kauri butanol value

简明释义

贝壳杉脂丁醇值

英英释义

例句

1.Researchers found that the kauri butanol value was significantly lower in the new formulation compared to the traditional one.

研究人员发现新配方中的卡乌里丁醇值显著低于传统配方。

2.The kauri butanol value is an important parameter in evaluating the potential hazards of chemicals in the workplace.

在评估工作场所化学品的潜在危害时，卡乌里丁醇值是一个重要参数。

3.During the laboratory tests, the team consistently measured the kauri butanol value to ensure accurate results.

在实验室测试中，团队始终测量卡乌里丁醇值以确保结果准确。

4.The environmental impact assessment included the measurement of the kauri butanol value to determine the toxicity of the chemical compound.

环境影响评估中包括了对卡乌里丁醇值的测量，以确定该化合物的毒性。

5.In order to comply with safety regulations, the company had to report the kauri butanol value of all its products.

为了遵守安全法规，公司必须报告所有产品的卡乌里丁醇值。

作文

In the field of chemistry and environmental science, understanding various properties of substances is crucial for numerous applications. One significant property that often arises in discussions about organic compounds is the kauri butanol value. The kauri butanol value is a measure of the hydrophobicity or the ability of a substance to repel water. This value is particularly important when assessing the impact of chemicals on the environment, especially in relation to their behavior in water systems. When a chemical has a high kauri butanol value, it indicates that the substance is more likely to partition into organic phases rather than remain in aqueous solutions. This characteristic can affect how pollutants behave in natural waters and their potential impact on aquatic life.The kauri butanol value is derived from the partitioning of a compound between a water phase and a hydrophobic solvent, typically represented by a logarithmic scale. This means that a higher kauri butanol value corresponds to an increased tendency for the compound to escape from water into organic solvents. For instance, many industrial chemicals and pharmaceuticals can exhibit high kauri butanol values, which raises concerns about their environmental persistence and bioaccumulation in organisms.Understanding the kauri butanol value of a substance aids researchers and policymakers in predicting the behavior of chemicals in the environment. It allows for better risk assessments regarding chemical exposure and the formulation of regulations to protect ecosystems. For example, substances with high kauri butanol values may require stricter controls to prevent them from contaminating water sources, as they are likely to remain in the environment longer and pose risks to wildlife.Moreover, the kauri butanol value plays a significant role in the development of new products and materials. In industries such as pharmaceuticals, cosmetics, and agriculture, knowing the hydrophobicity of a compound can guide formulation choices and improve product efficacy. For instance, drugs with optimal kauri butanol values may be designed to enhance absorption in biological systems, ensuring that they are effective while minimizing side effects.In conclusion, the kauri butanol value is a vital parameter in the study of organic compounds, influencing both environmental science and industrial applications. By understanding this property, scientists can make informed decisions regarding the use and regulation of various chemicals, ultimately leading to better protection of our environment and public health. As we continue to develop new technologies and materials, the importance of the kauri butanol value will only grow, underscoring the need for ongoing research and education in this area of study.

在化学和环境科学领域，理解物质的各种性质对许多应用至关重要。在关于有机化合物的讨论中，一个重要的属性是喀里丁醇值。喀里丁醇值是衡量物质疏水性或排斥水能力的指标。当评估化学品对环境的影响时，这个值尤其重要，特别是与它们在水体中的行为有关。当一种化学物质具有高喀里丁醇值时，表明该物质更可能分配到有机相而不是保持在水溶液中。这种特性可能会影响污染物在自然水域中的行为及其对水生生物的潜在影响。喀里丁醇值是通过化合物在水相和疏水性溶剂之间的分配得出的，通常用对数尺度表示。这意味着更高的喀里丁醇值对应于化合物逃离水进入有机溶剂的倾向增加。例如，许多工业化学品和药物可能表现出高喀里丁醇值，这引发了对其环境持久性和在生物体内富集的担忧。了解某种物质的喀里丁醇值有助于研究人员和政策制定者预测化学品在环境中的行为。这使得能够更好地进行化学暴露的风险评估，并制定保护生态系统的法规。例如，具有高喀里丁醇值的物质可能需要更严格的控制，以防止它们污染水源，因为它们可能在环境中停留更长时间，并对野生生物构成风险。此外，喀里丁醇值在新产品和材料的开发中也起着重要作用。在制药、化妆品和农业等行业，了解化合物的疏水性可以指导配方选择并提高产品的有效性。例如，具有最佳喀里丁醇值的药物可能被设计为增强在生物系统中的吸收，从而确保其有效性，同时最小化副作用。总之，喀里丁醇值是有机化合物研究中的一个重要参数，影响着环境科学和工业应用。通过理解这一属性，科学家可以就各种化学物质的使用和监管做出明智的决策，从而最终更好地保护我们的环境和公众健康。随着我们继续开发新技术和材料，喀里丁醇值的重要性只会增加，强调了在这一研究领域持续研究和教育的必要性。