steam flow

简明释义

蒸汽流动

英英释义

例句

1.The technician adjusted the valve to increase the steam flow 蒸汽流量 in the system.

技术员调整阀门以增加系统中的蒸汽流量 steam flow。

2.The power plant relies on accurate measurements of steam flow 蒸汽流量 to optimize energy production.

发电厂依赖准确的蒸汽流量 steam flow测量来优化能源生产。

3.A decrease in steam flow 蒸汽流量 can indicate a blockage in the piping system.

在管道系统中，蒸汽流量 steam flow的减少可能表明存在堵塞。

4.The engineer monitored the steam flow 蒸汽流量 to ensure optimal performance of the turbine.

工程师监测了蒸汽流量 steam flow以确保涡轮的最佳性能。

5.Regular maintenance is required to keep the steam flow 蒸汽流量 sensors calibrated.

定期维护是保持蒸汽流量 steam flow传感器校准所必需的。

作文

The concept of steam flow is crucial in various engineering applications, especially in power generation and industrial processes. Steam flow refers to the movement of steam through pipes or systems, which can be used to transfer energy or heat. Understanding how steam flow works is essential for engineers and technicians who design and operate steam systems. In a typical power plant, water is heated in a boiler to produce steam. This steam is then directed to turbines, where it expands and drives the turbine blades, converting thermal energy into mechanical energy. The efficiency of this process depends significantly on the characteristics of the steam flow. Factors such as pressure, temperature, and the velocity of the steam must be carefully monitored and controlled to ensure optimal performance. The study of steam flow involves fluid dynamics, thermodynamics, and heat transfer principles. Engineers use various instruments to measure the flow rate of steam, which is vital for ensuring that the turbines receive the correct amount of steam to function efficiently. If the steam flow is too low, the turbines may not generate enough power; if it is too high, it could lead to equipment damage or safety hazards. Moreover, understanding steam flow is also important in industrial processes, such as chemical manufacturing and food processing. In these industries, steam is often used for heating, sterilization, and other applications. For example, in food processing, steam is used to cook or pasteurize products, ensuring they are safe for consumption. The control of steam flow in these processes ensures that products are processed uniformly and efficiently.To analyze steam flow, engineers often use computational fluid dynamics (CFD) simulations. These simulations allow them to visualize how steam moves through a system and identify potential issues before they occur. By optimizing steam flow patterns, engineers can improve the overall efficiency and safety of steam systems, leading to cost savings and reduced environmental impact. In conclusion, the understanding of steam flow is integral to the success of many engineering applications. Whether in power generation or industrial processes, managing steam flow effectively can lead to enhanced performance, safety, and sustainability. As technology advances, the methods for analyzing and controlling steam flow will continue to evolve, providing new opportunities for innovation in various fields. In summary, steam flow (蒸汽流动) is not just a technical term; it represents a fundamental aspect of energy transfer and process efficiency in modern engineering. By mastering the principles of steam flow, professionals can contribute to more efficient and sustainable practices in their respective industries.

“蒸汽流动”这一概念在各种工程应用中至关重要，尤其是在发电和工业过程中。“蒸汽流动”是指蒸汽在管道或系统中的移动，可以用于传输能量或热量。理解“蒸汽流动”的工作原理对于设计和操作蒸汽系统的工程师和技术人员来说至关重要。在典型的发电厂中，水在锅炉中被加热以产生蒸汽。然后，这些蒸汽被引导到涡轮机中，在那里它膨胀并驱动涡轮叶片，将热能转化为机械能。这个过程的效率在很大程度上取决于“蒸汽流动”的特性。蒸汽的压力、温度和速度等因素必须被仔细监测和控制，以确保最佳性能。“蒸汽流动”的研究涉及流体动力学、热力学和热传递原理。工程师使用各种仪器来测量蒸汽的流量，这对于确保涡轮机接收到正确数量的蒸汽以高效运作至关重要。如果“蒸汽流动”过低，涡轮机可能无法产生足够的电力；如果过高，可能导致设备损坏或安全隐患。此外，理解“蒸汽流动”在化学制造和食品加工等工业过程中也很重要。在这些行业中，蒸汽通常用于加热、消毒和其他应用。例如，在食品加工中，蒸汽用于烹饪或巴氏杀菌产品，以确保其安全可供消费。“蒸汽流动”的控制确保产品均匀和高效地加工。为了分析“蒸汽流动”，工程师通常使用计算流体动力学（CFD）模拟。这些模拟使他们能够可视化蒸汽如何在系统中移动，并在问题发生之前识别潜在问题。通过优化“蒸汽流动”模式，工程师可以提高蒸汽系统的整体效率和安全性，从而节省成本并减少对环境的影响。总之，理解“蒸汽流动”对许多工程应用的成功至关重要。无论是在发电还是工业过程中，有效管理“蒸汽流动”都可以带来更好的性能、安全性和可持续性。随着技术的进步，分析和控制“蒸汽流动”的方法将继续发展，为各个领域的创新提供新的机会。总之，“蒸汽流动”（蒸汽流动）不仅仅是一个技术术语；它代表了现代工程中能量传输和过程效率的基本方面。通过掌握“蒸汽流动”的原理，专业人员可以为各自行业中更高效和可持续的实践做出贡献。