steam injector

简明释义

蒸汽喷射器

英英释义

例句

1.In our factory, we rely on a steam injector 蒸汽喷射器 to maintain optimal pressure in the system.

在我们的工厂中，我们依靠蒸汽喷射器 steam injector 来维持系统的最佳压力。

2.The engineer explained how the steam injector 蒸汽喷射器 works to improve boiler efficiency.

工程师解释了如何使用蒸汽喷射器 steam injector 来提高锅炉效率。

3.The steam injector 蒸汽喷射器 is crucial for the startup phase of the turbine.

对于涡轮机的启动阶段，蒸汽喷射器 steam injector 是至关重要的。

4.During the training session, we learned how to adjust the steam injector 蒸汽喷射器 for different operating conditions.

在培训课程中，我们学习了如何根据不同的操作条件调整蒸汽喷射器 steam injector。

5.Regular maintenance of the steam injector 蒸汽喷射器 can prevent costly breakdowns.

定期维护蒸汽喷射器 steam injector 可以防止昂贵的故障。

作文

The invention of the steam injector has significantly transformed the way steam engines operate, enhancing their efficiency and functionality. A steam injector is a device that uses high-pressure steam to inject water into a boiler or steam engine. This mechanism not only helps in maintaining the necessary water levels in the boiler but also ensures that the steam engine can function effectively without interruptions. The principle behind the steam injector is based on the Venturi effect, where steam flows through a nozzle, creating a vacuum that draws in water. Historically, the development of the steam injector can be traced back to the early 19th century, when engineers were seeking ways to improve the efficiency of steam locomotives. Before the introduction of the steam injector, water was typically added to boilers using manual pumps, which were often unreliable and inefficient. The steam injector revolutionized this process by allowing for automatic water feeding, which ultimately led to more powerful and reliable steam engines.One of the key advantages of the steam injector is its ability to work without any external power source. Since it relies solely on the steam produced by the boiler, it is an efficient and self-sustaining system. This feature made the steam injector particularly valuable in remote locations where access to electricity or other power sources was limited. As a result, many steam-powered machines and locomotives adopted this technology, leading to widespread use across various industries.In addition to its practical applications, the steam injector also played a crucial role in the evolution of steam technology. It paved the way for further innovations in steam engine design, including improvements in boiler construction and steam distribution systems. The principles of the steam injector continue to influence modern engineering, particularly in areas related to thermodynamics and fluid mechanics.Today, while steam engines are less common due to the rise of internal combustion engines and electric power, the legacy of the steam injector remains significant. It serves as a reminder of the ingenuity of early engineers who sought to harness the power of steam for practical use. Furthermore, understanding the workings of the steam injector provides valuable insights into the fundamental principles of energy conversion and efficiency that are still relevant in contemporary engineering practices.In conclusion, the steam injector is more than just a historical artifact; it represents a critical advancement in the field of engineering. Its ability to efficiently inject water into steam systems without external power has had lasting impacts on the development of steam technology. As we continue to explore new energy solutions, the principles embodied by the steam injector can inspire future innovations aimed at improving efficiency and sustainability in various technological fields.

蒸汽喷射器的发明极大地改变了蒸汽机的运作方式，提高了其效率和功能性。蒸汽喷射器是一种利用高压蒸汽将水注入锅炉或蒸汽机的装置。此机制不仅有助于维持锅炉中的必要水位，而且确保蒸汽机能够有效运行而不受干扰。蒸汽喷射器的原理基于文丘里效应，即蒸汽通过喷嘴流动，产生真空，从而吸入水。从历史上看，蒸汽喷射器的发展可以追溯到19世纪初，当时工程师们寻求提高蒸汽机车效率的方法。在引入蒸汽喷射器之前，水通常是通过手动泵送加到锅炉中的，这种方法往往不可靠且效率低下。蒸汽喷射器革命性地简化了这一过程，使得自动供水成为可能，最终导致更强大和可靠的蒸汽机。蒸汽喷射器的一个主要优点是它能够在没有外部电源的情况下工作。由于它完全依赖锅炉产生的蒸汽，因此是一种高效且自给自足的系统。这一特性使得蒸汽喷射器在偏远地区尤为宝贵，那里缺乏电力或其他能源。因此，许多蒸汽动力机器和机车都采用了这一技术，导致其在各个行业的广泛使用。除了实用应用外，蒸汽喷射器在蒸汽技术的发展中也起到了关键作用。它为蒸汽机设计的进一步创新铺平了道路，包括锅炉结构和蒸汽分配系统的改进。蒸汽喷射器的原理继续影响现代工程，特别是在热力学和流体力学相关领域。如今，尽管由于内燃机和电力的崛起，蒸汽机变得不那么常见，但蒸汽喷射器的遗产仍然具有重要意义。它提醒我们早期工程师的聪明才智，他们试图利用蒸汽的力量进行实际应用。此外，理解蒸汽喷射器的工作原理为我们提供了关于能源转化和效率基本原则的宝贵见解，这些原则在当代工程实践中仍然相关。总之，蒸汽喷射器不仅仅是一个历史文物；它代表了工程领域的一项关键进步。它能够高效地将水注入蒸汽系统，而无需外部电源，对蒸汽技术的发展产生了持久的影响。在我们继续探索新的能源解决方案时，蒸汽喷射器所体现的原则可以激励未来在各个技术领域改善效率和可持续性的创新。