adipic

简明释义

英[əˈdɪpɪk]美[əˈdɪpɪk]

adj. 脂肪的，油质的

英英释义

单词用法

同义词

反义词

例句

1.This paper describes the production of adipic acid nitric acid oxidation in the process of two different catalysts at the similarities and differences in the recovery process.

阐述了硝酸氧化法生产己二酸的过程中两种不同的催化剂回收工艺的异同点。

2.Feasibility and advantages of separating impurities of the rude adipic acid from bi unit with a membrane separation technology are made.

利用膜分离技术将BI装置的产品粗己二酸中的杂质分离出来，得到精己二酸溶液的可行性及优点。

3.The fluidized bed with immerged tube has been applied in adipic acid dryer device, which provides a new thought for the reformation of dryer in PTA device.

埋管流化床在己二酸干燥装置上的应用，为PTA装置中干燥机的改进提供了一个新的思路。

4.The dibutyl adi-pate was synthesized from adipic acid and n-butyl alcohol in the presence of amino sulfonic acid.

在氨基磺酸存在下，由己二酸和正丁醇合成己二酸二丁酯。

5.Adipic acid bis(2-ethylhexyl) ester;

己二酸二辛酯；

6.In most cases, the yield of target product adipic acid is high if the acidity of ligand is strong.

在大多数情况下，配体的酸性越强，目标产物己二酸的产率越高。

7.And the catalyst has good catalytic performance in some other diesters of sebacie acid and adipic acid.

该催化剂对其他一些葵二酸双酯和己二酸双酯的合成也具有良好的催化活性。

8.The results show that the combination of adipic acid and acetonitrile is the best catalyst.

结果表明：以己二酸和乙腈组合为催化剂的催化效果最好。

9.The synthesis of certain polyurethanes utilizes adipic acid as a key ingredient.

某些聚氨酯的合成利用己二酸作为关键成分。

10.In the food industry, adipic acid can be used as a flavoring agent.

在食品工业中，己二酸可以用作调味剂。

11.The polymerization process often requires adipic acid to enhance properties.

聚合过程通常需要己二酸来增强性能。

12.Researchers are studying the effects of adipic acid on biodegradable plastics.

研究人员正在研究己二酸对可生物降解塑料的影响。

13.The production of nylon-6,6 involves the use of adipic acid.

尼龙-6,6的生产涉及使用己二酸。

作文

In the world of chemistry and industrial production, certain compounds play crucial roles in the manufacturing of various products. One such compound is adipic, which is primarily known for its use in the production of nylon. Nylon, a synthetic polymer, has revolutionized the textile industry due to its durability and versatility. The significance of adipic acid cannot be overstated, as it serves as a key ingredient in the synthesis of nylon-6,6, one of the most widely used types of nylon.Adipic acid, or hexanedioic acid, is a dicarboxylic acid with the chemical formula C6H10O4. It is typically produced through the oxidation of cyclohexanol and cyclohexanone, which are derived from petroleum. This process not only highlights the importance of adipic acid in the production of nylon but also emphasizes the reliance on fossil fuels for many chemical processes. As industries continue to seek sustainable alternatives, the production of adipic acid from renewable resources has become a topic of significant research and development.Beyond its role in nylon production, adipic acid has several other applications. It is utilized as a food additive, where it acts as a flavoring agent and acidulant. In the food industry, adipic acid can enhance the taste of certain products while also providing a sour flavor that balances sweetness. Furthermore, it is used in the production of plasticizers, lubricants, and even in the formulation of certain pharmaceuticals. The versatility of adipic acid demonstrates its importance across multiple sectors.However, the production of adipic acid is not without environmental concerns. The traditional methods of synthesis often involve the release of nitrous oxide (N2O), a potent greenhouse gas. As climate change becomes an increasingly pressing issue, manufacturers are under pressure to find greener methods of production. Research into biotechnological approaches for the synthesis of adipic acid is gaining momentum, with the aim of reducing the carbon footprint associated with its production.The future of adipic acid production will likely involve a combination of traditional methods and innovative techniques aimed at sustainability. As consumers become more environmentally conscious, the demand for products made with sustainably sourced materials will increase. This shift could lead to a transformation in how adipic acid is produced, pushing industries to adopt practices that minimize environmental impact.In conclusion, adipic acid is a vital compound in the industrial landscape, particularly in the production of nylon and various other products. Its applications extend beyond textiles into the food and pharmaceutical industries, showcasing its versatility. However, the environmental implications of its production cannot be ignored. As we move forward, it is essential to prioritize sustainable practices that ensure the continued availability of adipic acid while minimizing harm to our planet. By embracing innovation and sustainability, we can harness the benefits of adipic acid for generations to come.

在化学和工业生产的世界中，某些化合物在各种产品的制造中发挥着至关重要的作用。其中一种化合物是己二酸，它主要用于尼龙的生产。尼龙是一种合成聚合物，由于其耐用性和多功能性，彻底改变了纺织工业。己二酸的意义不容小觑，因为它是合成尼龙-6,6的关键成分，而尼龙-6,6是最广泛使用的尼龙类型之一。己二酸，或称为己二酸，是一种具有化学式C6H10O4的二羧酸。它通常通过环己醇和环己酮的氧化生产，这些化合物源自石油。这一过程不仅突显了己二酸在尼龙生产中的重要性，还强调了许多化学过程对化石燃料的依赖。随着各行业继续寻求可持续替代品，从可再生资源中生产己二酸已成为重要的研究和开发课题。除了在尼龙生产中的作用外，己二酸还有其他几种应用。它被用作食品添加剂，作为调味剂和酸度调节剂。在食品工业中，己二酸可以增强某些产品的味道，同时提供一种平衡甜味的酸味。此外，它还用于塑化剂、润滑剂的生产，甚至在某些药物的配方中也有应用。己二酸的多功能性展示了其在多个行业的重要性。然而，己二酸的生产并非没有环境问题。传统的合成方法通常涉及释放一氧化二氮（N2O），这是一种强效的温室气体。随着气候变化成为日益紧迫的问题，制造商面临寻找更环保的生产方法的压力。对生物技术方法合成己二酸的研究正在获得动力，旨在减少与其生产相关的碳足迹。未来的己二酸生产可能会结合传统方法和旨在可持续性的创新技术。随着消费者变得更加关注环境，对可持续来源材料制造的产品的需求将增加。这种转变可能导致己二酸的生产方式发生变化，推动各行业采用减少环境影响的做法。总之，己二酸是工业领域的重要化合物，特别是在尼龙和各种其他产品的生产中。它的应用超越了纺织品，延伸到食品和制药工业，展示了其多功能性。然而，其生产的环境影响不可忽视。随着我们向前发展，优先考虑可持续实践以确保己二酸的持续供应，同时最大限度地减少对我们星球的危害是至关重要的。通过拥抱创新和可持续性，我们可以在未来几代人中利用己二酸的好处。