live steam

简明释义

直接蒸汽

英英释义

例句

1.The factory implemented live steam systems to improve energy efficiency.

工厂实施了蒸汽系统以提高能效。

2.During the demonstration, the engineer showed how live steam can power a locomotive.

在演示中，工程师展示了如何利用蒸汽动力驱动机车。

3.The chef used live steam to cook the vegetables quickly.

厨师使用蒸汽加热快速烹饪蔬菜。

4.In the power plant, live steam is generated to drive turbines.

在发电厂，蒸汽被产生用来驱动涡轮。

5.For the tea ceremony, they used live steam to brew the tea leaves.

在茶道中，他们使用蒸汽来冲泡茶叶。

作文

In the world of engineering and technology, few concepts are as fascinating as the use of live steam. This term refers to steam that is generated in a boiler and is used immediately for power or heating purposes, rather than being allowed to condense back into water. The significance of live steam lies not only in its practical applications but also in its historical context, particularly in the development of locomotives and steam-powered machinery.Historically, the advent of live steam technology marked a revolutionary shift in transportation and industry. In the 19th century, steam engines powered trains and ships, enabling faster travel and the movement of goods across vast distances. The ability to harness live steam allowed engineers to design more efficient engines that could generate higher levels of power. This innovation was pivotal during the Industrial Revolution, as it facilitated the growth of industries and urbanization.The mechanics behind live steam are quite intriguing. When water is heated in a boiler, it turns into steam, which expands and creates pressure. This pressure can be used to drive pistons or turbines, converting thermal energy into mechanical energy. The immediate use of live steam ensures that energy is not wasted, making it a highly efficient method of operation. Engineers have long studied the properties of steam to optimize its use in various applications, from powering locomotives to driving industrial machinery.In addition to its historical importance, live steam continues to play a crucial role in modern engineering. Today, many power plants utilize steam turbines to generate electricity. These plants heat water to create live steam, which then spins turbines connected to generators. This process is a cornerstone of energy production in many parts of the world, showcasing how the principles of steam power have evolved yet remained relevant.Moreover, live steam is not just confined to large-scale industrial applications. Hobbyists and enthusiasts often engage with this concept through model steam engines and live steam locomotives. These miniature versions of full-sized steam engines operate on the same principles, allowing individuals to experience the thrill of steam power firsthand. The hobby of building and running model steam engines fosters a deep appreciation for the engineering marvels of the past and present.Despite its many advantages, the use of live steam does come with challenges. Safety is a primary concern, as high-pressure steam can be dangerous if not properly managed. Engineers must adhere to strict safety protocols when designing and operating systems that utilize live steam. Additionally, the environmental impact of steam generation, particularly in terms of water usage and emissions, is an area of ongoing research and development.In conclusion, the concept of live steam is deeply rooted in both history and modern technology. Its applications range from powering locomotives to generating electricity in power plants, demonstrating its versatility and efficiency. Whether in large-scale industrial settings or small-scale hobbies, live steam continues to captivate engineers and enthusiasts alike. Understanding this term enriches our appreciation for the innovations that have shaped our world and the ongoing advancements that continue to push the boundaries of what is possible with steam power.

在工程和技术的世界中，很少有概念像使用live steam（活蒸汽）一样迷人。这个术语指的是在锅炉中产生的蒸汽，并立即用于动力或加热目的，而不是让它重新凝结成水。live steam的重要性不仅在于其实际应用，还在于其历史背景，特别是在机车和蒸汽动力机械的发展中。历史上，live steam技术的出现标志着交通和工业的革命性转变。在19世纪，蒸汽机驱动火车和船只，使得更快的旅行和商品跨越广阔距离的移动成为可能。利用live steam使工程师能够设计出更高效的发动机，能够产生更高水平的动力。这一创新在工业革命期间至关重要，因为它促进了工业和城市化的发展。live steam背后的机制相当引人入胜。当水在锅炉中加热时，它转化为蒸汽，蒸汽膨胀并产生压力。此压力可用于驱动活塞或涡轮，将热能转化为机械能。立即使用live steam确保能量不会浪费，使其成为一种高效的操作方法。工程师们长期以来一直研究蒸汽的特性，以优化其在各种应用中的使用，从推动机车到驱动工业机械。除了历史重要性，live steam在现代工程中仍然发挥着至关重要的作用。如今，许多发电厂利用蒸汽涡轮发电。这些工厂加热水以产生live steam，然后旋转连接到发电机的涡轮。这一过程是许多地区能源生产的基石，展示了蒸汽动力原理如何演变但仍然相关。此外，live steam不仅限于大型工业应用。爱好者和爱好者通常通过模型蒸汽机和活蒸汽机车与这一概念互动。这些微型版本的全尺寸蒸汽机在相同的原理下运行，使个人能够亲身体验蒸汽动力的刺激。制造和运行模型蒸汽机的爱好培养了对过去和现在工程奇迹的深刻欣赏。尽管有许多优点，使用live steam确实面临挑战。安全是主要关注点，因为高压蒸汽如果没有妥善管理可能是危险的。工程师在设计和操作利用live steam的系统时必须遵循严格的安全规范。此外，蒸汽生成的环境影响，尤其是在水资源使用和排放方面，是一个持续研究和发展的领域。总之，live steam的概念深深植根于历史和现代技术中。它的应用范围从推动机车到在发电厂发电，展示了其多功能性和效率。无论是在大规模工业环境中还是小规模爱好中，live steam继续吸引工程师和爱好者。理解这个术语丰富了我们对塑造我们世界的创新的欣赏，以及继续推动蒸汽动力可能性的边界的持续进步。