thermal dissociation
简明释义
热离解
英英释义
Thermal dissociation refers to the process in which a compound breaks down into its constituent parts or simpler substances due to the application of heat. | 热解离是指在施加热量的情况下,化合物分解为其组成部分或更简单物质的过程。 |
例句
1.The thermal dissociation 热解离 of carbon dioxide at elevated temperatures can produce carbon monoxide.
二氧化碳在高温下的 thermal dissociation 热解离 可以产生一氧化碳。
2.Researchers are investigating the thermal dissociation 热解离 of complex organic molecules for waste recycling.
研究人员正在调查复杂有机分子的 thermal dissociation 热解离 以进行废物回收。
3.The study focused on the thermal dissociation 热解离 of water vapor into hydrogen and oxygen.
研究集中于水蒸气的 thermal dissociation 热解离 过程,转化为氢和氧。
4.Understanding thermal dissociation 热解离 is crucial for improving combustion efficiency in engines.
理解 thermal dissociation 热解离 对于提高发动机的燃烧效率至关重要。
5.In high-temperature environments, thermal dissociation 热解离 can lead to the breakdown of molecular bonds.
在高温环境中,thermal dissociation 热解离 可能导致分子键的断裂。
作文
Thermal dissociation is a fascinating process that occurs in various chemical reactions, particularly involving gases. It refers to the breaking apart of molecules into their constituent atoms or smaller molecules when subjected to high temperatures. This phenomenon plays a critical role in several fields, including chemistry, physics, and even astrophysics. Understanding thermal dissociation (热解离) can provide insights into the behavior of substances under extreme conditions and help us comprehend various natural processes.One of the most common examples of thermal dissociation (热解离) is the decomposition of water vapor into hydrogen and oxygen gases. When water vapor is heated to very high temperatures, it can dissociate into its elemental components. This reaction can be represented by the equation: 2H₂O(g) → 2H₂(g) + O₂(g). The ability to split water into hydrogen and oxygen is not only significant for understanding chemical reactions but also has practical applications, such as hydrogen fuel production.In addition to water, many other compounds undergo thermal dissociation (热解离) at elevated temperatures. For instance, carbon dioxide can dissociate into carbon monoxide and oxygen when heated sufficiently. This reaction is important in various industrial processes, including the production of syngas, which is a mixture of hydrogen and carbon monoxide used for synthesizing fuels and chemicals.The concept of thermal dissociation (热解离) is also relevant in the study of stars and cosmic phenomena. In the high-temperature environments of stars, molecules can break down into their atomic components due to intense heat and pressure. This process contributes to the formation of new elements through nuclear fusion, a fundamental mechanism powering the stars and leading to the creation of the universe's matter.Moreover, thermal dissociation (热解离) is essential in the field of materials science. When materials are subjected to high temperatures, they may undergo structural changes, including dissociation. Understanding how materials behave under thermal stress can lead to the development of more resilient materials for various applications, from aerospace engineering to electronics.In conclusion, thermal dissociation (热解离) is a crucial concept in science that illustrates how heat can influence molecular structures. Its implications span across multiple disciplines, from chemistry to astrophysics, highlighting the interconnectedness of different scientific fields. By studying thermal dissociation (热解离), scientists can unlock the mysteries of chemical reactions, enhance industrial processes, and gain a deeper understanding of the universe's workings. As research continues to evolve, the knowledge gained from exploring thermal dissociation (热解离) will undoubtedly lead to innovative solutions and advancements in technology and science.
热解离是一个迷人的过程,发生在各种化学反应中,尤其是气体反应。它指的是当分子在高温下解体为其组成原子或较小分子时的现象。这种现象在多个领域中扮演着关键角色,包括化学、物理甚至天体物理学。理解热解离可以为我们提供关于物质在极端条件下行为的见解,并帮助我们理解各种自然过程。热解离的一个常见例子是水蒸气分解成氢气和氧气。当水蒸气被加热到非常高的温度时,它可以解离为其元素成分。这个反应可以用方程式表示:2H₂O(g) → 2H₂(g) + O₂(g)。将水分解为氢气和氧气的能力不仅对理解化学反应具有重要意义,还有实际应用,例如氢燃料的生产。除了水,许多其他化合物在高温下也会发生热解离。例如,二氧化碳在足够高的温度下可以解离为一氧化碳和氧气。这个反应在各种工业过程中很重要,包括合成气的生产,合成气是一种用于合成燃料和化学品的氢气和一氧化碳的混合物。热解离的概念在研究恒星和宇宙现象中也很相关。在恒星的高温环境中,由于强烈的热量和压力,分子可能会解体为其原子成分。这个过程有助于通过核聚变形成新元素,这是为恒星提供能量的基本机制,并导致宇宙物质的形成。此外,热解离在材料科学领域也至关重要。当材料在高温下受到影响时,它们可能会经历结构变化,包括解离。了解材料在热应力下的行为可以导致开发出更具韧性的材料,适用于从航空航天工程到电子产品的各种应用。总之,热解离是科学中的一个关键概念,说明了热量如何影响分子结构。它的影响跨越多个学科,从化学到天体物理学,突显了不同科学领域之间的相互联系。通过研究热解离,科学家可以揭示化学反应的奥秘,增强工业过程,并深入理解宇宙的运行机制。随着研究的不断发展,从探索热解离中获得的知识无疑将导致创新解决方案和技术与科学的进步。
相关单词
