steam drive
简明释义
蒸汽动力传动蒸汽动力传动装置
英英释义
A steam drive refers to a mechanism or system that uses steam pressure to generate motion, typically in engines or turbines. | 蒸汽驱动是指一种利用蒸汽压力产生运动的机制或系统,通常用于发动机或涡轮机。 |
例句
1.Engineers are studying how to improve the efficiency of the steam drive systems in power plants.
工程师们正在研究如何提高发电厂中蒸汽驱动系统的效率。
2.The museum has an exhibit showcasing the history of steam drive technology.
博物馆有一个展览展示蒸汽驱动技术的历史。
3.The steam drive mechanism is still used in some traditional locomotives.
在一些传统的机车中,仍然使用蒸汽驱动机制。
4.The old train was powered by a steam drive, which made it a fascinating sight to see.
这列老火车由蒸汽驱动,看起来非常迷人。
5.In the early 20th century, many ships were equipped with a steam drive for propulsion.
在20世纪初,许多船只配备了蒸汽驱动作为推进系统。
作文
The Industrial Revolution marked a significant turning point in history, ushering in an era of innovation and technological advancement. One of the most pivotal inventions during this time was the steam engine, which utilized the power of steam to drive machinery. This invention laid the foundation for what we now refer to as steam drive (蒸汽驱动). The concept of steam drive is not merely about the steam engine itself; it encompasses the entire system of using steam pressure to perform work, thus revolutionizing transportation, manufacturing, and many other industries.The steam drive mechanism operates on the principle of converting thermal energy into mechanical energy. When water is heated in a boiler, it turns into steam, which expands and creates pressure. This high-pressure steam can then be directed to move pistons or turbines, ultimately translating that energy into motion. This simple yet powerful principle changed the face of engineering and paved the way for the development of locomotives, steamships, and various industrial machines.In transportation, the introduction of steam drive systems enabled trains and ships to travel faster and carry heavier loads than ever before. The first successful steam locomotive, built by George Stephenson in the early 19th century, showcased the potential of steam drive technology. It drastically reduced travel time across distances and opened up new trade routes, facilitating economic growth and expansion.Moreover, steam drive played a crucial role in the manufacturing sector. Factories began to replace manual labor with steam-powered machinery, leading to increased productivity and efficiency. The ability to harness steam power meant that factories could operate larger machines that produced goods at an unprecedented rate. This shift not only transformed production methods but also had profound social implications, as it led to urbanization and changes in labor dynamics.However, the reliance on steam drive was not without challenges. The technology required careful management and maintenance, as boilers had to be monitored to prevent explosions. Furthermore, the environmental impact of burning coal to generate steam became a growing concern, leading to the search for cleaner energy sources in later years.Despite these challenges, the legacy of steam drive remains significant. It set the stage for subsequent innovations in energy conversion and transportation technologies. As we look towards a future dominated by renewable energy and electric power, it's essential to recognize how the foundations laid by steam drive have influenced modern engineering and industry.In conclusion, the advent of steam drive (蒸汽驱动) was a monumental leap forward in human ingenuity. It not only revolutionized transportation and manufacturing but also sparked a series of innovations that continue to shape our world today. Understanding the principles behind steam drive allows us to appreciate the historical significance of this technology and its impact on our contemporary society.
工业革命标志着历史上的一个重要转折点,开启了创新和技术进步的时代。在这一时期,最关键的发明之一是蒸汽机,它利用蒸汽的力量驱动机械。这项发明为我们现在所称的蒸汽驱动(steam drive)奠定了基础。蒸汽驱动的概念不仅仅是关于蒸汽机本身;它还包括使用蒸汽压力进行工作的整个系统,从而彻底改变了交通、制造业和许多其他行业。蒸汽驱动机制的运作原理是将热能转化为机械能。当水在锅炉中加热时,它会变成蒸汽,蒸汽膨胀并产生压力。这种高压蒸汽可以被引导去推动活塞或涡轮,最终将这种能量转化为运动。这一简单而强大的原理改变了工程的面貌,为机车、轮船和各种工业机器的发展铺平了道路。在交通运输方面,蒸汽驱动系统的引入使火车和船只能够比以往更快地行驶并承载更重的货物。乔治·史蒂芬森在19世纪初建造的第一台成功的蒸汽机车展示了蒸汽驱动技术的潜力。它大幅缩短了跨距离的旅行时间,开辟了新的贸易路线,促进了经济增长和扩张。此外,蒸汽驱动在制造业中也发挥了至关重要的作用。工厂开始用蒸汽动力机器取代人工劳动,从而提高了生产力和效率。利用蒸汽动力的能力意味着工厂可以操作更大的机器,以前所未有的速度生产商品。这一转变不仅改变了生产方式,还对社会产生了深远的影响,因为它导致了城市化和劳动动态的变化。然而,依赖于蒸汽驱动并非没有挑战。这项技术需要仔细管理和维护,因为锅炉必须监控以防止爆炸。此外,燃烧煤炭产生蒸汽对环境的影响逐渐成为一个日益关注的问题,促使后来对更清洁能源的探索。尽管面临这些挑战,蒸汽驱动的遗产仍然具有重要意义。它为后续的能源转换和交通技术创新奠定了基础。当我们展望未来,主导着可再生能源和电力的时代时,认识到蒸汽驱动所奠定的基础如何影响现代工程和工业是至关重要的。总之,蒸汽驱动(steam drive)的出现是人类智慧向前迈出的巨大一步。它不仅彻底改变了交通和制造业,还激发了一系列持续塑造我们当今世界的创新。理解蒸汽驱动背后的原理让我们能够欣赏这项技术的历史意义及其对当代社会的影响。
相关单词
