permeability of compartment

简明释义

舱的渗透率

英英释义

例句

1.The permeability of compartment affects the efficiency of the filtration system.

隔间的渗透性会影响过滤系统的效率。

2.The research focused on the permeability of compartment in relation to soil contamination.

研究集中在与土壤污染相关的隔间的渗透性上。

3.In the lab, we tested the permeability of compartment to determine how fluids would move through different materials.

在实验室，我们测试了隔间的渗透性以确定液体如何通过不同材料移动。

4.The engineer analyzed the permeability of compartment to ensure proper airflow in the building.

工程师分析了隔间的渗透性以确保建筑物内空气流通正常。

5.Understanding the permeability of compartment is crucial for designing effective insulation.

理解隔间的渗透性对于设计有效的绝缘材料至关重要。

作文

In the realm of biology and environmental science, the concept of permeability of compartment plays a crucial role in understanding how substances move through different barriers. Permeability refers to the ability of a material or membrane to allow fluids or gases to pass through it. When we talk about compartments in biological systems, we often refer to cells, organelles, or even entire ecosystems that are separated by membranes or barriers. These compartments can have varying degrees of permeability, which can significantly affect the processes that occur within them.For instance, in cellular biology, the permeability of compartment is vital for maintaining homeostasis. The plasma membrane of a cell acts as a selective barrier, allowing essential nutrients to enter while keeping harmful substances out. This selective permeability is not only critical for nutrient uptake but also for waste removal. If the permeability of the compartment were too high, the cell could lose vital ions and molecules, leading to dysfunction. Conversely, if it were too low, the cell might be unable to take in necessary resources, ultimately affecting its survival.Moreover, the permeability of compartment also has implications in ecological studies. For example, in a wetland ecosystem, the soil acts as a compartment that regulates water movement. The permeability of this soil compartment influences how quickly water can infiltrate, affecting plant growth and the overall health of the ecosystem. High permeability allows for rapid drainage, which can lead to drought conditions, while low permeability can cause flooding, impacting the flora and fauna that depend on that habitat.Understanding the permeability of compartment is also essential in the field of pharmacology. Drug delivery systems often rely on the permeability of biological membranes to ensure that medications can effectively reach their target sites. Scientists and researchers study the permeability of various compartments in the body to optimize drug formulations and improve therapeutic outcomes. For instance, if a drug is poorly permeable through the intestinal wall, it may require alternative delivery methods, such as injections or transdermal patches.In conclusion, the permeability of compartment is a fundamental concept that spans across multiple scientific disciplines. Whether in the context of cellular biology, ecology, or pharmacology, understanding how different compartments regulate the movement of substances is essential for grasping the complexities of life and the environment. As research continues to advance, the implications of permeability will likely lead to new discoveries and innovations that can benefit various fields, from medicine to environmental conservation. Therefore, further exploration of this concept is not only fascinating but also imperative for future scientific advancements.

在生物学和环境科学领域，隔室的渗透性这一概念在理解物质如何通过不同屏障移动时起着至关重要的作用。渗透性是指材料或膜允许液体或气体通过的能力。当我们谈论生物系统中的隔室时，通常指的是细胞、细胞器或甚至被膜或屏障分隔开的整个生态系统。这些隔室可以具有不同程度的渗透性，这会显著影响其内部发生的过程。例如，在细胞生物学中，隔室的渗透性对维持稳态至关重要。细胞的质膜充当选择性屏障，允许必需营养物质进入，同时阻止有害物质的进入。这种选择性渗透性不仅对营养物质的吸收至关重要，还对废物的排除至关重要。如果隔室的渗透性过高，细胞可能会失去重要的离子和分子，从而导致功能失调。相反，如果渗透性过低，细胞可能无法摄取必要的资源，最终影响其生存。此外，隔室的渗透性在生态研究中也有重要意义。例如，在湿地生态系统中，土壤作为一个隔室，调节水的运动。这个土壤隔室的渗透性影响水的渗透速度，从而影响植物生长和整个生态系统的健康。高渗透性允许快速排水，这可能导致干旱条件，而低渗透性则可能导致洪水，影响依赖该栖息地的动植物。理解隔室的渗透性在药理学领域也至关重要。药物递送系统通常依赖生物膜的渗透性，以确保药物能够有效到达其目标部位。科学家和研究人员研究身体中各种隔室的渗透性，以优化药物配方并改善治疗效果。例如，如果一种药物通过肠壁的渗透性较差，可能需要替代递送方法，例如注射或经皮贴剂。总之，隔室的渗透性是一个跨越多个科学学科的基本概念。无论是在细胞生物学、生态学还是药理学的背景下，理解不同隔室如何调节物质的运动对于掌握生命和环境的复杂性至关重要。随着研究的不断进展，渗透性的影响可能会导致新的发现和创新，这将有利于各个领域，从医学到环境保护。因此，进一步探索这一概念不仅令人着迷，而且对未来的科学进步至关重要。