non-uniform inflow

简明释义

非均匀流入

英英释义

例句

1.The river experienced a non-uniform inflow due to recent rainfall, causing varying water levels along its banks.

由于最近的降雨，这条河流经历了不均匀的流入，导致沿岸水位变化。

2.The non-uniform inflow of customers at different times of the day poses challenges for staffing.

一天中不同时间的顾客不均匀流入给人员配置带来了挑战。

3.Engineers are studying the effects of non-uniform inflow on the performance of the turbine.

工程师们正在研究不均匀流入对涡轮性能的影响。

4.The design of the dam must account for non-uniform inflow from tributaries during the rainy season.

大坝的设计必须考虑到雨季支流的不均匀流入。

5.In the experiment, we observed a non-uniform inflow of air into the chamber, affecting the pressure readings.

在实验中，我们观察到空气以不均匀的流入进入腔体，影响了压力读数。

作文

In the study of fluid dynamics, the concept of non-uniform inflow plays a crucial role in understanding how fluids behave as they enter a system. 非均匀流入 refers to a situation where the velocity, density, or other properties of the fluid entering a given area are not consistent across the entire cross-section. This phenomenon can significantly affect the performance and efficiency of various engineering systems, including pumps, turbines, and even natural water bodies like rivers and lakes.Consider a practical example: when designing a dam, engineers must take into account how water flows into the reservoir. If the inflow is non-uniform, it could lead to uneven pressure distribution on the dam structure, potentially causing stress points that may lead to structural failure. Understanding the characteristics of non-uniform inflow allows engineers to devise strategies to mitigate risks, such as reinforcing certain areas of the dam or implementing flow control measures.Moreover, non-uniform inflow can also have implications for environmental studies. In natural ecosystems, varying inflow rates can influence sediment transport, nutrient distribution, and the overall health of aquatic habitats. For instance, if a river experiences a non-uniform inflow due to seasonal changes or human activities, it can lead to detrimental effects on fish populations and plant life along the banks. Researchers often measure and analyze these inflows to develop conservation strategies that protect these fragile ecosystems.In the context of industrial applications, non-uniform inflow can impact processes such as mixing, heat exchange, and chemical reactions. For example, in a chemical reactor, if the reactants are introduced at varying rates or concentrations, the reaction may not proceed uniformly, leading to inefficiencies or even hazardous situations. Engineers must carefully design inlet systems to ensure a more uniform distribution of materials, thus enhancing the overall effectiveness of the process.Furthermore, computational fluid dynamics (CFD) simulations have become essential tools for analyzing non-uniform inflow. These simulations allow scientists and engineers to visualize how fluids interact with structures and predict the outcomes of different inflow scenarios. By manipulating variables such as inflow velocity and direction, researchers can gain insights into optimizing designs and operations across various fields.In conclusion, the understanding of non-uniform inflow is vital across multiple disciplines, from civil engineering to environmental science and industrial processes. By recognizing the complexities associated with 非均匀流入, professionals can make informed decisions that enhance safety, efficiency, and ecological balance. As technology advances, the ability to accurately model and predict the effects of non-uniform inflow will continue to improve, paving the way for innovative solutions to some of the most pressing challenges in fluid dynamics today.

在流体动力学研究中，非均匀流入的概念在理解流体如何进入系统时起着至关重要的作用。non-uniform inflow指的是流体在进入特定区域时，其速度、密度或其他属性在整个横截面上不一致的情况。这种现象会显著影响各种工程系统的性能和效率，包括泵、涡轮，甚至是河流和湖泊等自然水体。考虑一个实际的例子：在设计大坝时，工程师必须考虑水流入水库的方式。如果流入是非均匀的，可能导致大坝结构上的压力分布不均，从而产生应力点，可能导致结构失效。了解non-uniform inflow的特性使工程师能够制定减轻风险的策略，例如加固大坝的某些区域或实施流量控制措施。此外，non-uniform inflow也可能对环境研究产生影响。在自然生态系统中，变化的流入速率可能影响沉积物运输、养分分布以及水生栖息地的整体健康。例如，如果一条河流由于季节变化或人类活动经历了非均匀流入，可能会对沿岸的鱼类种群和植物生命造成不利影响。研究人员通常会测量和分析这些流入，以制定保护这些脆弱生态系统的保护策略。在工业应用的背景下，non-uniform inflow可能会影响混合、热交换和化学反应等过程。例如，在化学反应器中，如果反应物以不同的速率或浓度引入，反应可能不会均匀进行，从而导致效率低下甚至危险情况。工程师必须仔细设计进料系统，以确保材料的更均匀分布，从而提高过程的整体有效性。此外，计算流体动力学（CFD）模拟已成为分析non-uniform inflow的重要工具。这些模拟使科学家和工程师能够可视化流体与结构的相互作用，并预测不同流入场景的结果。通过操纵流入速度和方向等变量，研究人员可以深入了解优化设计和操作的方式。总之，理解non-uniform inflow在多个学科中至关重要，从土木工程到环境科学再到工业过程。通过认识到与非均匀流入相关的复杂性，专业人士可以做出明智的决策，从而增强安全性、效率和生态平衡。随着技术的进步，准确建模和预测non-uniform inflow影响的能力将继续改善，为解决当今流体动力学中一些最紧迫的挑战铺平道路。