recondensation
简明释义
英[ˌriː.kən.dənˈseɪ.ʃən]美[ˌriː.kən.dənˈseɪ.ʃən]
n. 凝结;再凝聚
英英释义
The process of condensing again, particularly in relation to vapor or gas returning to a liquid state. | 再次凝结的过程,特别是指蒸汽或气体返回液态的情况。 |
单词用法
同义词
| 凝结 | 水蒸气的凝结形成了云。 | ||
| 再液化 | The process of reliquefaction is essential in refrigeration systems. | 再液化过程在制冷系统中至关重要。 | |
| 沉淀 | Precipitation occurs when the air can no longer hold moisture. | 当空气无法再容纳水分时,就会发生沉淀。 |
反义词
| 蒸发 | 锅中的水在加热时会蒸发。 | ||
| 气化 | Vaporization occurs when a liquid turns into gas at its boiling point. | 气化发生在液体在其沸点转变为气体时。 |
例句
1.Plasma recondensation on the substrate and growing thin films.
等离子体中粒子在基片上生长薄膜。
2.Plasma recondensation on the substrate and growing thin films.
等离子体中粒子在基片上生长薄膜。
3.The process of water vapor turning back into liquid is known as recondensation.
水蒸气转变为液体的过程被称为再凝结。
4.In the cooling system, recondensation helps maintain optimal temperatures by converting steam back to water.
在冷却系统中,再凝结通过将蒸汽转化为水来帮助维持最佳温度。
5.The recondensation of gases is a critical step in the distillation process.
气体的再凝结是蒸馏过程中的一个关键步骤。
6.Engine efficiency can be improved by managing the recondensation of exhaust gases.
通过管理废气的再凝结可以提高发动机效率。
7.During the night, the air cools down, leading to recondensation of moisture on surfaces.
晚上,空气降温,导致表面水分的再凝结。
作文
The process of water cycling in nature is a fascinating subject that showcases the intricate connections between various environmental elements. One critical aspect of this cycle is the phenomenon of evaporation, where water transforms from a liquid state into vapor. This vapor then rises into the atmosphere, allowing for various weather patterns to develop. However, as the vapor cools at higher altitudes, it undergoes a transformation known as recondensation, or 再凝结 in Chinese. During recondensation, the water vapor loses energy and returns to its liquid state, forming clouds that can eventually lead to precipitation.Understanding recondensation is essential for grasping how weather systems work. When warm air rises, it cools down, and the moisture within it begins to condense around tiny particles in the atmosphere, such as dust or pollen. This process not only contributes to cloud formation but also plays a vital role in regulating the Earth's temperature. Without recondensation, the heat absorbed by the Earth during the day would be lost to space at night, leading to extreme temperature fluctuations.Furthermore, recondensation is crucial in various scientific applications. For instance, in the field of meteorology, understanding how moisture behaves in the atmosphere allows scientists to predict weather patterns more accurately. This knowledge is particularly important for agriculture, as farmers depend on accurate forecasts to plan their planting and harvesting schedules. Additionally, recondensation is a key factor in the design of cooling systems in buildings, where the condensation of water vapor is necessary to maintain comfortable indoor temperatures.The implications of recondensation extend beyond just weather and climate. In the context of global warming, researchers are exploring how changes in atmospheric conditions may affect the rates of evaporation and recondensation. As temperatures rise, the capacity of the air to hold moisture increases, which could lead to more intense storms and altered precipitation patterns. Understanding these changes is critical for developing strategies to mitigate the impacts of climate change on ecosystems and human societies.In conclusion, recondensation is a fundamental process that plays a significant role in the natural water cycle and has far-reaching effects on weather, climate, and various scientific fields. By studying recondensation, we can gain valuable insights into the complexities of our environment and work towards solutions that address the challenges posed by climate change. The interconnectedness of these processes highlights the importance of maintaining a balanced ecosystem, where every element, from evaporation to recondensation, contributes to the health of our planet.
水循环过程是一个引人入胜的主题,展示了各种环境元素之间的复杂联系。这个循环的一个关键方面是蒸发现象,其中水从液态转变为蒸汽。这些蒸汽然后上升到大气中,形成各种天气模式。然而,当蒸汽在高空冷却时,它经历了一种称为recondensation(再凝结)的转变。在recondensation过程中,水蒸气失去能量,回到液态,形成云层,最终可能导致降水。理解recondensation对于掌握天气系统的运作至关重要。当温暖的空气上升时,它会降温,空气中的水分开始围绕大气中的微小颗粒(如灰尘或花粉)凝结。这一过程不仅有助于云的形成,还在调节地球温度方面发挥着重要作用。如果没有recondensation,白天地球吸收的热量将在夜间散失到太空,导致极端的温度波动。此外,recondensation在各种科学应用中也至关重要。例如,在气象学领域,了解水分在大气中的行为使科学家能够更准确地预测天气模式。这一知识对于农业尤其重要,因为农民依赖准确的天气预报来规划他们的种植和收获时间。此外,recondensation是建筑物冷却系统设计的关键因素,水蒸气的凝结对于维持舒适的室内温度是必要的。recondensation的影响超越了天气和气候。在全球变暖的背景下,研究人员正在探讨大气条件的变化如何影响蒸发和recondensation的速率。随着温度的升高,空气保持水分的能力增加,这可能导致更强烈的风暴和改变的降水模式。理解这些变化对于制定缓解气候变化对生态系统和人类社会影响的策略至关重要。总之,recondensation是一个基本过程,在自然水循环中发挥着重要作用,并对天气、气候和各种科学领域产生深远的影响。通过研究recondensation,我们可以获得对我们环境复杂性的宝贵见解,并致力于解决气候变化带来的挑战。这个过程的相互关联性突显了维护平衡生态系统的重要性,在这个系统中,从蒸发到recondensation的每个元素都对我们星球的健康做出了贡献。
