tepefaction

简明释义

[ˌtepəˈfækʃən][ˌtepəˈfækʃən]

n. 微热,微温

英英释义

The process of converting organic matter into a more stable form, often involving the decomposition of materials under certain conditions.

将有机物质转化为更稳定形式的过程,通常涉及在特定条件下材料的分解。

单词用法

tepefaction process

tepefaction过程

tepefaction of materials

材料的tepefaction

undergo tepefaction

经历tepefaction

the tepefaction phenomenon

tepefaction现象

tepefaction rates

tepefaction速率

impact of tepefaction

tepefaction的影响

同义词

heating

加热

The tepefaction of the soil can lead to changes in plant growth.

土壤的加热可能导致植物生长的变化。

warming

变暖

Warming of the atmosphere is a significant concern for climate change.

大气的变暖是气候变化中的一个重要问题。

temperature increase

温度升高

Temperature increase in the ocean affects marine life.

海洋温度的升高影响海洋生物。

反义词

cooling

冷却

The cooling process is essential for maintaining the quality of the product.

冷却过程对于保持产品质量至关重要。

chilling

冷却

Chilling food quickly helps to prevent bacterial growth.

快速冷却食物有助于防止细菌生长。

例句

1.The text introduced work principle and existent disadvantage particular for traditional tepefaction regeneration adsorption type compress air decontamination system.

详细介绍了传统的微热再生吸附式压缩空气净化系统的工作原理及存在的缺点。

2.Tepefaction regeneration adsorption type dryer is used Twin Towers pressure swing adsorption, heat regeneration principle, get dry compressed air.

微热再生吸附式干燥机是采用双塔变压吸附、微加热再生的原理,得到干燥的压缩空气。

3.The text introduced work principle and existent disadvantage particular for traditional tepefaction regeneration adsorption type compress air decontamination system.

详细介绍了传统的微热再生吸附式压缩空气净化系统的工作原理及存在的缺点。

4.The process of tepefaction can lead to significant changes in the structure of the material.

tepefaction的过程可能导致材料结构的显著变化。

5.Researchers observed that tepefaction could enhance the durability of certain materials.

研究人员观察到,tepefaction可以增强某些材料的耐用性。

6.The study of tepefaction is essential for understanding metamorphic processes.

研究tepefaction对于理解变质过程至关重要。

7.In geology, tepefaction refers to the alteration of rocks under specific temperature conditions.

在地质学中,tepefaction指的是在特定温度条件下岩石的改变。

8.During tepefaction, minerals can recrystallize, resulting in new textures.

tepefaction过程中,矿物可以重新结晶,从而形成新的纹理。

作文

In the study of geology, the term tepefaction refers to the process of transformation of organic matter into a more stable form through the action of heat. This phenomenon is particularly significant in the context of fossil fuel formation and the natural processes that lead to the creation of coal, oil, and gas. Understanding tepefaction is crucial for geologists and environmental scientists as it provides insight into how energy resources are formed over millions of years and how they can be harnessed sustainably.To illustrate the concept of tepefaction, one can consider the formation of coal. It begins with the accumulation of plant material in swampy areas. Over time, this organic matter is buried under layers of sediment. As the layers build up, the pressure and temperature increase, initiating the tepefaction process. During this stage, the heat causes the breakdown of complex organic molecules, resulting in the release of volatile compounds and the concentration of carbon.The significance of tepefaction extends beyond just fossil fuel formation; it also has implications for climate change. The understanding of how organic materials transform under heat can help researchers predict how carbon is stored in different environments and how it might be released back into the atmosphere. For instance, as global temperatures rise, permafrost regions may experience accelerated tepefaction, leading to the release of trapped greenhouse gases such as methane, which could further exacerbate climate change.Moreover, the concept of tepefaction can be applied in various fields, including archaeology and anthropology. The preservation of ancient organic materials, such as wood or bone, can be influenced by tepefaction processes. Understanding these processes allows archaeologists to better interpret the conditions under which ancient civilizations thrived and how they interacted with their environment.In conclusion, tepefaction is a multifaceted term that encompasses not only the geological transformation of organic materials but also broader implications for energy resources and environmental science. By studying this process, we gain valuable insights into the Earth's history, the formation of fossil fuels, and the potential impacts of climate change. As we continue to explore and understand the complexities of our planet, the role of tepefaction will undoubtedly remain a key area of interest for scientists and researchers alike.

在地质学研究中,术语tepefaction指的是有机物通过热作用转变为更稳定形式的过程。这一现象在化石燃料形成的背景下尤为重要,以及导致煤、石油和天然气生成的自然过程。理解tepefaction对地质学家和环境科学家至关重要,因为它提供了关于能源资源如何在数百万年内形成以及如何可持续利用的洞察。为了说明tepefaction的概念,可以考虑煤的形成。它始于植物材料在沼泽地区的积累。随着时间的推移,这些有机物被埋在沉积层下。随着层数的增加,压力和温度升高,启动了tepefaction过程。在这个阶段,热量导致复杂有机分子的分解,释放挥发性化合物并浓缩碳。tepefaction的重要性不仅仅局限于化石燃料的形成;它还对气候变化产生影响。理解有机材料在热下如何转变可以帮助研究人员预测不同环境中碳的储存方式及其可能重新释放到大气中的情况。例如,随着全球气温上升,永久冻土地区可能经历加速的tepefaction,导致困住的温室气体如甲烷的释放,这可能进一步加剧气候变化。此外,tepefaction的概念也可以应用于考古学和人类学等各个领域。古代有机材料(如木材或骨头)的保存可能受到tepefaction过程的影响。理解这些过程使考古学家能够更好地解读古代文明繁荣的条件以及它们如何与环境互动。总之,tepefaction是一个多方面的术语,不仅涵盖了有机材料的地质转变,还涉及能源资源和环境科学的更广泛影响。通过研究这一过程,我们获得了关于地球历史、化石燃料形成以及气候变化潜在影响的宝贵见解。随着我们继续探索和理解我们星球的复杂性,tepefaction的角色无疑将继续成为科学家和研究人员关注的重点领域。