extractible

简明释义

英[ɪkˈstræktəbl]美[ɪkˈstræktəbl]

adj. 可提取的；可榨出的；可摘录的

英英释义

单词用法

同义词

反义词

例句

1.However, the country revised its reserve estimates last October, and currently has 143.1bn barrels of known and extractible oil, up from the 115bn barrels previously estimated.

但是，伊拉克在去年十月，对原油储量估计进行了修正。

2.However, the country revised its reserve estimates last October, and currently has 143.1bn barrels of known and extractible oil, up from the 115bn barrels previously estimated.

但是，伊拉克在去年十月，对原油储量估计进行了修正。

3.The data from the survey is extractible 可提取的 for further analysis.

调查中的数据是可提取的，可以用于进一步分析。

4.This software allows you to work with extractible 可提取的 files easily.

这个软件允许你轻松处理可提取的文件。

5.The nutrients in the food are extractible 可提取的 through various cooking methods.

食物中的营养成分可以通过各种烹饪方法可提取。

6.The information stored in the database is extractible 可提取的 using specific queries.

数据库中存储的信息可以通过特定查询可提取。

7.In this experiment, we will identify extractible 可提取的 compounds from the plant.

在这个实验中，我们将识别植物中可提取的化合物。

作文

In the realm of science and technology, the concept of extractible materials plays a crucial role in various fields such as chemistry, environmental science, and engineering. The term extractible refers to substances that can be separated or removed from a mixture or compound through physical or chemical processes. Understanding which materials are extractible is essential for developing efficient extraction methods, whether it be for natural resources or for the recovery of valuable compounds from waste products. For instance, in the field of chemistry, researchers often work with complex mixtures that contain numerous compounds. Identifying the extractible components in these mixtures allows scientists to isolate specific substances for further study or application. This process is particularly important in pharmaceuticals, where the goal is to extract active ingredients from plants or synthetic compounds to create effective medications. The ability to determine which compounds are extractible can significantly impact the efficiency of drug development and production. In environmental science, the concept of extractible materials is equally significant. For example, when dealing with contaminated soil or water, scientists need to know which pollutants are extractible so that they can choose the best remediation techniques. Some contaminants may be tightly bound to soil particles and not easily extractible, while others may be readily removed through washing or chemical treatments. Understanding the extractible nature of these substances helps in designing effective cleanup strategies that minimize environmental impact. Moreover, in the field of engineering, particularly in materials science, the extractible properties of materials can influence the design and functionality of products. For example, in the development of batteries, engineers must consider which materials are extractible when recycling old batteries. The ability to recover metals like lithium or cobalt from spent batteries is crucial for creating sustainable practices in the tech industry. By focusing on extractible materials, companies can reduce waste and promote a circular economy. In conclusion, the understanding of extractible materials is vital across multiple disciplines. Whether it’s for isolating compounds in a laboratory, remediating environmental pollutants, or recycling materials in engineering, the knowledge of what can be extractible shapes our approach to solving complex problems. As technology advances and our understanding of materials deepens, the importance of identifying and utilizing extractible substances will only grow, highlighting the need for ongoing research and innovation in this area. The implications of extractible materials extend beyond individual projects; they contribute to broader efforts in sustainability and resource management, ultimately benefiting society as a whole.

在科学和技术领域，extractible材料的概念在化学、环境科学和工程等多个领域中发挥着至关重要的作用。术语extractible指的是可以通过物理或化学过程从混合物或化合物中分离或去除的物质。了解哪些材料是extractible对开发有效的提取方法至关重要，无论是用于自然资源还是从废弃物中回收有价值的化合物。 例如，在化学领域，研究人员经常处理含有多种化合物的复杂混合物。识别这些混合物中的extractible成分使科学家能够分离特定物质以进行进一步研究或应用。这个过程在制药行业尤为重要，其目标是从植物或合成化合物中提取活性成分，以创造有效的药物。确定哪些化合物是extractible的能力可以显著影响药物开发和生产的效率。 在环境科学中，extractible材料的概念同样重要。例如，在处理被污染的土壤或水时，科学家需要知道哪些污染物是extractible的，以便选择最佳的修复技术。一些污染物可能与土壤颗粒紧密结合，不易extractible，而其他污染物则可以通过冲洗或化学处理轻松去除。了解这些物质的extractible特性有助于设计有效的清理策略，最大限度地减少对环境的影响。 此外，在工程领域，特别是在材料科学中，材料的extractible特性会影响产品的设计和功能。例如，在电池的开发中，工程师必须考虑在回收旧电池时哪些材料是extractible的。从废旧电池中回收锂或钴等金属的能力对于在科技行业创造可持续实践至关重要。通过关注extractible材料，公司可以减少废物并促进循环经济。 总之，理解extractible材料在多个学科中至关重要。无论是在实验室中分离化合物、修复环境污染物，还是在工程中回收材料，对什么可以是extractible的知识都塑造了我们解决复杂问题的方法。随着技术的进步和我们对材料理解的加深，识别和利用extractible物质的重要性只会增加，突显出在这一领域持续研究和创新的必要性。extractible材料的影响超越了单个项目；它们有助于可持续性和资源管理的更广泛努力，最终造福整个社会。