backing turbine

简明释义

倒车涡轮

英英释义

例句

1.The backing turbine is crucial for stabilizing the system during peak load times.

背压涡轮在高峰负载期间对稳定系统至关重要。

2.Maintenance workers inspected the backing turbine for any signs of wear and tear.

维修工人检查了背压涡轮是否有磨损迹象。

3.During the test, the backing turbine showed a significant reduction in noise levels.

在测试过程中，背压涡轮显示出显著的噪音水平降低。

4.The power plant relies heavily on the performance of its backing turbine for energy generation.

发电厂在能源生产中高度依赖其背压涡轮的性能。

5.The engineer adjusted the settings on the backing turbine to improve efficiency.

工程师调整了背压涡轮的设置以提高效率。

作文

In the world of renewable energy, wind power has emerged as one of the most promising sources of clean energy. Among the various components that make up a wind turbine, the term backing turbine refers to a crucial part of the system that ensures optimal performance and efficiency. The backing turbine (支撑涡轮) plays a vital role in stabilizing the overall structure of the turbine while also contributing to its ability to harness wind energy effectively.Wind turbines consist of several key elements, including the rotor, nacelle, and tower. The rotor captures the kinetic energy from the wind, converting it into mechanical energy. However, without the support of the backing turbine (支撑涡轮), the rotor could face challenges in maintaining its stability during high winds or turbulent conditions. This is where the backing turbine comes into play, providing necessary support and ensuring that the turbine can operate safely and efficiently.One of the primary functions of the backing turbine (支撑涡轮) is to absorb excess forces generated by the rotor's movement. When the wind speed fluctuates, the rotor experiences varying levels of stress. The backing turbine helps distribute these forces evenly across the turbine structure, reducing the risk of mechanical failure and prolonging the lifespan of the turbine. This is particularly important in regions where wind patterns are unpredictable, as it allows for a more resilient design that can withstand extreme weather conditions.Moreover, the backing turbine (支撑涡轮) also aids in improving the overall efficiency of the wind turbine. By stabilizing the rotor and minimizing vibrations, it allows for a smoother operation, which translates to more consistent energy production. This efficiency is critical for maximizing the output of wind farms, making them more economically viable and environmentally friendly.In recent years, advancements in technology have led to the development of more sophisticated backing turbines (支撑涡轮). Engineers are now able to design these components using lightweight yet durable materials, which not only enhances their performance but also reduces the overall weight of the turbine. This reduction in weight is beneficial for installation and maintenance, as it allows for easier transportation and setup of wind turbines in various locations.Furthermore, the integration of smart technologies into the design of backing turbines (支撑涡轮) has opened new avenues for monitoring and optimization. Sensors can be installed to track the performance of the backing turbine, providing real-time data that can be analyzed to improve operational efficiency. This data-driven approach enables operators to make informed decisions regarding maintenance and adjustments, ultimately leading to higher energy yields.In conclusion, the backing turbine (支撑涡轮) is an essential component of modern wind turbines, contributing significantly to their stability and efficiency. As the demand for renewable energy continues to grow, understanding the importance of the backing turbine will become increasingly crucial for engineers and developers in the field. By investing in innovative designs and technologies, the wind energy sector can continue to thrive, providing sustainable solutions for our planet's energy needs.

在可再生能源的世界中，风能已成为最有前景的清洁能源之一。在风力涡轮机的各个组成部分中，术语backing turbine（支撑涡轮）指的是确保最佳性能和效率的系统关键部分。backing turbine（支撑涡轮）在稳定涡轮机的整体结构方面发挥着至关重要的作用，同时也有助于其有效利用风能。风力涡轮机由几个关键元素组成，包括转子、机舱和塔架。转子捕获来自风的动能，并将其转换为机械能。然而，如果没有backing turbine（支撑涡轮）的支持，转子在高风或湍流条件下可能会面临保持稳定性的挑战。这就是backing turbine（支撑涡轮）发挥作用的地方，它提供必要的支持，确保涡轮机能够安全高效地运行。backing turbine（支撑涡轮）的主要功能之一是吸收转子运动产生的多余力量。当风速波动时，转子会经历不同程度的压力。backing turbine（支撑涡轮）帮助将这些力量均匀分布到涡轮机结构上，从而减少机械故障的风险，延长涡轮机的使用寿命。这在风向不稳定的地区尤为重要，因为它允许设计更具韧性的涡轮机，可以承受极端天气条件。此外，backing turbine（支撑涡轮）还有助于提高风力涡轮机的整体效率。通过稳定转子并最小化振动，它使得操作更加平稳，这转化为更一致的能源生产。这种效率对于最大化风电场的输出至关重要，使其在经济上更具可行性和环境友好性。近年来，技术的进步促使开发出更复杂的backing turbines（支撑涡轮）。工程师现在能够使用轻质但耐用的材料设计这些组件，这不仅增强了它们的性能，还减少了涡轮机的整体重量。这种重量的减轻对安装和维护是有益的，因为它使得在各种位置运输和设置风力涡轮机变得更加容易。此外，将智能技术集成到backing turbines（支撑涡轮）的设计中，为监测和优化开辟了新的途径。可以安装传感器来跟踪backing turbine的性能，提供实时数据以进行分析，从而提高操作效率。这种基于数据的方法使操作员能够就维护和调整做出明智的决策，最终导致更高的能源产量。总之，backing turbine（支撑涡轮）是现代风力涡轮机的重要组成部分，对其稳定性和效率贡献巨大。随着对可再生能源需求的不断增长，理解backing turbine的重要性将对该领域的工程师和开发者变得越来越重要。通过投资创新设计和技术，风能行业能够继续蓬勃发展，为我们星球的能源需求提供可持续的解决方案。