amylene
简明释义
英[/ˈæm.ɪ.liːn/]美[/ˈæm.ɪ.liːn/]
n. [有化] 戊烯
英英释义
单词用法
同义词
| 戊烯 | 戊烯常用于塑料的生产。 | ||
| 烯烃 | Olefin compounds are important in the petrochemical industry. | 烯烃化合物在石油化工行业中非常重要。 |
反义词
| 水 | 水是生命所必需的。 | ||
| 乙醇 | 乙醇常用作溶剂。 |
例句
1.This paper mainly studies the effect of pressure, LHSV, temperature and mole ratio of alcohol and alkene on conversion ratio of tertiary amylene.
本文主要考察和研究了反应压力、空速、反应温度、醇烯摩尔比对叔戊烯转化率的影响。
2.This paper mainly studies the effect of pressure, LHSV, temperature and mole ratio of alcohol and alkene on conversion ratio of tertiary amylene.
本文主要考察和研究了反应压力、空速、反应温度、醇烯摩尔比对叔戊烯转化率的影响。
3.In the laboratory, we used amylene as a solvent for organic reactions.
在实验室中,我们使用amylene作为有机反应的溶剂。
4.The chemical formula for amylene is C5H10, which indicates it is an alkene.
化学式为amylene的是C5H10,这表明它是一种烯烃。
5.Safety data sheets advise wearing gloves when handling amylene due to its flammable nature.
安全数据表建议在处理amylene时佩戴手套,因为它具有易燃性。
6.The production of amylene can be achieved through the catalytic cracking of hydrocarbons.
可以通过催化裂化烃类来生产amylene。
7.Researchers are studying the polymerization of amylene to create new materials.
研究人员正在研究amylene的聚合以创造新材料。
作文
Amylene, a term that may not be familiar to many, refers to a group of organic compounds that are characterized by their double bond in the carbon chain. Specifically, it is an alkene, which means it contains at least one carbon-carbon double bond. These compounds are often used in various industrial applications due to their unique properties. For instance, amylene (氨基烯) can be utilized in the production of plastics, synthetic rubber, and other important materials. Understanding amylene (氨基烯) is crucial for those studying chemistry and its practical applications in everyday life.The significance of amylene (氨基烯) extends beyond just its chemical structure. In the world of organic chemistry, alkenes like amylene (氨基烯) play a vital role in the synthesis of more complex molecules. They can undergo various reactions, such as polymerization, where multiple amylene (氨基烯) molecules combine to form larger chains. This property is particularly valuable in creating materials that have specific characteristics desirable in manufacturing.Moreover, the presence of the double bond in amylene (氨基烯) makes it reactive, allowing it to participate in addition reactions with other chemicals. This reactivity is what makes amylene (氨基烯) a key player in chemical processes. For example, when amylene (氨基烯) reacts with hydrogen, it can form alkanes, which are saturated hydrocarbons. This transformation is essential in refining processes and the production of fuels.In terms of safety and handling, understanding the properties of amylene (氨基烯) is also important. Like many chemicals, it must be handled with care to avoid hazards. Proper storage and usage protocols are necessary to ensure that those working with amylene (氨基烯) do so safely. This includes using personal protective equipment and understanding the potential risks associated with exposure.Furthermore, the study of amylene (氨基烯) and its derivatives opens up avenues for research in various fields, including environmental science. Researchers are exploring ways to utilize amylene (氨基烯) in creating biodegradable materials, which could significantly reduce plastic waste in our environment. This innovative approach highlights how a deep understanding of chemical compounds can lead to sustainable solutions.In conclusion, amylene (氨基烯) is more than just a chemical term; it represents a class of compounds that are integral to numerous industrial processes and scientific research. By grasping the concept of amylene (氨基烯), students and professionals alike can appreciate its importance in the world of chemistry and its potential impact on our future. Whether it is through the creation of new materials or the advancement of sustainable practices, the study of amylene (氨基烯) is undeniably significant.
氨基烯这个词可能对许多人来说并不熟悉,它指的是一组有机化合物,其特征是碳链中的双键。具体来说,它是一种烯烃,这意味着它至少包含一个碳-碳双键。这些化合物由于其独特的性质,常用于各种工业应用。例如,amylene(氨基烯)可用于生产塑料、合成橡胶和其他重要材料。理解amylene(氨基烯)对于学习化学及其在日常生活中的实际应用的人来说至关重要。amylene(氨基烯)的重要性不仅仅体现在其化学结构上。在有机化学的世界中,像amylene(氨基烯)这样的烯烃在合成更复杂的分子中发挥着至关重要的作用。它们可以经历各种反应,例如聚合反应,其中多个amylene(氨基烯)分子结合形成更大的链。这种特性在制造具有特定特性的材料时尤其有价值。此外,amylene(氨基烯)中双键的存在使其具有反应性,从而使其能够与其他化学物质发生加成反应。这种反应性使amylene(氨基烯)成为化学过程中的关键参与者。例如,当amylene(氨基烯)与氢反应时,可以形成烷烃,这是一种饱和烃。这种转变对于精炼过程和燃料的生产至关重要。在安全和处理方面,理解amylene(氨基烯)的性质也很重要。像许多化学品一样,必须小心处理以避免危险。必须遵循适当的存储和使用协议,以确保与amylene(氨基烯)一起工作的人能够安全操作。这包括使用个人防护装备和了解接触的潜在风险。此外,对amylene(氨基烯)及其衍生物的研究为各个领域的研究开辟了新的途径,包括环境科学。研究人员正在探索利用amylene(氨基烯)来创造可生物降解材料的方法,这可能会显著减少我们环境中的塑料废物。这种创新方法突显了对化学化合物深入理解如何导致可持续解决方案。总之,amylene(氨基烯)不仅仅是一个化学术语;它代表了一类在众多工业过程和科学研究中不可或缺的化合物。通过掌握amylene(氨基烯)的概念,学生和专业人士都能欣赏到它在化学世界中的重要性及其对我们未来的潜在影响。无论是通过创造新材料还是推动可持续实践,amylene(氨基烯)的研究无疑具有重要意义。
