adsorbed water

简明释义

吸附水;

英英释义

例句

1.In the drying process, adsorbed water (吸附水) can be released from the surface of materials.

在干燥过程中，材料表面的吸附水（adsorbed water）可以被释放。

2.The stability of the powder is affected by the amount of adsorbed water (吸附水) it contains.

粉末的稳定性受到它所含的吸附水（adsorbed water）量的影响。

3.To improve plant growth, it's crucial to manage the levels of adsorbed water (吸附水) in the soil.

为了改善植物生长，管理土壤中的吸附水（adsorbed water）水平至关重要。

4.During the experiment, we measured the quantity of adsorbed water (吸附水) on the clay samples.

在实验过程中，我们测量了粘土样品上吸附水（adsorbed water）的数量。

5.The soil's ability to retain moisture is largely due to the presence of adsorbed water (吸附水) around soil particles.

土壤保持水分的能力主要是由于土壤颗粒周围存在的吸附水（adsorbed water）。

作文

Water is a fundamental component of life on Earth, and its presence is crucial for various biological and chemical processes. One interesting concept related to water is that of adsorbed water (吸附水), which refers to the water molecules that adhere to the surface of solid materials through physical or chemical interactions. This phenomenon is significant in numerous fields, including soil science, material science, and environmental studies. Understanding adsorbed water (吸附水) can provide insights into how water behaves in different environments and its implications for ecological balance.In soil science, for instance, adsorbed water (吸附水) plays a vital role in determining the availability of moisture for plants. When water enters the soil, some of it is held tightly by soil particles through adsorption. This water is not free to move and is often referred to as 'hygroscopic water'. Plants can access this adsorbed water (吸附水) only under certain conditions, making it essential for understanding irrigation practices and crop management. The amount of adsorbed water (吸附水) in the soil can influence plant growth, nutrient uptake, and overall agricultural productivity.Moreover, in material science, the study of adsorbed water (吸附水) is crucial for the development of various applications, such as in the design of adsorbents used for water purification. When materials are engineered to have high surface areas, they can attract and hold more adsorbed water (吸附水), enhancing their effectiveness in filtering contaminants from water sources. This property is particularly important in developing sustainable technologies aimed at providing clean drinking water in areas facing water scarcity.Environmental studies also highlight the significance of adsorbed water (吸附水) in understanding climate change impacts. As temperatures rise, the capacity of soils to retain adsorbed water (吸附水) may be altered, affecting local ecosystems and biodiversity. For example, changes in the amount of adsorbed water (吸附水) can lead to shifts in plant communities, which in turn affects animal habitats and food sources. Therefore, monitoring and studying adsorbed water (吸附水) dynamics is essential for predicting and mitigating the effects of climate change.In conclusion, adsorbed water (吸附水) is a critical concept that extends beyond mere water retention. It influences agricultural practices, contributes to advancements in material science, and aids in understanding environmental changes. By comprehensively studying adsorbed water (吸附水), researchers and practitioners across various fields can develop better strategies for water management, improve agricultural yields, and address pressing environmental challenges. The intricate relationship between adsorbed water (吸附水) and the surrounding materials emphasizes the need for interdisciplinary approaches to tackle global issues related to water resources and sustainability.

水是地球生命的基本组成部分，其存在对各种生物和化学过程至关重要。与水相关的一个有趣概念是吸附水，它指的是通过物理或化学相互作用附着在固体材料表面的水分子。这一现象在土壤科学、材料科学和环境研究等多个领域中都具有重要意义。理解吸附水可以为我们提供关于水在不同环境中的行为及其对生态平衡影响的见解。例如，在土壤科学中，吸附水在决定植物水分可用性方面发挥着至关重要的作用。当水进入土壤时，其中一部分通过吸附紧紧地附着在土壤颗粒上。这些水不是自由移动的，通常被称为“吸湿水”。植物只能在特定条件下获取这种吸附水，这对于理解灌溉实践和作物管理至关重要。土壤中吸附水的数量可以影响植物生长、养分吸收和整体农业生产力。此外，在材料科学中，研究吸附水对于开发各种应用至关重要，例如在设计用于水净化的吸附剂时。当材料的比表面积较大时，它们可以吸引并保持更多的吸附水，从而增强其过滤水源中污染物的有效性。这一特性在开发旨在为面临水资源短缺地区提供清洁饮用水的可持续技术中尤为重要。环境研究还强调了吸附水在理解气候变化影响中的重要性。随着温度上升，土壤保持吸附水的能力可能会发生变化，从而影响当地生态系统和生物多样性。例如，吸附水的变化可以导致植物群落的转变，进而影响动物栖息地和食物来源。因此，监测和研究吸附水的动态对于预测和缓解气候变化的影响至关重要。总之，吸附水是一个超越单纯水分保持的重要概念。它影响农业实践，促进材料科学的发展，并有助于理解环境变化。通过全面研究吸附水，各领域的研究人员和从业者可以制定更好的水资源管理策略，提高农业产量，并应对紧迫的环境挑战。吸附水与周围材料之间的复杂关系强调了跨学科方法在解决与水资源和可持续发展相关的全球问题中的必要性。