pyrolyze

简明释义

[ˈpaɪərəlaɪz][ˈpaɪrəˌlaɪz]

vt. 使……热解;使……裂解

第 三 人 称 单 数 p y r o l y z e s

现 在 分 词 p y r o l y z i n g

过 去 式 p y r o l y z e d

过 去 分 词 p y r o l y z e d

英英释义

To subject a substance to pyrolysis, a chemical process that involves the decomposition of organic materials through the application of heat in the absence of oxygen.

将一种物质置于热解过程中,这是一种通过在缺氧条件下应用热量使有机材料分解的化学过程。

单词用法

pyrolyze organic waste

热解有机废物

pyrolyze biomass

热解生物质

pyrolyze at high temperatures

在高温下热解

pyrolyze in an inert atmosphere

在惰性气氛中热解

thermal pyrolysis

热解

slow pyrolysis

慢速热解

fast pyrolysis

快速热解

pyrolysis process

热解过程

同义词

thermolysis

热解

Thermolysis is a process where chemical compounds are broken down by heat.

热解是一种通过热量分解化合物的过程。

decomposition

分解

Decomposition of organic materials can occur through pyrolyze under anaerobic conditions.

有机材料在缺氧条件下可以通过热解发生分解。

carbonization

碳化

Carbonization involves the pyrolyze of organic matter to produce carbon-rich residues.

碳化涉及将有机物质进行热解以产生富含碳的残留物。

反义词

synthesize

合成

The chemists aim to synthesize new compounds for pharmaceuticals.

化学家们的目标是合成新化合物用于制药。

hydrate

水合

Plants hydrate through the process of photosynthesis.

植物通过光合作用进行水合。

例句

1.Scientists are studying how to pyrolyze 热解 biomass to produce biochar as a sustainable soil amendment.

科学家正在研究如何热解生物质以生产生物炭,作为一种可持续的土壤改良剂。

2.The laboratory experiment aimed to pyrolyze 热解 plastics to explore potential recycling methods.

实验室实验旨在热解塑料,以探索潜在的回收方法。

3.Engineers have developed a new reactor that can efficiently pyrolyze 热解 municipal solid waste.

工程师们开发了一种新反应器,可以有效地热解城市固体废物。

4.In the production of biofuels, it is essential to pyrolyze 热解 feedstock at high temperatures.

在生物燃料的生产中,重要的是在高温下热解原料。

5.The process of waste management often involves techniques that can pyrolyze 热解 organic materials to reduce their volume.

废物管理的过程通常涉及可以热解有机材料以减少其体积的技术。

作文

In recent years, the focus on renewable energy sources has grown significantly. One of the most intriguing processes in this field is the ability to pyrolyze organic materials. To pyrolyze (热解) means to thermally decompose a material at elevated temperatures in an inert atmosphere, typically without oxygen. This process can convert biomass into valuable products such as biochar, bio-oil, and syngas, which can be used for energy production or as feedstocks for various chemical processes.The importance of pyrolyze (热解) lies in its potential to manage waste effectively while generating energy. For instance, agricultural waste, forestry residues, and even municipal solid waste can be pyrolyzed (热解) to reduce their volume and create useful byproducts. By converting these materials through pyrolyze (热解), we can not only minimize landfill use but also contribute to a circular economy where waste is transformed into resources.Furthermore, the biochar produced from pyrolyze (热解) has significant benefits for soil health. When added to soil, biochar can improve its structure, enhance water retention, and increase nutrient availability. This is particularly beneficial in areas affected by soil degradation and erosion. Additionally, biochar can sequester carbon, thus playing a role in mitigating climate change. The carbon stored in biochar can remain in the soil for hundreds to thousands of years, making it a long-term solution for carbon storage.Moreover, the bio-oil generated through the pyrolyze (热解) process can be further refined into various fuels and chemicals. It contains a mixture of organic compounds that can be upgraded to produce transportation fuels or used as a substitute for fossil fuels in industrial applications. The versatility of bio-oil makes it an attractive option for reducing reliance on conventional petroleum-based products.Another product of pyrolyze (热解) is syngas, a mixture of hydrogen and carbon monoxide. Syngas can be utilized for electricity generation or converted into liquid fuels through various chemical processes. This capability to produce multiple energy carriers from a single feedstock highlights the efficiency of the pyrolyze (热解) process.Despite its advantages, there are challenges associated with pyrolyze (热解). The technology requires careful management of operating conditions to optimize the yield and quality of the products. Additionally, the economic viability of pyrolyze (热解) plants can be influenced by feedstock availability, market demand for the end products, and regulatory frameworks.In conclusion, pyrolyze (热解) represents a promising technology in the quest for sustainable energy solutions. By transforming organic waste into valuable resources, it addresses environmental concerns while providing economic opportunities. As research and development continue to advance this technology, it could play a crucial role in shaping a more sustainable future. Understanding the process of pyrolyze (热解) and its implications is essential for anyone interested in environmental science and renewable energy.

近年来,对可再生能源的关注显著增加。在这个领域中,一个最令人感兴趣的过程是能够对有机材料进行pyrolyzepyrolyze(热解)是指在惰性气氛中以升高温度热分解材料的过程,通常没有氧气。这一过程可以将生物质转化为有价值的产品,如生物炭、生物油和合成气,这些都可以用于能源生产或作为各种化学过程的原料。pyrolyze(热解)的重要性在于它有效管理废物的潜力,同时产生能源。例如,农业废物、林业残余物甚至城市固体废物都可以通过pyrolyze(热解)来减少其体积并创造有用的副产品。通过对这些材料进行pyrolyze(热解),我们不仅可以减少填埋场的使用,还可以为循环经济做出贡献,将废物转化为资源。此外,通过pyrolyze(热解)产生的生物炭对土壤健康具有显著好处。当添加到土壤中时,生物炭可以改善土壤结构,增强水分保持能力,并提高养分可用性。这对于受到土壤退化和侵蚀影响的地区特别有益。此外,生物炭可以封存碳,从而在减缓气候变化方面发挥作用。生物炭中储存的碳可以在土壤中存在数百到数千年,使其成为长期碳储存的解决方案。此外,通过pyrolyze(热解)过程生成的生物油可以进一步精炼为各种燃料和化学品。它包含一系列有机化合物,可以升级为运输燃料或用作工业应用中的化石燃料替代品。生物油的多功能性使其成为减少对传统石油产品依赖的有吸引力的选择。pyrolyze(热解)的另一个产品是合成气,它是一种氢气和一氧化碳的混合物。合成气可以用于发电或通过各种化学过程转化为液体燃料。通过单一原料生产多种能源载体的能力突显了pyrolyze(热解)过程的效率。尽管有其优势,但与pyrolyze(热解)相关的挑战也不少。该技术需要对操作条件进行仔细管理,以优化产品的产量和质量。此外,pyrolyze(热解)工厂的经济可行性可能会受到原料可用性、最终产品的市场需求和监管框架的影响。总之,pyrolyze(热解)代表了可持续能源解决方案探索中的一种有前景的技术。通过将有机废物转化为有价值的资源,它解决了环境问题,同时提供了经济机会。随着研究和开发继续推动这一技术的发展,它可能在塑造更可持续的未来中发挥关键作用。理解pyrolyze(热解)过程及其影响对于任何对环境科学和可再生能源感兴趣的人来说都是至关重要的。