evaporability

简明释义

英[/ɪˌvæpəˈræbɪlɪti/]美[/ɪˌvæpəˈræbɪlɪti/]

n. 挥发性；可蒸发性；汽化性

英英释义

单词用法

同义词

反义词

例句

1.It analyzed the chemical composition of villous amomum fruit, included evaporability composition and quality criteria and provided evidence to formulate quality criteria of villous amomum fruit.

对中药砂仁的化学成分进行分析，包括挥发性成分以及砂仁的质量标准的概况进行综合分析，为科学全面制定砂仁药材的质量标准提供充分的依据。

2.It analyzed the chemical composition of villous amomum fruit, included evaporability composition and quality criteria and provided evidence to formulate quality criteria of villous amomum fruit.

对中药砂仁的化学成分进行分析，包括挥发性成分以及砂仁的质量标准的概况进行综合分析，为科学全面制定砂仁药材的质量标准提供充分的依据。

3.The evaporability of water increases as temperature rises.

水的蒸发性随着温度升高而增加。

4.Understanding the evaporability of liquids helps in designing effective cooling systems.

了解液体的蒸发性有助于设计有效的冷却系统。

5.In the production of perfumes, the evaporability of different ingredients is crucial for the final scent.

在香水生产中，不同成分的蒸发性对于最终香味至关重要。

6.The evaporability of solvents affects how quickly they dry on surfaces.

溶剂的蒸发性影响它们在表面上的干燥速度。

7.High evaporability can lead to increased humidity in enclosed spaces.

高蒸发性可能导致封闭空间内湿度增加。

作文

Evaporability is a term that refers to the ability of a substance to transition from a liquid state to a gaseous state. This property is crucial in various scientific fields, particularly in chemistry and environmental science. Understanding evaporability (蒸发性) helps us comprehend how different substances behave under varying temperature and pressure conditions. For instance, water has a high evaporability (蒸发性), which is why it quickly turns into vapor when heated. This phenomenon is not only vital for natural processes like the water cycle but also for industrial applications such as distillation and cooling systems.In everyday life, we witness the effects of evaporability (蒸发性) in several scenarios. Consider how a puddle of water disappears on a sunny day. The heat from the sun increases the energy of the water molecules, causing them to move faster and eventually escape into the air as vapor. This simple observation illustrates the concept of evaporability (蒸发性) in action. Similarly, when we apply perfume, the fragrance molecules evaporate quickly due to their high evaporability (蒸发性), allowing us to enjoy the scent without needing to apply it frequently.The evaporability (蒸发性) of a substance can be influenced by various factors, including temperature, surface area, and atmospheric pressure. For example, increasing the temperature typically enhances the evaporability (蒸发性) because the heat provides more energy to the molecules, enabling them to break free from the liquid phase. Additionally, a larger surface area allows more molecules to escape simultaneously, further increasing the rate of evaporation. In contrast, higher atmospheric pressure can suppress evaporability (蒸发性), as the pressure forces the molecules back into the liquid state.In environmental contexts, understanding evaporability (蒸发性) is essential for predicting weather patterns and climate changes. For instance, areas with high evaporation rates often experience drier conditions, while regions with low evaporation may retain moisture, leading to lush vegetation. This relationship between evaporability (蒸发性) and climate is critical for agriculture, as farmers must consider local evaporation rates when planning irrigation and crop selection.Moreover, the concept of evaporability (蒸发性) extends to the study of volatile organic compounds (VOCs), which are significant contributors to air pollution. These compounds have high evaporability (蒸发性) and can easily enter the atmosphere, affecting air quality and human health. Researchers are continuously exploring ways to mitigate the release of VOCs through better regulation and innovative technologies.In conclusion, evaporability (蒸发性) is a fundamental property that plays a significant role in both natural and industrial processes. By understanding its principles, we can make informed decisions that benefit our environment and enhance our daily lives. Whether it is through observing the simple act of a puddle drying up or considering the implications of VOC emissions, the concept of evaporability (蒸发性) is woven into the fabric of our existence, reminding us of the dynamic nature of the world around us.

蒸发性是一个术语，指的是物质从液态转变为气态的能力。这个特性在多个科学领域中至关重要，尤其是在化学和环境科学中。理解evaporability（蒸发性）有助于我们理解不同物质在不同温度和压力条件下的行为。例如，水具有很高的evaporability（蒸发性），这就是为什么它在加热时迅速转化为蒸汽。这一现象不仅对自然过程如水循环至关重要，也对工业应用如蒸馏和冷却系统非常重要。在日常生活中，我们在多种场景中见证了evaporability（蒸发性）的影响。想想阳光明媚的日子里，水洼是如何消失的。太阳的热量增加了水分子的能量，使它们运动得更快，最终以蒸汽的形式逃逸到空气中。这一简单的观察生动地展示了evaporability（蒸发性）的实际运作。同样，当我们喷香水时，香味分子由于其高evaporability（蒸发性）而迅速蒸发，让我们可以享受香气，而不需要频繁地涂抹。物质的evaporability（蒸发性）受到多种因素的影响，包括温度、表面积和大气压力。例如，通常提高温度会增强evaporability（蒸发性），因为热量为分子提供了更多的能量，使它们能够突破液相。此外，较大的表面积允许更多的分子同时逃逸，从而进一步提高蒸发速率。相反，更高的大气压力可能会抑制evaporability（蒸发性），因为压力将分子迫回液态。在环境背景下，理解evaporability（蒸发性）对于预测天气模式和气候变化至关重要。例如，蒸发率高的地区通常会经历干燥的条件，而蒸发率低的地区则可能保持湿润，导致植被茂盛。这种evaporability（蒸发性）与气候之间的关系对于农业至关重要，因为农民在规划灌溉和作物选择时必须考虑当地的蒸发率。此外，evaporability（蒸发性）的概念还扩展到挥发性有机化合物（VOCs）的研究，这些化合物是空气污染的重要来源。这些化合物具有高evaporability（蒸发性），可以轻易进入大气，影响空气质量和人类健康。研究人员不断探索通过更好的监管和创新技术来减轻VOCs释放的方法。总之，evaporability（蒸发性）是一个基本特性，在自然和工业过程中发挥着重要作用。通过理解其原理，我们可以做出有利于环境和提升日常生活的明智决策。无论是通过观察水洼干涸的简单行为，还是考虑VOCs排放的影响，evaporability（蒸发性）的概念都融入了我们存在的本质，提醒我们周围世界的动态特性。