aircraft gas turbine

简明释义

航空燃气涡轮机

英英释义

例句

1.The efficiency of the aircraft gas turbine 航空发动机涡轮 is crucial for long-distance flights.

航空发动机涡轮的效率对于长途飞行至关重要。

2.Engineers are constantly researching ways to improve the performance of the aircraft gas turbine 航空发动机涡轮.

工程师们不断研究改进航空发动机涡轮性能的方法。

3.Maintenance of the aircraft gas turbine 航空发动机涡轮 is essential for flight safety.

对航空发动机涡轮的维护对飞行安全至关重要。

4.The aircraft gas turbine 航空发动机涡轮 operates at extremely high temperatures and pressures.

航空发动机涡轮在极高的温度和压力下运行。

5.The development of new materials has enhanced the durability of the aircraft gas turbine 航空发动机涡轮.

新材料的发展增强了航空发动机涡轮的耐用性。

作文

The evolution of aviation technology has been remarkable, particularly with the development of the aircraft gas turbine (航空燃气涡轮). This engine type has revolutionized the way we think about flight and has made air travel more efficient and accessible than ever before. The aircraft gas turbine operates on the principle of converting fuel into mechanical energy, which is then used to propel an aircraft forward. This process involves several key components, including the compressor, combustion chamber, and turbine itself.Initially, the concept of using gas turbines in aviation was met with skepticism. Early engines were heavy and inefficient, leading to limited performance. However, advancements in materials and engineering have transformed the aircraft gas turbine into a lightweight and powerful engine capable of generating significant thrust. Today, these engines are found in a variety of aircraft, from small regional planes to large commercial airliners.One of the most significant advantages of the aircraft gas turbine is its efficiency. Compared to piston engines, gas turbines can operate at higher altitudes and speeds, making them ideal for modern air travel. The high bypass ratio engines, which are commonly used in commercial aviation, allow for quieter operation and reduced fuel consumption. This not only benefits airlines by lowering operational costs but also contributes to a more sustainable future for air travel.Moreover, the maintenance requirements for aircraft gas turbines are relatively low compared to other engine types. While they do require regular inspections and overhauls, the overall reliability of gas turbines means that aircraft can spend more time in the air and less time in the hangar. This reliability is crucial for airlines that operate on tight schedules and need to ensure their fleets are always ready for flight.The impact of the aircraft gas turbine extends beyond just commercial aviation. Military applications have also benefited from this technology, with fighter jets and transport aircraft utilizing advanced gas turbine engines to achieve superior performance and maneuverability. The ability to generate high thrust-to-weight ratios allows military aircraft to perform complex maneuvers and respond swiftly to various tactical situations.As we look to the future, the aircraft gas turbine will continue to evolve. Researchers are exploring alternative fuels and hybrid technologies to further reduce the environmental impact of air travel. Innovations such as electric propulsion systems are also being investigated, which could lead to a new era of aviation where gas turbines play a different role or are even replaced entirely.In conclusion, the aircraft gas turbine has fundamentally changed the landscape of aviation. Its efficiency, reliability, and adaptability have made it a cornerstone of modern flight. As technology continues to advance, we can expect the aircraft gas turbine to adapt and innovate, ensuring that it remains an integral part of the aviation industry for years to come.

航空技术的演变是显著的，特别是在航空燃气涡轮（aircraft gas turbine）的发展上。这种发动机类型彻底改变了我们对飞行的思考方式，使航空旅行比以往任何时候都更加高效和可及。航空燃气涡轮的工作原理是将燃料转化为机械能，然后用于推动飞机前进。这个过程涉及几个关键组件，包括压缩机、燃烧室和涡轮本身。最初，使用燃气涡轮在航空领域的概念遭到质疑。早期的发动机笨重且效率低下，导致性能有限。然而，材料和工程的进步使得航空燃气涡轮转变为一种轻巧而强大的发动机，能够产生显著的推力。如今，这些发动机被广泛应用于各种飞机，从小型区域飞机到大型商业客机。航空燃气涡轮的一个显著优势是其效率。与活塞发动机相比，燃气涡轮能够在更高的高度和速度下运行，使其成为现代航空旅行的理想选择。高旁通比发动机，通常用于商业航空，允许更安静的操作和减少的燃料消耗。这不仅使航空公司受益于降低运营成本，还为航空旅行的可持续未来做出了贡献。此外，航空燃气涡轮的维护要求相对较低，与其他发动机类型相比。虽然它们确实需要定期检查和大修，但燃气涡轮的整体可靠性意味着飞机可以在空中停留更长时间，而不是在机库中。这种可靠性对于在紧张时间表下运营的航空公司至关重要，他们需要确保他们的机队随时准备飞行。航空燃气涡轮的影响不仅限于商业航空。军事应用也从这项技术中受益，战斗机和运输机利用先进的燃气涡轮发动机实现卓越的性能和机动性。产生高推重比的能力使得军用飞机能够执行复杂的机动，并迅速响应各种战术情况。展望未来，航空燃气涡轮将继续演变。研究人员正在探索替代燃料和混合技术，以进一步减少航空旅行对环境的影响。电动推进系统等创新也正在研究中，这可能会导致航空的新纪元，在这个时代，燃气涡轮发挥不同的作用，甚至完全被取代。总之，航空燃气涡轮从根本上改变了航空业的格局。其效率、可靠性和适应性使其成为现代飞行的基石。随着技术的不断进步，我们可以期待航空燃气涡轮适应和创新，确保它在未来几年继续作为航空工业的重要组成部分。