condensated water

简明释义

凝结水

英英释义

例句

1.In industrial processes, condensated water (冷凝水) is sometimes recycled to save water and reduce waste.

在工业过程中，condensated water (冷凝水) 有时会被回收利用，以节约用水和减少废物。

2.Proper ventilation can help reduce the amount of condensated water (冷凝水) that accumulates in basements.

适当的通风可以帮助减少在地下室积累的condensated water (冷凝水) 的数量。

3.During the winter months, we often find condensated water (冷凝水) on the windows due to the temperature difference between the inside and outside.

在冬季，由于内外温差，我们常常发现窗户上有condensated water (冷凝水)。

4.The condensation on the cold beverage glass is actually condensated water (冷凝水) formed from the humid air.

冷饮杯上的凝结水其实是由潮湿空气形成的condensated water (冷凝水)。

5.The air conditioning unit efficiently removes humidity from the air, resulting in a significant amount of condensated water (冷凝水) collected in the drainage pan.

空调单元有效地从空气中去除湿气，导致在排水盘中收集了大量的condensated water (冷凝水)。

作文

The phenomenon of condensated water is a common occurrence in our daily lives, often unnoticed but fundamentally important in various processes. Condensated water refers to the water that forms when vapor cools and transitions back into liquid form. This process is crucial in nature and has significant implications in various fields, including meteorology, engineering, and even environmental science.In meteorology, condensated water plays a vital role in the formation of clouds and precipitation. When warm air rises, it cools at higher altitudes, causing the water vapor present in the air to condense into tiny droplets. These droplets cluster together to form clouds, and when they become heavy enough, they fall as rain. This cycle of evaporation and condensation is essential for maintaining the Earth's water balance and supporting life.In engineering, particularly in HVAC (heating, ventilation, and air conditioning) systems, condensated water management is crucial. Air conditioning units work by cooling the air and removing humidity from indoor environments. As the air cools, the moisture within it condenses, creating condensated water. If not properly drained, this water can cause damage to the unit and surrounding structures. Therefore, understanding how to manage condensated water is essential for maintaining the efficiency and longevity of these systems.Moreover, in environmental science, condensated water is studied in relation to climate change and its effects on ecosystems. Changes in temperature and humidity patterns can alter the rates of condensation and evaporation, impacting local weather patterns and water availability. For instance, regions experiencing increased temperatures may see more rapid evaporation, leading to less condensated water available for plants and animals, which can disrupt entire ecosystems.Furthermore, condensated water has practical applications in everyday life. For example, when you take a cold drink out on a hot day, you might notice the formation of water droplets on the outside of the glass. This is a simple demonstration of condensated water, where the moisture in the warm air condenses upon contact with the cold surface of the glass. Understanding this concept can help us appreciate the scientific principles behind everyday phenomena.In conclusion, condensated water is a fundamental aspect of both natural and engineered systems. Its role in weather patterns, engineering applications, and environmental studies cannot be overstated. By recognizing the importance of condensated water, we can better understand the world around us and the processes that sustain life. Whether we encounter it in the form of rain, moisture on a cold beverage, or in the workings of an air conditioning system, condensated water is a reminder of the intricate relationships between temperature, pressure, and humidity in our environment.

“凝结水”现象在我们的日常生活中很常见，尽管常常被忽视，但在各种过程中都是至关重要的。“凝结水”指的是当水蒸气冷却并重新转变为液态时形成的水。这一过程在自然界中至关重要，并在气象、工程甚至环境科学等多个领域具有重要意义。在气象学中，“凝结水”在云和降水的形成中起着至关重要的作用。当温暖的空气上升时，它会在更高的高度冷却，导致空气中存在的水蒸气凝结成微小的水滴。这些水滴聚集在一起形成云，当它们变得足够沉重时，就会以雨的形式降落。这种蒸发和凝结的循环对于维持地球的水分平衡和支持生命至关重要。在工程领域，尤其是在HVAC（供暖、通风和空调）系统中，“凝结水”的管理至关重要。空调设备通过冷却空气和去除室内环境中的湿气来工作。当空气冷却时，空气中的水分会凝结，形成“凝结水”。如果不正确排放，这些水可能会对设备和周围结构造成损害。因此，理解如何管理“凝结水”对于维持这些系统的效率和使用寿命至关重要。此外，在环境科学中，“凝结水”与气候变化及其对生态系统的影响相关联。温度和湿度模式的变化可能会改变凝结和蒸发的速率，从而影响当地的天气模式和水资源的可用性。例如，经历更高温度的地区可能会看到更快的蒸发，导致植物和动物可用的“凝结水”减少，从而扰乱整个生态系统。此外，“凝结水”在日常生活中也有实际应用。例如，当你在炎热的日子里拿着一杯冷饮时，可能会注意到玻璃外部形成水滴。这是“凝结水”的简单示范，温暖空气中的水分在接触冷表面时凝结。理解这一概念可以帮助我们欣赏日常现象背后的科学原理。总之，“凝结水”是自然和工程系统中的一个基本方面。它在天气模式、工程应用和环境研究中的作用不可低估。通过认识到“凝结水”的重要性，我们可以更好地理解我们周围的世界以及维持生命的过程。无论我们在雨水、冷饮上的水分，还是在空调系统的工作中遇到它，“凝结水”都提醒我们温度、压力和湿度在我们环境中的复杂关系。