aviation gasline

简明释义

航空汽油

英英释义

例句

1.The aviation gasline 航空汽油 used in this aircraft is specifically formulated for high performance.

这架飞机使用的aviation gasline 航空汽油是专门配方以达到高性能的。

2.Before flying, it's crucial to verify the quality of the aviation gasline 航空汽油 to avoid engine issues.

在飞行之前，验证aviation gasline 航空汽油的质量至关重要，以避免发动机问题。

3.The pilot checked the fuel levels before takeoff to ensure there was enough aviation gasline 航空汽油 for the flight.

飞行员在起飞前检查燃料水平，以确保有足够的aviation gasline 航空汽油供飞行使用。

4.The airport has a dedicated refueling station for aviation gasline 航空汽油 to service small aircraft.

机场有一个专门的加油站，提供aviation gasline 航空汽油为小型飞机服务。

5.During the maintenance check, the technician found a leak in the aviation gasline 航空汽油 system.

在维护检查中，技术人员发现aviation gasline 航空汽油系统有泄漏。

作文

Aviation is a crucial part of modern transportation, connecting people and goods across the globe. One of the key components that enable aircraft to operate efficiently is the fuel they use, commonly referred to as aviation gasoline. This specialized fuel is designed specifically for use in piston-engine aircraft, distinguishing it from other types of fuel like jet fuel, which is used in turbine-engine airplanes. Understanding aviation gasoline is essential for anyone involved in the aviation industry, whether as a pilot, engineer, or enthusiast.Aviation gasoline is formulated to meet specific performance standards required for aircraft engines. It typically has a higher octane rating than regular automotive gasoline, which helps prevent engine knocking and ensures smooth operation at high altitudes. The most common types of aviation gasoline are 100LL (low lead) and 100/130, with 100LL being the predominant choice among general aviation pilots. The 'LL' indicates that it contains a reduced amount of lead compared to older formulations, making it more environmentally friendly while still providing the necessary performance.The use of aviation gasoline is not just about performance; safety is also a significant concern. Aircraft engines are designed to operate under extreme conditions, and the fuel must be able to perform reliably under these circumstances. Pilots must ensure that they are using the correct type of fuel for their aircraft, as using the wrong type can lead to catastrophic failures. Furthermore, the storage and handling of aviation gasoline require strict adherence to safety protocols to prevent accidents and ensure the integrity of the fuel.In addition to its technical specifications, the economics of aviation gasoline also play a vital role in the aviation industry. The price of this fuel can significantly affect operating costs for airlines and private pilots alike. Fluctuations in global oil prices directly impact the cost of aviation gasoline, which can lead to changes in ticket prices and flying rates. Therefore, understanding the market dynamics surrounding aviation gasoline is essential for stakeholders in the aviation sector.Moreover, the environmental impact of aviation gasoline is becoming increasingly important in today's world. As concerns over climate change grow, the aviation industry is under pressure to reduce its carbon footprint. Researchers are exploring alternative fuels and technologies that could replace traditional aviation gasoline. For instance, biofuels derived from renewable resources are being tested for their viability as a substitute for conventional aviation fuels. This shift could lead to a more sustainable future for air travel, but it will require significant investment and innovation.In conclusion, aviation gasoline is a critical element of the aviation industry, affecting everything from aircraft performance to safety, economics, and environmental sustainability. As the industry evolves, so too will the fuels that power our flights. Understanding the intricacies of aviation gasoline is essential for anyone looking to navigate the skies, whether as a pilot, engineer, or avid aviation fan. Keeping abreast of developments in fuel technology will be crucial as we move towards a more efficient and sustainable aviation future.

航空是现代交通的重要组成部分，连接着全球的人和货物。使飞机高效运行的关键组成部分之一就是它们使用的燃料，通常称为航空汽油。这种专用燃料专门设计用于活塞发动机飞机，与涡轮发动机飞机使用的其他类型燃料（如喷气燃料）不同。理解航空汽油对于任何参与航空行业的人来说都是至关重要的，无论是飞行员、工程师还是爱好者。航空汽油是按照航空发动机所需的特定性能标准配制的。它的辛烷值通常高于普通汽车汽油，这有助于防止发动机爆震，并确保在高空平稳运行。最常见的航空汽油类型是100LL（低铅）和100/130，其中100LL是一般航空飞行员的主要选择。“LL”表示其含铅量比旧配方减少，使其在提供必要的性能的同时更具环保性。使用航空汽油不仅关乎性能，安全性也是一个重大关切。飞机发动机设计用于在极端条件下运行，燃料必须能够在这些情况下可靠地表现。飞行员必须确保他们为飞机使用正确类型的燃料，因为使用错误类型可能导致灾难性的故障。此外，储存和处理航空汽油需要严格遵守安全协议，以防止事故并确保燃料的完整性。除了技术规格外，航空汽油的经济学也在航空行业中扮演着重要角色。这种燃料的价格会显著影响航空公司和私人飞行员的运营成本。全球油价的波动直接影响航空汽油的成本，这可能导致票价和飞行费的变化。因此，理解围绕航空汽油的市场动态对航空部门的利益相关者至关重要。此外，航空汽油的环境影响在当今世界变得越来越重要。随着对气候变化的关注加剧，航空行业面临着减少碳足迹的压力。研究人员正在探索替代燃料和技术，这些燃料和技术可以取代传统的航空汽油。例如，来自可再生资源的生物燃料正在测试其作为传统航空燃料替代品的可行性。这种转变可能为航空旅行的可持续未来铺平道路，但这需要巨大的投资和创新。总之，航空汽油是航空行业的关键要素，影响着从飞机性能到安全、经济和环境可持续性的方方面面。随着行业的发展，推动我们航班的燃料也将不断演变。理解航空汽油的复杂性对于任何希望在天空中翱翔的人来说都是必不可少的，无论是飞行员、工程师还是热衷于航空的爱好者。紧跟燃料技术的发展将是我们朝着更高效、更可持续的航空未来迈进的关键。