turbine driven auxiliary unit

简明释义

涡轮驱动辅机组

英英释义

例句

1.The aircraft's performance was enhanced by the addition of a turbine driven auxiliary unit, which provides extra power during takeoff.

飞机的性能通过增加一个涡轮驱动辅助装置得到了提升，该装置在起飞时提供额外的动力。

2.The maintenance team reported that the turbine driven auxiliary unit had a minor leak that needed immediate attention.

维护团队报告说，涡轮驱动辅助装置有一个小泄漏，需要立即处理。

3.Using a turbine driven auxiliary unit can significantly reduce fuel consumption in hybrid power systems.

使用涡轮驱动辅助装置可以显著减少混合动力系统中的燃料消耗。

4.In marine applications, a turbine driven auxiliary unit is essential for powering onboard systems when the main engine is not running.

在海洋应用中，涡轮驱动辅助装置对于在主发动机未运行时为船上系统供电至关重要。

5.The design of the turbine driven auxiliary unit allows for easy integration with existing power systems.

该涡轮驱动辅助装置的设计允许与现有电力系统的轻松集成。

作文

In modern engineering and technology, various systems are designed to enhance efficiency and performance. One such integral component is the turbine driven auxiliary unit, which plays a vital role in numerous applications, particularly in aviation and power generation. Understanding the function and significance of this unit can provide insights into its importance in contemporary machinery.A turbine driven auxiliary unit refers to a system that harnesses the mechanical energy produced by a turbine to drive auxiliary functions or systems within a larger framework. This could include hydraulic systems, electrical generators, or air conditioning units. By utilizing the energy generated by the turbine, these auxiliary units can operate independently or in conjunction with the primary systems, ensuring optimal performance and reliability.In aviation, for instance, the turbine driven auxiliary unit is crucial for powering various onboard systems that are essential for flight safety and comfort. These units often supply electricity for lighting, climate control, and avionics, especially when the aircraft is on the ground or during specific phases of flight. The efficiency of these units can significantly impact fuel consumption and overall operational costs. Therefore, advancements in turbine technology directly influence the performance of these auxiliary systems.Moreover, in power generation facilities, the turbine driven auxiliary unit is instrumental in improving the overall efficiency of power plants. These units can assist in managing excess energy produced during peak operation times, converting it into usable power for auxiliary services. This not only maximizes the output of the primary turbine but also ensures that all auxiliary systems remain operational without compromising the main power generation process.The design of a turbine driven auxiliary unit must consider several factors, including energy efficiency, weight, and compatibility with existing systems. Engineers often focus on optimizing these units to minimize energy loss and maximize output. Innovations in materials and design techniques have led to lighter and more efficient units that can operate under extreme conditions, further enhancing their applicability across different industries.In conclusion, the turbine driven auxiliary unit is a key component in many modern technological systems, providing essential support to primary operations. Its ability to efficiently convert turbine energy into useful work makes it indispensable in sectors like aviation and power generation. As technology continues to evolve, the role of these auxiliary units will likely expand, leading to even greater efficiencies and capabilities in various applications. Understanding and improving these systems will remain a critical focus for engineers and designers alike, as they strive to meet the demands of an increasingly energy-conscious world.

在现代工程和技术中，各种系统的设计旨在提高效率和性能。其中一个重要组成部分是涡轮驱动辅助单元，它在许多应用中发挥着至关重要的作用，尤其是在航空和发电领域。理解这个单元的功能和重要性可以深入了解其在当代机械中的重要性。涡轮驱动辅助单元是指一种利用涡轮产生的机械能来驱动更大框架内的辅助功能或系统的系统。这可能包括液压系统、电力发电机或空调单元。通过利用涡轮产生的能量，这些辅助单元可以独立运行，也可以与主要系统协同工作，从而确保最佳性能和可靠性。例如，在航空领域，涡轮驱动辅助单元对为飞行安全和舒适提供动力的各种机载系统至关重要。这些单元通常在飞机停场或飞行的特定阶段提供照明、气候控制和航空电子设备所需的电力。这些单元的效率可以显著影响燃料消耗和整体运营成本。因此，涡轮技术的进步直接影响到这些辅助系统的性能。此外，在发电设施中，涡轮驱动辅助单元对于提高发电厂的整体效率至关重要。这些单元可以帮助管理在高峰运行时产生的多余能量，将其转化为辅助服务所需的可用电力。这不仅最大化了主涡轮的输出，还确保所有辅助系统在不妨碍主要发电过程的情况下保持运行。涡轮驱动辅助单元的设计必须考虑多个因素，包括能效、重量和与现有系统的兼容性。工程师通常专注于优化这些单元，以最小化能量损失并最大化输出。材料和设计技术的创新导致了更轻、更高效的单元，这些单元能够在极端条件下运行，进一步增强了它们在不同工业中的适用性。总之，涡轮驱动辅助单元是许多现代技术系统中的关键组件，为主要操作提供必要的支持。它将涡轮能量有效转化为有用工作的能力使其在航空和发电等领域不可或缺。随着技术的不断发展，这些辅助单元的作用可能会扩大，从而在各种应用中实现更大的效率和能力。理解和改进这些系统将始终是工程师和设计师的关键关注点，因为他们努力满足日益关注能源的世界的需求。