cycloparaffin
简明释义
英[ˌsaɪkloʊˈpærəfɪn]美[ˌsaɪkloʊˈpærəfɪn]
[有化] 环烷烃
环烷
英英释义
A cycloparaffin is a type of hydrocarbon that contains a cyclic structure and is saturated, meaning it has single bonds between carbon atoms. | 环烷烃是一种含有环状结构的饱和烃,意味着它的碳原子之间只有单键。 |
单词用法
同义词
反义词
芳香烃 | Aromatic hydrocarbons are often used as solvents in industrial applications. | 芳香烃常用于工业应用中的溶剂。 | |
线性烷烃 | Linear alkanes are commonly found in natural gas and petroleum. | 线性烷烃常见于天然气和石油中。 |
例句
1.The extractive is diluted by the alkane-cycloparaffin solvent with weight ratio 1: (0.1-0.5).
所述提取物用链烷-环烷溶剂 以溶剂对提取物为(0.1~0.5)∶1的重量比预先进行稀释。
2.Compared with crude petroleum, F-T synthetic crude oil mainly has paraffin and alkene, containing few cycloparaffin and arene, with extremely low sulfur and nitrogen.
同石油原油相比,F-T合成粗油品主要由链烷烃和链烯烃组成,环烷烃和芳烃含量很少,且具有硫、氮等含量少的优点。
3.Compared with crude petroleum, F-T synthetic crude oil mainly has paraffin and alkene, containing few cycloparaffin and arene, with extremely low sulfur and nitrogen.
同石油原油相比,F-T合成粗油品主要由链烷烃和链烯烃组成,环烷烃和芳烃含量很少,且具有硫、氮等含量少的优点。
4.The chemical industry often utilizes cycloparaffin 环烷烃 as a solvent in various processes.
化学工业常常将环烷烃作为各种过程中的溶剂。
5.Researchers are studying the environmental impact of cycloparaffin 环烷烃 in marine ecosystems.
研究人员正在研究环烷烃在海洋生态系统中的环境影响。
6.In the formulation of lubricants, cycloparaffin 环烷烃 can enhance thermal stability.
在润滑剂的配方中,环烷烃可以增强热稳定性。
7.Manufacturers often prefer cycloparaffin 环烷烃 for fuel additives because of its low volatility.
制造商通常更喜欢使用环烷烃作为燃料添加剂,因为它的挥发性低。
8.The use of cycloparaffin 环烷烃 in cosmetics is gaining popularity due to its moisturizing properties.
由于其保湿特性,环烷烃在化妆品中的使用正越来越受欢迎。
作文
In the world of organic chemistry, various compounds play crucial roles in numerous applications, from industrial processes to everyday products. One such compound is cycloparaffin, which refers to a saturated cyclic hydrocarbon. These compounds are characterized by their ring structure and are an essential part of many chemical reactions and processes. Understanding cycloparaffin and its properties can provide insights into its significance in both industrial and environmental contexts.To begin with, cycloparaffin compounds are formed when carbon atoms are arranged in a circular or cyclic formation, with hydrogen atoms filling the remaining bonds. This structure gives cycloparaffin unique properties compared to their linear counterparts, such as alkanes. The stability of these rings often leads to interesting chemical behavior, making them valuable in the synthesis of various materials.One of the most common examples of cycloparaffin is cyclohexane, a six-carbon ring that is widely used as a solvent and as a precursor in the production of nylon. Cyclohexane’s ability to dissolve a range of substances makes it an important component in laboratories and industrial applications. Additionally, its relatively high boiling point compared to straight-chain alkanes allows it to be used in processes requiring higher temperatures without evaporating too quickly.The significance of cycloparaffin extends beyond industrial uses; they also play a role in environmental chemistry. For instance, some cycloparaffin compounds are found in crude oil and petroleum products. Their presence can affect the physical and chemical properties of these resources, influencing how they are processed and refined. Moreover, understanding the behavior of cycloparaffin in the environment is crucial for assessing the impact of oil spills and other ecological disruptions. Researchers study how these compounds behave in soil and water, how they degrade, and what effects they might have on living organisms.Furthermore, cycloparaffin compounds are also being explored in the context of renewable energy. As the world shifts towards cleaner energy sources, there is a growing interest in biofuels and alternative energy solutions. Some researchers are investigating the potential of using cycloparaffin derivatives as components in biofuels, which could lead to more sustainable energy options that reduce reliance on fossil fuels.In conclusion, cycloparaffin compounds are vital in various fields, including industrial chemistry, environmental science, and renewable energy research. Their unique structural properties and behaviors make them essential for numerous applications, from the creation of synthetic materials to understanding environmental impacts. As we continue to explore the potential of cycloparaffin, it is clear that these compounds will remain an important focus in both scientific research and practical applications, highlighting the intricate connections between chemistry and our daily lives.
环烷烃是有机化学中一种重要的化合物,指的是一种饱和的环状烃。这些化合物以其环状结构为特征,在许多化学反应和过程中发挥着重要作用。理解环烷烃及其性质可以为我们提供在工业和环境背景下的意义。首先,环烷烃化合物形成于碳原子以圆形或环状的方式排列,氢原子填补剩余的键。这一结构使得环烷烃与其线性同类(如烷烃)相比具有独特的性质。这些环的稳定性常常导致有趣的化学行为,使得它们在各种材料的合成中具有重要价值。一个常见的例子是环己烷,这是一种六碳环,广泛用作溶剂和尼龙生产的前体。环己烷能够溶解多种物质,使其成为实验室和工业应用中的重要成分。此外,与直链烷烃相比,环己烷的相对高沸点使其能够在需要较高温度的过程中使用,而不会过快蒸发。环烷烃的重要性不仅限于工业用途;它们在环境化学中也扮演着角色。例如,一些环烷烃化合物存在于原油和石油产品中。它们的存在可能影响这些资源的物理和化学性质,从而影响其加工和精炼方式。此外,理解环烷烃在环境中的行为对于评估石油泄漏和其他生态破坏的影响至关重要。研究人员研究这些化合物在土壤和水中的行为、降解方式以及对生物体的潜在影响。此外,环烷烃化合物还在可再生能源的背景下受到关注。随着世界向更清洁的能源来源转变,生物燃料和替代能源解决方案的兴趣日益增长。一些研究人员正在研究使用环烷烃衍生物作为生物燃料成分的潜力,这可能导致更可持续的能源选项,减少对化石燃料的依赖。总之,环烷烃化合物在多个领域中至关重要,包括工业化学、环境科学和可再生能源研究。它们独特的结构特性和行为使其在从合成材料的创造到理解环境影响的众多应用中不可或缺。随着我们继续探索环烷烃的潜力,很明显,这些化合物将在科学研究和实际应用中保持重要焦点,突显出化学与我们日常生活之间的复杂联系。