particle absorption
简明释义
粒子吸收
英英释义
The process by which particles are taken up or incorporated into a substance, often referring to the interaction between solid particles and a fluid or gas. | 粒子被吸收或纳入物质的过程,通常指固体粒子与液体或气体之间的相互作用。 |
例句
1.In soil science, particle absorption is crucial for understanding nutrient availability.
在土壤科学中,颗粒吸收对于理解营养物质的可用性至关重要。
2.The study focused on the mechanisms of particle absorption in aquatic environments.
这项研究集中于水生环境中颗粒吸收的机制。
3.Researchers found that particle absorption rates increase with higher concentrations of pollutants.
研究人员发现,随着污染物浓度的增加,颗粒吸收速率也会增加。
4.During the experiment, we measured the particle absorption efficiency of various materials.
在实验过程中,我们测量了各种材料的颗粒吸收效率。
5.The filtration system is designed to enhance particle absorption for cleaner water.
该过滤系统旨在增强颗粒吸收以获得更清洁的水。
作文
The concept of particle absorption is critical in various scientific fields, including physics, chemistry, and environmental science. It refers to the process by which particles, such as dust, pollutants, or even biological entities, are taken up by a medium, often resulting in changes to both the particles and the medium itself. Understanding particle absorption is essential for developing effective strategies to mitigate pollution, enhance material properties, and understand natural phenomena.In environmental science, particle absorption plays a significant role in air quality management. Particulate matter (PM), which includes tiny particles suspended in the air, can have detrimental effects on human health and the environment. When these particles are absorbed by surfaces, such as buildings or vegetation, they can alter the chemical composition of those surfaces, leading to further environmental consequences. For instance, when pollutants from vehicle emissions are absorbed by roadside vegetation, it can affect the plants' growth and health, potentially disrupting local ecosystems.Moreover, particle absorption is also crucial in the field of material science. Researchers are constantly exploring how different materials can absorb particles to improve their functionality. For example, in the development of filters for air and water purification, understanding how particles interact with filter media is vital. The efficiency of these filters largely depends on their ability to promote particle absorption, ensuring that contaminants are effectively captured and removed from the environment.In the realm of nanotechnology, particle absorption takes on a new dimension. Nanoparticles can exhibit unique properties due to their small size and high surface area, making them excellent candidates for various applications, including drug delivery systems and targeted therapies in medicine. By manipulating the particle absorption characteristics of these nanoparticles, scientists can enhance their effectiveness in delivering drugs directly to affected cells, minimizing side effects and improving treatment outcomes.Furthermore, particle absorption is integral to understanding natural processes, such as the behavior of aerosols in the atmosphere. Aerosols can absorb and scatter sunlight, influencing climate patterns and weather conditions. By studying how these particles are absorbed by clouds and other atmospheric components, researchers can gain insights into climate change and develop better predictive models.In conclusion, the concept of particle absorption is multifaceted and impacts numerous scientific disciplines. Whether it is addressing environmental pollution, enhancing material properties, advancing medical technologies, or understanding climate dynamics, the significance of particle absorption cannot be overstated. As research continues to evolve, a deeper understanding of this phenomenon will undoubtedly lead to innovative solutions to some of the most pressing challenges facing our world today.
“粒子吸收”的概念在物理、化学和环境科学等多个科学领域中至关重要。它指的是粒子(如灰尘、污染物甚至生物实体)被介质吸收的过程,通常导致粒子和介质本身的变化。理解粒子吸收对于制定有效的污染缓解策略、增强材料特性以及理解自然现象至关重要。在环境科学中,粒子吸收在空气质量管理中发挥着重要作用。颗粒物(PM)包括悬浮在空气中的微小颗粒,可能对人类健康和环境产生危害。当这些颗粒被表面(如建筑物或植被)吸收时,会改变这些表面的化学成分,从而导致进一步的环境后果。例如,当来自车辆排放的污染物被路边植被吸收时,可能会影响植物的生长和健康,潜在地破坏当地生态系统。此外,粒子吸收在材料科学领域也至关重要。研究人员不断探索不同材料如何吸收颗粒,以改善其功能性。例如,在空气和水净化滤器的开发中,理解粒子与滤材的相互作用至关重要。这些滤器的效率在很大程度上取决于其促进粒子吸收的能力,确保污染物被有效捕获并从环境中去除。在纳米技术领域,粒子吸收又赋予了这一概念新的维度。由于纳米颗粒体积小、比表面积大,它们可以表现出独特的特性,使其成为药物传递系统和医学靶向治疗等各种应用的优秀候选者。通过操控这些纳米颗粒的粒子吸收特性,科学家可以提高其在将药物直接送达受影响细胞方面的有效性,从而最小化副作用并改善治疗效果。此外,粒子吸收对于理解自然过程(如气溶胶在大气中的行为)至关重要。气溶胶可以吸收和散射阳光,影响气候模式和天气条件。通过研究这些颗粒如何被云和其他大气成分吸收,研究人员可以深入了解气候变化并开发更好的预测模型。总之,粒子吸收的概念是多方面的,影响着众多科学学科。无论是应对环境污染、增强材料特性、推进医疗技术,还是理解气候动态,粒子吸收的重要性都不容忽视。随着研究的不断发展,对这一现象的更深入理解无疑将为解决我们今天面临的一些最紧迫的挑战提供创新的解决方案。
相关单词
