turbo-electric installation

简明释义

涡轮机电力装置

英英释义

例句

1.The efficiency of the turbo-electric installation directly impacts the overall performance of the aircraft.

涡轮电气装置的效率直接影响飞机的整体性能。

2.In modern submarines, the turbo-electric installation plays a crucial role in silent operations.

在现代潜艇中，涡轮电气装置在静默行动中发挥着至关重要的作用。

3.Engineers are developing new technologies to enhance the turbo-electric installation for better energy recovery.

工程师们正在开发新技术，以增强涡轮电气装置以实现更好的能量回收。

4.The power generation from the turbo-electric installation is essential for onboard systems.

来自涡轮电气装置的电力生成对船上系统至关重要。

5.The ship's propulsion system relies on a reliable turbo-electric installation to ensure smooth navigation.

这艘船的推进系统依赖于可靠的涡轮电气装置以确保顺利航行。

作文

In the realm of modern engineering, the term turbo-electric installation refers to a sophisticated system that combines turbo machinery with electric power generation and distribution. This technology is pivotal in various industries, particularly in maritime and aerospace applications. The essence of turbo-electric installation lies in its ability to convert kinetic energy from turbines into electrical energy, which can then be utilized to power various systems and equipment. This process not only enhances efficiency but also reduces emissions, making it an environmentally friendly option compared to traditional mechanical systems.The operation of a turbo-electric installation typically begins with a turbine, which is driven by steam, gas, or water. As the turbine spins, it generates mechanical energy that is then converted into electrical energy through a generator. This electrical energy can be distributed to different parts of a vessel or aircraft, powering everything from propulsion systems to onboard amenities. One of the significant advantages of using a turbo-electric installation is the flexibility it offers in terms of energy management. Operators can easily adjust the output of the generators to match the energy demands of the systems in use, ensuring optimal performance and efficiency.Moreover, the integration of turbo-electric installations in ships has revolutionized naval engineering. Traditionally, ships relied on direct mechanical drives, which limited their design and operational capabilities. However, with the advent of turbo-electric installations, ships can now utilize electric motors for propulsion, allowing for greater maneuverability and reduced noise levels. This is particularly beneficial for naval vessels, which require stealth and precision in their operations.In addition to maritime applications, turbo-electric installations are also making waves in the aviation industry. Aircraft manufacturers are exploring the potential of this technology to improve fuel efficiency and reduce carbon footprints. By harnessing the power of turbines and converting it into electricity, aircraft can operate more efficiently, thereby reducing their reliance on fossil fuels.Despite the clear benefits, implementing a turbo-electric installation comes with its challenges. The initial costs of installation can be significant, and the complexity of the systems requires skilled personnel for maintenance and operation. However, as technology advances and the demand for sustainable solutions increases, the adoption of turbo-electric installations is likely to grow.In conclusion, the turbo-electric installation represents a remarkable advancement in engineering, offering a blend of efficiency, flexibility, and environmental responsibility. As industries continue to evolve and seek innovative solutions to meet the challenges of the modern world, the role of turbo-electric installations will undoubtedly become more prominent. Understanding this technology is essential for future engineers and professionals in the field, as it will play a crucial role in shaping the future of energy generation and utilization across various sectors.

在现代工程领域，术语涡轮电力装置指的是一种将涡轮机械与电力生成和分配相结合的复杂系统。这项技术在各个行业中都至关重要，特别是在海事和航空航天应用中。涡轮电力装置的本质在于它能够将涡轮的动能转化为电能，然后用于为各种系统和设备供电。这一过程不仅提高了效率，还减少了排放，使其成为比传统机械系统更环保的选择。涡轮电力装置的操作通常从一个涡轮开始，该涡轮由蒸汽、气体或水驱动。当涡轮旋转时，它产生的机械能通过发电机转化为电能。这种电能可以分配到船舶或飞机的不同部分，为从推进系统到机上设施的所有设备提供动力。使用涡轮电力装置的一个显著优势是它在能源管理方面提供的灵活性。操作人员可以轻松调整发电机的输出，以匹配所用系统的能源需求，从而确保最佳性能和效率。此外，涡轮电力装置在船舶中的集成彻底改变了海军工程。传统上，船舶依赖直接机械驱动，这限制了它们的设计和操作能力。然而，随着涡轮电力装置的出现，船舶现在可以利用电动机进行推进，从而实现更大的机动性和降低噪音水平。这对于需要隐蔽和精确操作的海军舰艇尤其有利。除了海事应用，涡轮电力装置在航空工业中也正在发挥作用。飞机制造商正在探索这项技术的潜力，以提高燃油效率并减少碳足迹。通过利用涡轮的动力并将其转化为电力，飞机可以更高效地运行，从而减少对化石燃料的依赖。尽管明显的好处，实施涡轮电力装置也面临挑战。初始安装成本可能很高，并且系统的复杂性需要熟练的人员进行维护和操作。然而，随着技术的进步和对可持续解决方案需求的增加，采用涡轮电力装置的趋势可能会增长。总之，涡轮电力装置代表了工程领域的一项显著进步，提供了效率、灵活性和环境责任的结合。随着各行业不断发展，寻求创新解决方案以应对现代世界的挑战，涡轮电力装置的角色无疑会变得更加突出。理解这一技术对于未来的工程师和该领域的专业人士至关重要，因为它将在塑造各个部门能源生成和利用的未来中发挥关键作用。