hydraulicefficiency wake

简明释义

水力伴流

英英释义

例句

1.By analyzing the hydraulicefficiency wake 水力效率尾流, we can predict the environmental impact of new hydraulic structures.

通过分析hydraulicefficiency wake 水力效率尾流，我们可以预测新水利结构的环境影响。

2.Understanding the hydraulicefficiency wake 水力效率尾流 is crucial for optimizing water flow in dam designs.

理解hydraulicefficiency wake 水力效率尾流对优化水坝设计中的水流至关重要。

3.The research focused on how the hydraulicefficiency wake 水力效率尾流 affects sediment transport in rivers.

研究集中在hydraulicefficiency wake 水力效率尾流如何影响河流中的沉积物运输。

4.The simulation revealed that the hydraulicefficiency wake 水力效率尾流 could lead to energy losses in the system.

模拟显示，hydraulicefficiency wake 水力效率尾流可能导致系统中的能量损失。

5.The engineers studied the hydraulicefficiency wake 水力效率尾流 produced by the turbine to improve its performance.

工程师们研究了涡轮机产生的hydraulicefficiency wake 水力效率尾流以提高其性能。

作文

In the field of fluid dynamics, the term hydraulicefficiency wake refers to the flow patterns that occur behind a moving object, particularly in water or air. Understanding this concept is crucial for engineers and scientists who design various systems involving fluid flow, such as turbines, ships, and even aircraft. The hydraulicefficiency wake can significantly influence the performance and efficiency of these systems, making it an essential topic of study.When an object moves through a fluid, it displaces the fluid around it, creating a wake. This wake is characterized by turbulence and various flow patterns that can affect the drag force acting on the object. The hydraulicefficiency wake specifically denotes how efficiently the fluid flows in the wake region compared to the incoming flow. A more efficient wake means less energy loss, which is paramount in applications like wind turbines where maximizing energy extraction from the wind is critical.To illustrate the importance of hydraulicefficiency wake, consider the design of a wind turbine. Engineers aim to create blades that not only capture wind effectively but also minimize the turbulence created in the wake. If the wake is poorly designed, it can lead to increased drag, reducing the overall efficiency of the turbine. Therefore, understanding the hydraulicefficiency wake allows for better designs that optimize performance and energy production.Moreover, the hydraulicefficiency wake is not limited to renewable energy applications. In naval architecture, the design of ship hulls is heavily influenced by the wake produced during movement through water. A well-designed hull will create a streamlined wake, reducing resistance and improving fuel efficiency. This principle is vital for both commercial shipping and naval vessels, where operational costs are directly linked to fuel consumption.Research into hydraulicefficiency wake often involves computational fluid dynamics (CFD) simulations. These simulations allow engineers to visualize the flow patterns and analyze how different designs impact the wake. By tweaking the shape and size of an object, designers can enhance the hydraulicefficiency wake, leading to innovations in various fields, from automotive to aerospace engineering.In conclusion, the concept of hydraulicefficiency wake plays a pivotal role in the design and function of systems that interact with fluid flows. By understanding and optimizing the wake produced by moving objects, engineers can significantly improve the efficiency and performance of their designs. As technology continues to advance, the study of hydraulicefficiency wake will remain a critical area of research, driving innovations that contribute to more sustainable and efficient systems across multiple industries.

在流体动力学领域，术语hydraulicefficiency wake指的是在移动物体后方发生的流动模式，特别是在水或空气中。理解这个概念对于设计涉及流体流动的各种系统的工程师和科学家至关重要，例如涡轮机、船舶甚至飞机。hydraulicefficiency wake可以显著影响这些系统的性能和效率，因此成为一个重要的研究主题。当物体在流体中移动时，它会排开周围的流体，从而形成尾流。这个尾流的特征是湍流和各种流动模式，这可能会影响作用在物体上的阻力。hydraulicefficiency wake特别指的是尾流区域的流体流动效率与入流相比的程度。更高效的尾流意味着能量损失更少，这在风力涡轮机等应用中至关重要，因为最大化从风中提取的能量是关键。为了说明hydraulicefficiency wake的重要性，我们考虑风力涡轮机的设计。工程师们旨在创建不仅有效捕获风的叶片，而且还最小化在尾流中产生的湍流。如果尾流设计不良，可能导致阻力增加，从而降低涡轮机的整体效率。因此，理解hydraulicefficiency wake可以实现更好的设计，从而优化性能和能量生产。此外，hydraulicefficiency wake不仅限于可再生能源应用。在船舶设计中，船体的设计受到在水中移动时产生的尾流的重大影响。一个设计良好的船体将创造出流线型的尾流，减少阻力，提高燃油效率。这一原则对于商业航运和海军舰艇都是至关重要的，因为运营成本直接与燃料消耗相关。对hydraulicefficiency wake的研究通常涉及计算流体动力学（CFD）模拟。这些模拟使工程师能够可视化流动模式，并分析不同设计如何影响尾流。通过调整物体的形状和大小，设计者可以增强hydraulicefficiency wake，从而推动汽车到航空航天工程等各个领域的创新。总之，hydraulicefficiency wake的概念在与流体流动相互作用的系统的设计和功能中扮演着关键角色。通过理解和优化移动物体产生的尾流，工程师可以显著提高其设计的效率和性能。随着技术的不断进步，hydraulicefficiency wake的研究将继续成为一个关键的研究领域，推动各个行业更可持续和高效的系统的创新。