condensational
简明释义
英[/kənˌdɛnˈseɪʃənl/]美[/kənˌdɛnˈseɪʃənl/]
冷凝的(condensation 的形容词形式)
英英释义
Relating to or resulting from the process of condensation, where a substance changes from a gas to a liquid state. | 与凝结过程相关或由其产生的,指一种物质从气体状态转变为液体状态。 |
单词用法
凝结过程 | |
凝结效应 | |
凝结现象 | |
凝结热传递 | |
凝结冷却 | |
凝结不稳定性 |
同义词
| 浓缩的 | 报告的浓缩版本更易于阅读。 | ||
| 压缩的 | 对材料中的压缩力进行了分析。 | ||
| 浓缩的 | The concentrated solution showed a higher level of reactivity. | 浓缩溶液显示出更高的反应性。 |
反义词
| 蒸发的 | The evaporative cooling process is essential in many industrial applications. | 蒸发冷却过程在许多工业应用中至关重要。 | |
| 耗散的 | 耗散系统通常在热力学中进行研究。 |
例句
1.The condensational yield reached 20%.
缩合反应收率为20%。
2.The condensational yield reached 20%.
缩合反应收率为20%。
3.The condensational 凝结的 heat release during phase changes can significantly affect local climates.
相变过程中释放的condensational 凝结的热量可以显著影响当地气候。
4.The condensational 凝结的 process is crucial for the design of distillation columns.
对于蒸馏塔的设计,condensational 凝结的过程至关重要。
5.Engineers study condensational 凝结的 phenomena to improve the efficiency of heat exchangers.
工程师研究condensational 凝结的现象以提高热交换器的效率。
6.In meteorology, understanding condensational 凝结的 processes helps predict cloud formation.
在气象学中,理解condensational 凝结的过程有助于预测云的形成。
7.The process of water vapor turning into liquid droplets is a classic example of condensational 凝结的 behavior.
水蒸气转变为液体水滴的过程是一个经典的condensational 凝结的行为示例。
作文
The process of understanding the natural world often involves various scientific principles, one of which is the concept of condensation. In meteorology, for instance, the term condensational (凝结的) processes play a crucial role in the formation of clouds and precipitation. When warm, moist air rises, it cools down at higher altitudes. As the air cools, it can no longer hold all the moisture it contained when it was warmer. This leads to the condensational (凝结的) transformation of water vapor into tiny water droplets, which cluster together to form clouds. This phenomenon is not only fascinating but also essential for understanding weather patterns and climate change.In addition to meteorology, condensational (凝结的) processes are significant in other fields such as chemistry and physics. For example, during the cooling of gases, molecules lose energy and come closer together, resulting in a phase change from gas to liquid. This condensational (凝结的) behavior is fundamental in many industrial applications, including the production of various chemicals and the design of heat exchangers.Moreover, the study of condensational (凝结的) phenomena extends to everyday life. We witness this process when we see dew forming on grass in the early morning or when water droplets collect on the outside of a cold beverage. These occurrences are practical examples of how condensational (凝结的) processes affect our daily experiences and environments.Understanding condensational (凝结的) processes also has implications for environmental science. For instance, the ability to predict and analyze cloud formation and precipitation patterns is vital for agriculture, water resource management, and disaster preparedness. By studying these condensational (凝结的) processes, scientists can better understand the water cycle and its impact on ecosystems and human activities.In conclusion, the term condensational (凝结的) encompasses a wide range of phenomena that are integral to both natural processes and human applications. From weather systems to industrial practices, the understanding of condensational (凝结的) dynamics is essential for advancing our knowledge of the world. As we continue to explore and study these processes, we gain insights that can lead to more effective strategies for managing resources and addressing environmental challenges.
