auxiliary turbine

简明释义

辅涡轮机

英英释义

例句

1.In case of a primary failure, the auxiliary turbine can quickly take over to maintain operations.

在主要故障的情况下，辅助涡轮机可以迅速接管以维持操作。

2.The auxiliary turbine provides additional power when the main engine is under heavy load.

当主引擎负荷过重时，辅助涡轮机提供额外的动力。

3.The design of the auxiliary turbine allows for quick startup and shutdown.

该辅助涡轮机的设计允许快速启动和关闭。

4.The ship's power system includes an auxiliary turbine for backup energy generation.

船舶的电力系统包括一个辅助涡轮机用于备用能源的产生。

5.During maintenance, the engineers tested the auxiliary turbine to ensure it was functioning properly.

在维护期间，工程师测试了辅助涡轮机以确保其正常运作。

作文

In the realm of engineering and power generation, the term auxiliary turbine refers to a secondary turbine that is employed to support the primary system. These turbines play a crucial role in enhancing the efficiency and reliability of various industrial processes. Understanding the function and importance of an auxiliary turbine is essential for anyone involved in energy production or mechanical engineering. An auxiliary turbine is typically used in conjunction with a main turbine, which is responsible for generating the majority of the power output in a facility. The primary turbine may be a steam turbine, gas turbine, or hydro turbine, depending on the source of energy being utilized. In contrast, the auxiliary turbine serves to provide additional power or to perform specific tasks that support the overall operation of the plant. For instance, it may be used to drive pumps, compressors, or other machinery that are necessary for the functioning of the primary turbine. One of the key advantages of using an auxiliary turbine is its ability to improve the overall efficiency of the power generation system. By allowing the main turbine to focus on its primary function—power generation—the auxiliary turbine can handle auxiliary tasks without overloading the main system. This division of labor not only enhances efficiency but also extends the lifespan of the main turbine by reducing wear and tear. Moreover, auxiliary turbines can be designed to operate under different conditions than the primary turbine, making them versatile tools in a power plant. For example, an auxiliary turbine might be optimized for lower pressure or temperature conditions, allowing it to generate power in situations where the main turbine would be less effective. This flexibility can be particularly beneficial in renewable energy applications, where variable conditions are common. In addition to improving efficiency and reliability, auxiliary turbines also contribute to the safety of power generation systems. By providing backup power for essential systems, they ensure that critical operations can continue even in the event of a failure of the main turbine. This redundancy is vital in industries where continuous operation is necessary, such as in hospitals or data centers. Furthermore, the implementation of auxiliary turbines can lead to significant cost savings for power generation facilities. By optimizing the overall efficiency of the system, these turbines help reduce fuel consumption and operational costs. Additionally, their ability to provide backup power can prevent costly downtime, further enhancing the economic viability of the operation. In conclusion, the auxiliary turbine plays a pivotal role in modern engineering and power generation. Its ability to enhance efficiency, improve reliability, and contribute to safety makes it an invaluable component in many industrial applications. As the demand for energy continues to grow, the importance of understanding and utilizing technologies like the auxiliary turbine will only increase. Engineers and industry professionals must recognize the benefits of these secondary turbines and incorporate them into their designs to optimize performance and sustainability in power generation.

在工程和发电领域，短语auxiliary turbine指的是用于支持主要系统的辅助涡轮。这些涡轮在提高各种工业过程的效率和可靠性方面发挥着至关重要的作用。理解和掌握auxiliary turbine的功能和重要性对于任何参与能源生产或机械工程的人来说都是必不可少的。auxiliary turbine通常与主涡轮一起使用，主涡轮负责在设施中生成大部分电力输出。主涡轮可能是蒸汽涡轮、燃气涡轮或水涡轮，具体取决于所利用的能源来源。相比之下，auxiliary turbine用于提供额外的动力或执行支持主涡轮整体运行的特定任务。例如，它可以用于驱动泵、压缩机或其他必要的机器，以确保主涡轮的正常运作。使用auxiliary turbine的一个主要优势是它能够提高整个发电系统的效率。通过使主涡轮专注于其主要功能——发电，auxiliary turbine可以在不超负荷主系统的情况下处理辅助任务。这种分工不仅提高了效率，还通过减少磨损来延长主涡轮的使用寿命。此外，auxiliary turbines的设计可以在与主涡轮不同的条件下运行，使其成为发电厂中的多功能工具。例如，auxiliary turbine可以针对较低的压力或温度条件进行优化，从而允许其在主涡轮效率较低的情况下发电。这种灵活性在可再生能源应用中尤为有益，因为可变条件是常见的。除了提高效率和可靠性，auxiliary turbines还为发电系统的安全性做出了贡献。通过为关键系统提供备用电源，它们确保即使在主涡轮发生故障的情况下，关键操作也能继续进行。这种冗余在医院或数据中心等需要持续运行的行业中至关重要。此外，实施auxiliary turbines可以为发电设施带来显著的成本节约。通过优化系统的整体效率，这些涡轮有助于减少燃料消耗和运营成本。此外，它们提供备用电源的能力可以防止昂贵的停机，从而进一步提高运营的经济可行性。总之，auxiliary turbine在现代工程和发电中发挥着关键作用。它提高效率、改善可靠性和促进安全性的能力使其成为许多工业应用中不可或缺的组成部分。随着对能源需求的不断增长，理解和利用像auxiliary turbine这样的技术的重要性只会增加。工程师和行业专业人士必须认识到这些辅助涡轮的好处，并将其纳入设计中，以优化发电的性能和可持续性。