explosion engine
简明释义
内燃机
英英释义
例句
1.The explosion engine in this aircraft allows for rapid acceleration during takeoff.
这架飞机中的爆炸发动机允许在起飞时快速加速。
2.Engineers are researching how to make the explosion engine safer and more reliable.
工程师们正在研究如何使爆炸发动机更安全、更可靠。
3.The new car model features an advanced explosion engine that improves fuel efficiency.
这款新车模型配备了一种先进的爆炸发动机,提高了燃油效率。
4.Many racing cars utilize a modified explosion engine for maximum performance on the track.
许多赛车使用改装过的爆炸发动机以在赛道上获得最佳性能。
5.The concept of an explosion engine dates back to the early days of automotive engineering.
一种爆炸发动机的概念可以追溯到汽车工程的早期。
作文
The concept of the explosion engine has been a pivotal development in the field of mechanical engineering and transportation. An explosion engine refers to an internal combustion engine that generates power through the rapid combustion of fuel, resulting in a series of controlled explosions. This technology has transformed how we perceive mobility, enabling the creation of vehicles that can travel at high speeds while maintaining efficiency. In essence, the explosion engine serves as the heart of many modern automobiles, aircraft, and other machinery, playing a crucial role in our daily lives.To understand the significance of the explosion engine, it is essential to delve into its history. The origins of the explosion engine can be traced back to the late 19th century when inventors like Nikolaus Otto developed the four-stroke cycle engine. This breakthrough allowed for a more efficient combustion process, leading to greater power output and reduced fuel consumption. The success of the explosion engine spurred the automotive revolution, paving the way for mass production of vehicles and changing the landscape of transportation forever.The functionality of the explosion engine relies on a few key principles. When fuel and air are mixed and ignited within the engine's cylinder, a rapid expansion occurs, forcing the piston downwards. This linear motion is then converted into rotational motion through the crankshaft, ultimately powering the vehicle's wheels. The efficiency of this process is what makes the explosion engine so remarkable. However, it is important to note that the environmental impact of traditional explosion engines has raised concerns in recent years. The emissions produced during combustion contribute to air pollution and climate change, prompting researchers and engineers to seek alternative solutions.In response to these challenges, the automotive industry has seen a shift towards hybrid and electric vehicles. While these new technologies aim to reduce reliance on traditional explosion engines, they still draw inspiration from the foundational principles established by early pioneers. The evolution of the explosion engine continues to influence modern innovations, even as society moves towards greener alternatives.Moreover, the explosion engine has applications beyond just personal vehicles. It is also utilized in various industries, including aviation and marine transportation. Aircraft engines, for instance, often employ turbojet or turbofan designs, which, although different from traditional explosion engines, are based on similar combustion principles. Similarly, ships and boats rely on powerful explosion engines to navigate vast oceans, showcasing the versatility of this technology.In conclusion, the explosion engine represents a significant milestone in engineering and technology. Its impact on transportation and industry cannot be overstated, as it has shaped the way we live, work, and travel. As we face the pressing need for sustainable practices, the legacy of the explosion engine will continue to inspire innovation and adaptation in the quest for cleaner energy solutions. Understanding the mechanics and implications of the explosion engine allows us to appreciate its role in our past while looking forward to a future where technology and sustainability coexist harmoniously.
“爆炸发动机”的概念在机械工程和交通运输领域是一个重要的发展。“爆炸发动机”指的是一种内燃机,通过燃料的快速燃烧产生动力,导致一系列受控的爆炸。这项技术改变了我们对移动性的看法,使得能够创造出高速行驶且保持高效的车辆。从本质上讲,“爆炸发动机”是许多现代汽车、飞机和其他机械的核心,在我们的日常生活中发挥着至关重要的作用。要理解“爆炸发动机”的重要性,有必要深入了解其历史。“爆炸发动机”的起源可以追溯到19世纪末,当时像尼古拉斯·奥托这样的发明家开发了四冲程发动机。这一突破允许更高效的燃烧过程,从而提高了功率输出并减少了燃料消耗。“爆炸发动机”的成功推动了汽车革命,为车辆的大规模生产铺平了道路,永远改变了交通运输的格局。“爆炸发动机”的功能依赖于几个关键原理。当燃料和空气在发动机的气缸内混合并点燃时,会发生快速膨胀,迫使活塞向下移动。这种线性运动随后通过曲轴转换为旋转运动,最终驱动车辆的车轮。这个过程的效率使得“爆炸发动机”如此显著。然而,值得注意的是,传统“爆炸发动机”对环境的影响近年来引发了关注。燃烧过程中产生的排放物会导致空气污染和气候变化,这促使研究人员和工程师寻求替代解决方案。为了应对这些挑战,汽车行业已经开始向混合动力和电动车辆转型。虽然这些新技术旨在减少对传统“爆炸发动机”的依赖,但它们仍然受到早期先驱所建立的基础原则的启发。“爆炸发动机”的演变继续影响现代创新,即使社会正朝着更环保的替代方案发展。此外,“爆炸发动机”在个人车辆之外也有应用。它还被用于航空和海洋运输等各个行业。例如,飞机发动机通常采用涡轮喷气或涡扇设计,尽管与传统的“爆炸发动机”不同,但基于类似的燃烧原理。同样,船舶和小艇依赖强大的“爆炸发动机”在广阔的海洋中航行,展示了这项技术的多样性。总之,“爆炸发动机”代表了工程和技术的重要里程碑。它对交通和工业的影响不容小觑,因为它塑造了我们的生活、工作和旅行方式。随着我们面临对可持续实践的紧迫需求,“爆炸发动机”的遗产将继续激励创新和适应,追求更清洁的能源解决方案。理解“爆炸发动机”的机械原理和影响使我们能够欣赏其在过去的作用,同时展望一个技术与可持续性和谐共存的未来。
