limit of saturation

简明释义

饱和限度

英英释义

例句

1.When designing a drainage system, engineers must consider the limit of saturation 饱和极限 of the soil to prevent flooding.

在设计排水系统时，工程师必须考虑土壤的limit of saturation 饱和极限 以防止洪水。

2.In the context of soil mechanics, understanding the limit of saturation 饱和极限 helps predict how the soil will behave under different conditions.

在土壤力学的背景下，理解limit of saturation 饱和极限 有助于预测土壤在不同条件下的表现。

3.The engineer explained that the limit of saturation 饱和极限 for this material is crucial for determining its load-bearing capacity.

工程师解释说，这种材料的limit of saturation 饱和极限 对于确定其承载能力至关重要。

4.The limit of saturation 饱和极限 in the chemical process indicates the maximum concentration of reactants that can be dissolved.

化学过程中的limit of saturation 饱和极限 表示可以溶解的反应物的最大浓度。

5.The limit of saturation 饱和极限 of the solution was reached, causing the excess solute to precipitate out.

溶液的limit of saturation 饱和极限 达到后，导致多余的溶质沉淀出来。

作文

In the realm of science and engineering, the term limit of saturation is often used to describe the maximum amount of a substance that can be absorbed or dissolved in a solvent at a given temperature and pressure. This concept is crucial in various fields such as chemistry, environmental science, and even materials engineering. Understanding the limit of saturation not only helps in predicting how substances interact but also aids in designing processes that rely on these interactions. For instance, in chemistry, when we talk about solutions, the limit of saturation defines the point at which no more solute can be dissolved in a solvent. If you were to add more salt to water after reaching this point, the excess salt would simply settle at the bottom, indicating that the solution has become saturated. This principle is essential for scientists and researchers who need to create solutions with precise concentrations for experiments.Moreover, the limit of saturation plays a significant role in environmental science, particularly in understanding pollutant dispersion in water bodies. For example, when pollutants are introduced into a river, they can saturate the water until they reach their limit of saturation. Beyond this point, any additional pollutants may not dissolve and could lead to sedimentation, affecting aquatic life and water quality. In materials engineering, the limit of saturation is also relevant when discussing the properties of materials that absorb liquids, such as sponges or porous rocks. The limit of saturation indicates the maximum amount of liquid that these materials can hold before they become fully saturated. This knowledge is crucial when designing products that require specific absorption characteristics, such as in the development of efficient water filtration systems.Furthermore, the limit of saturation has implications in everyday life. For example, when cooking, understanding how much sugar can dissolve in water at different temperatures can affect the sweetness of a dish. If too much sugar is added beyond its limit of saturation, it will not dissolve, leading to an undesirable texture in the final product.In conclusion, the concept of limit of saturation is not merely a scientific term; it is a fundamental principle that governs various natural and engineered processes. By grasping the implications of this limit, we can better understand the behavior of substances in different environments, leading to advancements in science, technology, and everyday applications. Whether it's in the lab, the environment, or the kitchen, recognizing the limit of saturation allows us to make informed decisions and achieve desired outcomes.

在科学和工程领域，术语饱和极限通常用于描述在给定温度和压力下，溶剂能吸收或溶解的物质的最大量。这个概念在化学、环境科学甚至材料工程等多个领域至关重要。理解饱和极限不仅有助于预测物质之间的相互作用，还可以帮助设计依赖于这些相互作用的过程。例如，在化学中，当我们谈论溶液时，饱和极限定义了在溶剂中无法再溶解更多溶质的点。如果你在达到这一点后继续向水中添加盐，过量的盐将简单地沉淀在底部，表明溶液已经饱和。这个原则对于需要为实验创建精确浓度溶液的科学家和研究人员至关重要。此外，饱和极限在环境科学中也起着重要作用，特别是在了解污染物在水体中扩散方面。例如，当污染物被引入河流时，它们可能会饱和水体，直到达到它们的饱和极限。超出这一点，任何额外的污染物可能不会溶解，可能导致沉淀，影响水生生物和水质。在材料工程中，饱和极限在讨论能够吸收液体的材料（如海绵或多孔岩石）的特性时也很相关。饱和极限指的是这些材料能够保持的最大液体量，超出这一点它们就会完全饱和。这一知识对于设计需要特定吸收特性的产品至关重要，例如在开发高效水过滤系统时。此外，饱和极限在日常生活中也有影响。例如，在烹饪时，了解在不同温度下糖能溶解多少会影响菜肴的甜度。如果添加的糖超过其饱和极限，它将无法溶解，导致最终产品的质地不理想。总之，饱和极限的概念不仅仅是一个科学术语；它是支配各种自然和工程过程的基本原则。通过掌握这一极限的含义，我们可以更好地理解不同环境中物质的行为，从而推动科学、技术和日常应用的进步。无论是在实验室、环境还是厨房，认识到饱和极限使我们能够做出明智的决策并实现预期的结果。