non-uniform stream

简明释义

非均匀流

英英释义

例句

1.A non-uniform stream 非均匀流 of traffic can create congestion in urban environments.

城市环境中的非均匀流交通可能会造成拥堵。

2.The study analyzed how a non-uniform stream 非均匀流 affects sediment transport in coastal areas.

研究分析了非均匀流如何影响沿海地区的沉积物运输。

3.The research focused on the effects of a non-uniform stream 非均匀流 in a river on aquatic life.

研究关注了河流中非均匀流对水生生物的影响。

4.Engineers must consider the impact of a non-uniform stream 非均匀流 when designing hydraulic systems.

工程师在设计液压系统时必须考虑非均匀流的影响。

5.In climate modeling, a non-uniform stream 非均匀流 of air can lead to unpredictable weather patterns.

在气候模型中，非均匀流的空气可能导致不可预测的天气模式。

作文

In the study of fluid dynamics, the term non-uniform stream refers to a flow where the velocity and other properties of the fluid vary from one point to another. This concept is crucial for understanding many real-world applications, such as weather patterns, ocean currents, and even blood flow in our bodies. Unlike a uniform stream, where the flow characteristics remain consistent throughout, a non-uniform stream presents a more complex scenario that requires careful analysis and modeling.To illustrate the significance of a non-uniform stream, consider the example of a river. As water flows downstream, it encounters various obstacles such as rocks, bends, and changes in the riverbed. These factors cause fluctuations in speed and direction, resulting in a non-uniform stream. Understanding these variations is essential for ecologists who study aquatic life, as different species thrive in distinct flow conditions. For instance, some fish prefer faster currents while others seek calmer waters. Therefore, the health of an ecosystem can often be linked to the nature of its non-uniform stream.Moreover, the concept of non-uniform stream extends beyond natural environments and into engineered systems. In civil engineering, when designing drainage systems or water supply networks, engineers must account for the non-uniform stream behavior of fluids to ensure efficiency and effectiveness. If they fail to do so, it could lead to flooding or inadequate water distribution, highlighting the practical importance of understanding this phenomenon.In the context of aerodynamics, the non-uniform stream also plays a vital role. Aircraft wings are designed to manipulate airflow, creating areas of high and low pressure. The air flowing over the wing is not uniform; it varies in speed and pressure due to the shape of the wing and the angle of attack. Understanding these non-uniform streams is critical for engineers to enhance aircraft performance and safety. Any miscalculation can lead to disastrous consequences, emphasizing the need for precise modeling of non-uniform streams in aviation.Furthermore, in the realm of technology, the concept of non-uniform stream is increasingly relevant in data transmission. In networking, data packets may not travel uniformly across a network due to various factors such as bandwidth limitations, congestion, and routing paths. This non-uniform stream of data can affect the quality of service and user experience. Network engineers work diligently to optimize these flows, ensuring that data reaches its destination efficiently despite the inherent non-uniform stream characteristics.In conclusion, the term non-uniform stream encapsulates a fundamental aspect of fluid dynamics and its applications across various fields. Whether in nature, engineering, aerodynamics, or technology, recognizing and understanding the implications of non-uniform streams is essential for innovation and problem-solving. As we continue to explore and manipulate our environments, the knowledge of how to manage non-uniform streams will undoubtedly play a pivotal role in our advancements and sustainability efforts.

在流体动力学研究中，术语非均匀流指的是流体的速度和其他特性在不同点之间变化的流动。这一概念对于理解许多现实世界的应用至关重要，例如天气模式、海洋洋流，甚至我们体内的血液流动。与流动特征在整个过程中保持一致的均匀流相比，非均匀流呈现出更复杂的情况，需要仔细分析和建模。为了说明非均匀流的重要性，可以考虑河流的例子。当水流向下游时，它遇到各种障碍物，如岩石、弯道和河床的变化。这些因素导致速度和方向的波动，从而产生非均匀流。理解这些变化对于研究水生生物的生态学家至关重要，因为不同物种在不同的流动条件下繁衍生息。例如，一些鱼类喜欢快速的水流，而另一些则寻求平静的水域。因此，生态系统的健康往往可以与其非均匀流的性质联系起来。此外，非均匀流的概念不仅限于自然环境，还扩展到工程系统。在土木工程中，在设计排水系统或供水网络时，工程师必须考虑流体的非均匀流行为，以确保效率和有效性。如果他们未能做到这一点，可能会导致洪水或水分配不足，突显了理解这一现象的实际重要性。在空气动力学的背景下，非均匀流也发挥着至关重要的作用。飞机机翼的设计旨在操控气流，创造高压和低压区域。流经机翼的空气并不均匀；由于机翼的形状和迎角，速度和压力各不相同。理解这些非均匀流对工程师提升飞机性能和安全性至关重要。任何计算错误都可能导致灾难性的后果，强调了在航空领域精确建模非均匀流的必要性。此外，在技术领域，非均匀流的概念在数据传输中越来越相关。在网络中，数据包的传输可能因带宽限制、拥塞和路由路径等各种因素而不均匀。这种非均匀流的数据可能影响服务质量和用户体验。网络工程师努力优化这些流量，确保数据尽管具有固有的非均匀流特性，仍能高效到达目的地。总之，术语非均匀流概括了流体动力学及其在各个领域应用的基本方面。无论是在自然界、工程、空气动力学还是技术领域，认识和理解非均匀流的影响对于创新和解决问题至关重要。随着我们继续探索和操控我们的环境，管理非均匀流的知识无疑将在我们的进步和可持续发展努力中发挥关键作用。