condensed steam

简明释义

冷凝蒸汽

英英释义

例句

1.Proper management of condensed steam 凝结蒸汽 is essential for maintaining system pressure.

妥善管理凝结蒸汽对于维持系统压力至关重要。

2.After cooling, the condensed steam 凝结蒸汽 is collected in a separate tank.

冷却后，凝结蒸汽被收集在一个单独的水箱中。

3.The condensed steam 凝结蒸汽 can be reused to heat incoming water, saving energy.

凝结蒸汽可以被重复利用来加热进水，从而节省能源。

4.The power plant utilizes the heat from the condensed steam 凝结蒸汽 to improve efficiency.

发电厂利用来自凝结蒸汽的热量来提高效率。

5.In the distillation process, condensed steam 凝结蒸汽 plays a crucial role in separating components.

在蒸馏过程中，凝结蒸汽在分离成分中起着至关重要的作用。

作文

In the world of thermodynamics, the concept of condensed steam plays a crucial role in understanding various energy systems. Condensed steam refers to the state of water vapor that has cooled down and transitioned back into liquid form. This process is essential for many industrial applications, including power generation and heating systems. When steam is produced, it carries a significant amount of energy, which can be harnessed for various purposes. However, once it has done its work, it must be condensed back into water to recycle the system efficiently.One of the most common examples of condensed steam can be found in steam turbines. In these systems, high-pressure steam is generated and used to turn blades connected to a generator. As the steam passes through the turbine, it loses pressure and temperature, leading to the formation of condensed steam. This condensation process not only helps maintain the efficiency of the turbine but also allows for the recovery of water, which can be reused in the steam generation cycle.The importance of condensed steam extends beyond just energy production. In heating systems, such as radiators or steam heaters, condensed steam is integral to transferring heat effectively. When steam enters a radiator, it releases heat into the surrounding environment. As it cools down, it condenses back into water, which then returns to the boiler to be reheated. This cycle is efficient and helps maintain a consistent temperature in buildings.Moreover, understanding the properties of condensed steam is vital for engineers and scientists working in the field of fluid dynamics. The behavior of condensed steam can influence the design of various systems, ensuring they operate safely and efficiently. For example, the condensation process can lead to issues such as water hammer, which can damage pipes and equipment if not properly managed. By studying the characteristics of condensed steam, professionals can develop better strategies to mitigate these risks.In addition to industrial applications, condensed steam also has implications in environmental science. The condensation of steam contributes to the water cycle, where water vapor in the atmosphere cools and forms clouds, eventually leading to precipitation. Understanding this process is essential for climate modeling and predicting weather patterns. Furthermore, the efficient management of steam in industrial processes can help reduce water consumption and minimize environmental impact.In conclusion, condensed steam is a fundamental concept in thermodynamics that has widespread applications across various fields. From energy production to heating systems and environmental science, the ability to understand and manage condensed steam is crucial. As technology continues to advance, the study of condensed steam will remain an essential area of research, helping to improve efficiency and sustainability in numerous industries.

在热力学的世界中，凝结蒸汽的概念在理解各种能源系统方面起着至关重要的作用。凝结蒸汽是指水蒸气冷却并重新转变为液态的状态。这个过程对于许多工业应用至关重要，包括发电和供暖系统。当蒸汽产生时，它携带着大量的能量，可以用于各种目的。然而，一旦它完成了工作，就必须将其冷凝回水中，以有效地循环系统。凝结蒸汽最常见的例子可以在蒸汽涡轮机中找到。在这些系统中，产生高压蒸汽并用于转动与发电机连接的叶片。当蒸汽通过涡轮时，它失去压力和温度，导致凝结蒸汽的形成。这个冷凝过程不仅有助于维持涡轮的效率，还允许回收水，这可以在蒸汽生成循环中重复使用。凝结蒸汽的重要性不仅限于能源生产。在供暖系统中，例如散热器或蒸汽加热器，凝结蒸汽对有效传递热量至关重要。当蒸汽进入散热器时，它会向周围环境释放热量。随着它冷却，它重新凝结成水，然后返回锅炉进行再加热。这个循环是高效的，有助于在建筑物中保持稳定的温度。此外，理解凝结蒸汽的性质对于在流体动力学领域工作的工程师和科学家至关重要。凝结蒸汽的行为可能会影响各种系统的设计，确保它们安全高效地运行。例如，冷凝过程可能导致水锤等问题，如果不加以管理，会损坏管道和设备。通过研究凝结蒸汽的特性，专业人士可以制定更好的策略来减轻这些风险。除了工业应用，凝结蒸汽在环境科学中也具有重要意义。蒸汽的冷凝有助于水循环，其中大气中的水蒸气冷却并形成云，最终导致降水。理解这个过程对于气候模型和预测天气模式至关重要。此外，工业过程中的蒸汽有效管理可以帮助减少水消耗，最小化对环境的影响。总之，凝结蒸汽是热力学中的一个基本概念，在各个领域都有广泛的应用。从能源生产到供暖系统和环境科学，理解和管理凝结蒸汽的能力至关重要。随着技术的不断进步，对凝结蒸汽的研究将继续是一个重要的研究领域，帮助提高各个行业的效率和可持续性。