generate lift. As air moves over and under the wing, the difference in pressure created by the cross flow (交叉流) allows the aircraft to rise into the sky. Engineers must carefully calculate the angles and shapes of wings to ensure that the cross flow (交叉流) contributes positively to the aircraft's performance.In addition to its practical applications, cross flow (交叉流) serves as a fascinating subject for academic research. Scientists study the effects of cross flow (交叉流) on sediment transport in rivers, which can help predict erosion patterns and inform environmental conservation efforts. Understanding how cross flow (交叉流) affects sediment movement allows researchers to develop better models for managing waterways and protecting ecosystems.Furthermore, the concept of cross flow (交叉流) can be observed in everyday life. For instance, when you stir a cup of coffee, the motion creates a cross flow (交叉流) of liquid that mixes the cream and coffee together. This simple action demonstrates how cross flow (交叉流) can enhance mixing and distribution, principles that are applicable in cooking, chemical reactions, and even in the human body, where blood flows through arteries and veins.In conclusion, the term cross flow (交叉流) encompasses a wide range of phenomena and applications, from natural processes to engineered systems. Its importance in fluid dynamics cannot be overstated, as it influences everything from heat transfer to aerodynamics. By understanding cross flow (交叉流), we can better appreciate the complexities of fluid behavior and harness this knowledge for practical purposes in various fields. Whether in nature or technology, cross flow (交叉流) remains a fundamental concept that continues to intrigue scientists and engineers alike.

在流体动力学的世界中，交叉流这一概念对于理解流体如何相互作用及其与周围环境的关系至关重要。这一现象发生在一种流体以垂直于另一种流体或表面的方向流动时。例如，想象一条向北流动的河流，同时强风从东面吹来。水和空气之间的相互作用产生了交叉流，这可以影响水的运动以及其中颗粒的扩散。交叉流不仅在自然水体中具有重要意义；它在各种工程应用中也至关重要。在热交换器的设计中，工程师们通常利用交叉流配置来最大化两种流体之间的热量传递。通过允许一种流体横穿另一种流体，他们可以增加热交换的表面积，提高效率和性能。这一原理在发电和化工等行业尤为重要，因为最佳的热管理至关重要。此外，交叉流在空气动力学中也扮演了重要角色。飞机机翼的设计利用交叉流来产生升力。当空气在机翼上下流动时，由交叉流造成的压力差使飞机能够升空。工程师必须仔细计算机翼的角度和形状，以确保交叉流对飞机性能产生积极影响。除了实际应用，交叉流也是学术研究的一个迷人主题。科学家们研究交叉流对河流沉积物运输的影响，这有助于预测侵蚀模式并为环境保护工作提供信息。理解交叉流如何影响沉积物运动使研究人员能够开发更好的水道管理模型，从而保护生态系统。此外，交叉流的概念可以在日常生活中观察到。例如，当你搅拌一杯咖啡时，搅动的动作会产生交叉流，将奶油和咖啡混合在一起。这一简单的动作展示了交叉流如何增强混合和分布，这些原理在烹饪、化学反应甚至人体内的血液在动脉和静脉中的流动中都是适用的。总之，术语交叉流涵盖了一系列现象和应用，从自然过程到工程系统。它在流体动力学中的重要性不容小觑，因为它影响着从热量传递到空气动力学的方方面面。通过理解交叉流，我们可以更好地欣赏流体行为的复杂性，并利用这些知识在各个领域中实现实际目的。无论是在自然界还是技术领域，交叉流仍然是一个基本概念，持续吸引着科学家和工程师的关注。