pyroligneous
简明释义
英[ˌpaɪrəʊˈlɪɡniəs]美[pɪəroˈlɪɡnɪəs]
adj. 焦木的;干馏木材而得的
英英释义
Relating to or derived from the distillation of wood, especially in the production of charcoal and wood vinegar. | 与木材的蒸馏有关或来源于木材,特别是在木炭和木醋的生产中。 |
单词用法
木焦烟 | |
木焦蒸馏 | |
木焦物质 | |
由木焦过程产生的 | |
用于木焦应用中 |
同义词
| 木醋 | Wood vinegar is often used as a natural pesticide in organic farming. | 木醋常用于有机农业中的天然杀虫剂。 | |
| 木醋酸 | Pyroligneous acid can be utilized in the production of biofuels. | 木醋酸可用于生物燃料的生产。 | |
| 烟雾冷凝物 | 烟雾冷凝物有时被添加到食物中以增加风味。 |
反义词
| 非木焦液的 | The non-pyroligneous substances are often used in water treatment. | 非木焦液的物质常用于水处理。 | |
| 水的 | 在许多化学反应中,水溶液是首选。 |
例句
1.The invention discloses a method for preparing pyroligneous by utilizing apricot shells and preparation of apricot shell active carbon based on the method.
本发明公开了一种利用杏壳制备木醋液的方法,以及基于该方法的杏壳活性炭的制备。
2.The invention discloses a method for preparing pyroligneous by utilizing apricot shells and preparation of apricot shell active carbon based on the method.
本发明公开了一种利用杏壳制备木醋液的方法,以及基于该方法的杏壳活性炭的制备。
3.The distillation process produced a variety of compounds, including pyroligneous 木焦油的 acid.
蒸馏过程产生了多种化合物,包括pyroligneous 木焦油的 酸。
4.Farmers often use pyroligneous 木焦油的 liquid as a natural pesticide.
农民们常常使用pyroligneous 木焦油的 液体作为天然杀虫剂。
5.The pyroligneous 木焦油的 smoke from the wood burning is rich in organic compounds.
燃烧木材产生的pyroligneous 木焦油的 烟雾富含有机化合物。
6.The use of pyroligneous 木焦油的 acid in food preservation has been documented for centuries.
使用pyroligneous 木焦油的 酸进行食品保存的记录已有几个世纪。
7.In traditional medicine, pyroligneous 木焦油的 extracts are believed to have healing properties.
在传统医学中,pyroligneous 木焦油的 提取物被认为具有治愈特性。
作文
In recent years, the interest in sustainable and alternative energy sources has surged, leading to a renewed focus on traditional methods of producing energy. One such method is the production of pyroligneous (木酚液) acid, which is derived from the destructive distillation of wood. This process involves heating wood in the absence of oxygen, causing it to decompose into various components, including gases, charcoal, and a liquid known as pyroligneous acid. The significance of this substance lies not only in its historical use but also in its potential applications in modern technology.Historically, pyroligneous acid has been used for centuries in different cultures around the world. Ancient civilizations recognized its value as a preservative and antiseptic. The liquid contains a complex mixture of organic compounds, including acetic acid, methanol, and various phenolic compounds, which contribute to its effectiveness as a preservative. In fact, before the advent of synthetic preservatives, many communities relied on pyroligneous acid to extend the shelf life of food products. This historical context highlights the importance of understanding traditional practices in the face of modern advancements.Today, the applications of pyroligneous acid are expanding beyond food preservation. With the growing concerns over fossil fuel dependency and environmental sustainability, researchers are investigating its potential as a renewable energy source. The components of pyroligneous acid can be converted into biofuels, providing an alternative to conventional fuels that contribute to greenhouse gas emissions. By harnessing this natural resource, we can reduce our carbon footprint and promote a more sustainable future.Moreover, pyroligneous acid has shown promise in various industrial applications. For instance, its phenolic compounds can be utilized in the production of bioplastics, which are biodegradable and less harmful to the environment compared to traditional plastics. Additionally, the acetic acid derived from pyroligneous acid can serve as a key ingredient in the manufacturing of vinegar, solvents, and even textiles. These diverse applications underscore the versatility of pyroligneous acid and its potential to contribute to a circular economy.However, despite its numerous benefits, the production and utilization of pyroligneous acid must be approached with caution. The process of pyrolysis, while beneficial, can also release harmful pollutants if not managed properly. Therefore, it is crucial to develop efficient and environmentally friendly methods for producing pyroligneous acid. Innovations in technology and stricter regulations can help mitigate the negative impacts associated with its production, ensuring that we can reap the benefits without compromising our health or the environment.In conclusion, the exploration of pyroligneous acid presents an exciting opportunity to bridge the gap between traditional practices and modern technological advancements. As we strive for sustainability in our energy sources and materials, understanding and harnessing the potential of pyroligneous acid can lead us towards a more eco-friendly future. By embracing the wisdom of the past and integrating it with contemporary science, we can create a harmonious balance that benefits both society and the planet.
近年来,对可持续和替代能源的兴趣激增,导致人们重新关注传统的能源生产方法。其中一种方法是通过木材的热解蒸馏生产pyroligneous(木酚液)酸。这一过程涉及在缺氧的情况下加热木材,使其分解为各种成分,包括气体、炭和一种称为pyroligneous酸的液体。这种物质的重要性不仅在于其历史用途,还在于其在现代技术中的潜在应用。历史上,pyroligneous酸在世界各地的不同文化中被使用了几个世纪。古代文明认识到它作为防腐剂和抗菌剂的价值。这种液体含有复杂的有机化合物混合物,包括醋酸、甲醇和各种酚类化合物,这些成分使其作为防腐剂的有效性得以体现。事实上,在合成防腐剂出现之前,许多社区依赖pyroligneous酸来延长食品的保质期。这一历史背景突显了在现代进步面前理解传统实践的重要性。如今,pyroligneous酸的应用超越了食品防腐。随着对化石燃料依赖和环境可持续性的日益关注,研究人员正在探讨其作为可再生能源的潜力。pyroligneous酸的成分可以转化为生物燃料,为传统燃料提供了一种替代方案,后者会导致温室气体排放。通过利用这一自然资源,我们可以减少碳足迹,促进更可持续的未来。此外,pyroligneous酸在各种工业应用中也显示出前景。例如,其酚类化合物可以用于生产生物塑料,这些塑料是可生物降解的,相较于传统塑料对环境的危害较小。此外,从pyroligneous酸中提取的醋酸可以作为醋、溶剂甚至纺织品制造的关键成分。这些多样的应用突显了pyroligneous酸的多功能性及其对循环经济的贡献潜力。然而,尽管其有众多好处,pyroligneous酸的生产和利用必须谨慎对待。热解过程虽然有益,但如果管理不当,也可能释放有害污染物。因此,开发高效且环保的pyroligneous酸生产方法至关重要。技术创新和更严格的法规可以帮助减轻与其生产相关的负面影响,确保我们能够获得利益而不损害我们的健康或环境。总之,探索pyroligneous酸为连接传统实践与现代技术进步提供了令人兴奋的机会。在我们努力实现能源来源和材料的可持续性时,理解和利用pyroligneous酸的潜力可以引导我们走向更环保的未来。通过拥抱过去的智慧并将其与当代科学相结合,我们可以创造出有利于社会和地球的和谐平衡。
