axial flow turbine

简明释义

1. 轴流式汽轮机; 2. 轴流式透平;

英英释义

例句

1.The axial flow turbine 轴流涡轮机 operates by allowing fluid to flow parallel to the axis of rotation.

轴流涡轮机通过允许流体沿旋转轴平行流动来工作。

2.The efficiency of an axial flow turbine 轴流涡轮机 can be affected by the angle of the blades.

轴流涡轮机的效率可能会受到叶片角度的影响。

3.The design of the axial flow turbine 轴流涡轮机 allows for higher efficiency in power generation.

这种轴流涡轮机的设计使得发电效率更高。

4.Engineers prefer the axial flow turbine 轴流涡轮机 for its compact design and high output.

工程师们喜欢使用轴流涡轮机，因为它设计紧凑且输出功率高。

5.In hydroelectric plants, an axial flow turbine 轴流涡轮机 is often used to convert water flow into electricity.

在水电站中，通常使用轴流涡轮机将水流转化为电能。

作文

The evolution of energy generation technologies has led to significant advancements in various types of turbines used in power plants. One such type is the axial flow turbine, which plays a crucial role in the efficiency and effectiveness of modern energy systems. This essay aims to explore the design, functionality, and applications of the axial flow turbine, highlighting its importance in the field of engineering and energy production.An axial flow turbine is a type of turbine where the flow of fluid moves parallel to the axis of rotation. This design allows for high efficiency and performance, making it ideal for a variety of applications, including hydroelectric power plants, gas turbines, and jet engines. The fundamental principle behind the axial flow turbine is based on the conversion of kinetic energy from the moving fluid into mechanical energy, which can then be utilized to generate electricity or provide propulsion.One of the key advantages of the axial flow turbine is its ability to handle large volumes of fluid at relatively low pressure drops. This characteristic makes it particularly suitable for applications where high flow rates are required, such as in hydroelectric dams, where water flows through the turbine to generate electricity. The design of the blades in an axial flow turbine is critical, as they must be shaped to optimize the interaction with the flowing fluid, maximizing energy extraction while minimizing losses due to turbulence.In addition to hydroelectric applications, axial flow turbines are also widely used in the aviation industry. Jet engines, for instance, rely on these turbines to compress air and extract energy from combustion gases. The efficiency of an axial flow turbine in this context is vital for the overall performance of the engine, influencing fuel consumption and thrust generation. Engineers continuously work on improving the design and materials used in axial flow turbines to enhance their performance and durability under extreme conditions.Moreover, the environmental impact of energy production has led to increased interest in renewable sources. Axial flow turbines are being adapted for use in wind energy systems, where they can convert the kinetic energy of wind into electrical power. The integration of axial flow turbines in wind farms demonstrates their versatility and adaptability to different energy sources, contributing to a more sustainable future.In conclusion, the axial flow turbine represents a significant advancement in turbine technology, offering high efficiency and versatility across various applications. Its design allows for effective energy conversion, making it essential in power generation, aviation, and renewable energy sectors. As we continue to seek innovative solutions for energy challenges, the role of axial flow turbines will undoubtedly remain pivotal in shaping the future of energy production and consumption.

能源生成技术的演变导致了电厂中各种涡轮机的重要进展。其中一种类型是轴流涡轮机，它在现代能源系统的效率和有效性中发挥着至关重要的作用。本文旨在探讨轴流涡轮机的设计、功能和应用，突出其在工程和能源生产领域的重要性。轴流涡轮机是一种涡轮，其流体流动与旋转轴平行。这种设计允许高效率和性能，使其非常适合用于水电站、燃气涡轮和喷气发动机等各种应用。轴流涡轮机的基本原理基于将流动液体的动能转化为机械能，从而可以用来发电或提供推进。轴流涡轮机的一个主要优点是其能够在相对较低的压力降下处理大量流体。这一特性使其特别适合需要高流量的应用，例如在水电大坝中，水流过涡轮以发电。轴流涡轮机中叶片的设计至关重要，因为它们必须形状优化，以最大化与流动液体的相互作用，最大限度地提取能量，同时最小化因湍流造成的损失。除了水电应用外，轴流涡轮机还广泛应用于航空工业。例如，喷气发动机依赖这些涡轮来压缩空气并从燃烧气体中提取能量。在这种情况下，轴流涡轮机的效率对发动机的整体性能至关重要，影响燃料消耗和推力产生。工程师们不断致力于改进轴流涡轮机的设计和材料，以提高其在极端条件下的性能和耐久性。此外，能源生产的环境影响引起了人们对可再生能源的兴趣。轴流涡轮机正在被改编用于风能系统，在这些系统中，它们可以将风的动能转化为电能。轴流涡轮机在风电场中的应用展示了它们的多样性和适应性，有助于实现更加可持续的未来。总之，轴流涡轮机代表了涡轮技术的重要进展，提供了高效率和多功能性，适用于各种应用。其设计允许有效的能量转化，使其在发电、航空和可再生能源领域至关重要。随着我们继续寻求能源挑战的创新解决方案，轴流涡轮机的角色无疑将在塑造未来的能源生产和消费中保持关键地位。