adsorptive power

简明释义

1. 吸附本领; 2. 吸附能力; 3. 吸附量;

英英释义

例句

1.Researchers are studying the adsorptive power 吸附能力 of activated carbon in removing pollutants from air.

研究人员正在研究活性炭在去除空气污染物方面的adsorptive power 吸附能力。

2.The effectiveness of the filter depends on its adsorptive power 吸附能力 to capture harmful particles.

过滤器的有效性取决于其对捕获有害颗粒的adsorptive power 吸附能力。

3.The new material exhibits high adsorptive power 吸附能力, making it ideal for water purification systems.

这种新材料表现出高的adsorptive power 吸附能力，使其非常适合用于水净化系统。

4.The study found that the adsorptive power 吸附能力 of the clay increased with higher temperatures.

研究发现，粘土的adsorptive power 吸附能力随着温度升高而增加。

5.In industrial applications, materials with high adsorptive power 吸附能力 are crucial for gas separation processes.

在工业应用中，具有高adsorptive power 吸附能力的材料对于气体分离过程至关重要。

作文

The concept of adsorptive power is fundamental in the field of chemistry and material science. It refers to the ability of a substance to attract and hold particles, atoms, or molecules on its surface. This phenomenon is crucial in various applications, including environmental science, catalysis, and even in our daily lives. For example, activated carbon is widely known for its high adsorptive power due to its porous structure, which provides a vast surface area for adsorption. This property makes it highly effective in filtering water and air by trapping impurities and toxins. Understanding adsorptive power allows scientists and engineers to design better materials for specific purposes, such as improving the efficiency of catalysts in chemical reactions or enhancing the performance of adsorbents in pollution control. Moreover, the adsorptive power of a material can be influenced by various factors, including temperature, pressure, and the nature of the adsorbate. For instance, gases may have different adsorption characteristics compared to liquids due to their molecular size and interactions with the surface. Researchers often conduct experiments to measure the adsorptive power of different materials under varying conditions to determine their suitability for specific applications. In the context of environmental remediation, understanding the adsorptive power of materials can lead to more effective strategies for cleaning up contaminated sites. By selecting materials with high adsorptive power, we can enhance the removal of pollutants from soil and water, thereby protecting ecosystems and human health. This approach is not only beneficial for addressing existing contamination but also plays a significant role in preventing future environmental issues. Furthermore, industries such as pharmaceuticals and food processing rely on the adsorptive power of certain materials to ensure product quality and safety. In drug formulation, for example, the adsorptive power of excipients can affect the stability and release characteristics of active ingredients. Similarly, in food packaging, materials with high adsorptive power can help to absorb moisture and oxygen, extending the shelf life of products. In conclusion, the term adsorptive power encompasses a wide range of implications across various fields. Its significance extends beyond theoretical concepts, impacting practical applications that contribute to technological advancements and environmental sustainability. As research continues to explore new materials and their adsorptive power, we can expect to see innovative solutions that address some of the pressing challenges faced by society today. By harnessing the potential of materials with high adsorptive power, we can pave the way for a cleaner, safer, and more efficient future.

“吸附能力”的概念在化学和材料科学领域中是基础性的。它指的是一种物质吸引和保持颗粒、原子或分子在其表面的能力。这种现象在各种应用中至关重要，包括环境科学、催化剂以及我们日常生活中的应用。例如，活性炭因其具有高的“吸附能力”而广为人知，这归功于其多孔结构，提供了广阔的表面积用于吸附。这一特性使其在过滤水和空气方面非常有效，通过捕获杂质和毒素来净化环境。理解“吸附能力”使科学家和工程师能够设计出更好的材料，以满足特定目的，例如提高化学反应中催化剂的效率或增强污染控制中吸附剂的性能。此外，材料的“吸附能力”会受到多种因素的影响，包括温度、压力和吸附物的性质。例如，气体与液体相比可能具有不同的吸附特性，这取决于它们的分子大小和与表面的相互作用。研究人员通常会进行实验，以测量不同材料在不同条件下的“吸附能力”，以确定它们在特定应用中的适用性。在环境修复的背景下，理解材料的“吸附能力”可以导致更有效的清理受污染场所的策略。通过选择具有高“吸附能力”的材料，我们可以增强从土壤和水中去除污染物的效果，从而保护生态系统和人类健康。这种方法不仅有利于解决现有的污染问题，还在防止未来的环境问题方面发挥着重要作用。此外，制药和食品加工等行业依赖某些材料的“吸附能力”来确保产品质量和安全性。在药物制剂中，例如，赋形剂的“吸附能力”会影响活性成分的稳定性和释放特性。同样，在食品包装中，具有高“吸附能力”的材料可以帮助吸收水分和氧气，从而延长产品的保质期。总之，“吸附能力”这一术语涵盖了各个领域的广泛含义。它的重要性超越了理论概念，影响着对技术进步和环境可持续性作出贡献的实际应用。随着研究继续探索新材料及其“吸附能力”，我们可以期待看到创新解决方案，以应对当今社会面临的一些紧迫挑战。通过利用具有高“吸附能力”的材料的潜力，我们可以为一个更清洁、更安全和更高效的未来铺平道路。