gas retort
简明释义
制气甑
英英释义
例句
1.When heating the mixture, ensure that the gas retort is securely attached to avoid any leaks.
加热混合物时,请确保气体反应器牢固连接,以避免任何泄漏。
2.The gas retort was designed to withstand high temperatures and pressures during the experiment.
该气体反应器旨在承受实验期间的高温和高压。
3.In the laboratory, a gas retort is essential for conducting experiments that involve gaseous products.
在实验室中,气体反应器对于进行涉及气体产物的实验是必不可少的。
4.The scientist used a gas retort to collect the gases released during the chemical reaction.
科学家使用了一个气体反应器来收集化学反应中释放的气体。
5.After the reaction, the gas retort showed an increase in pressure, indicating gas production.
反应后,气体反应器显示出压力增加,表明产生了气体。
作文
The industrial revolution brought about numerous advancements in technology and manufacturing processes. One of the significant innovations during this period was the development of various types of chemical reactors, including the gas retort. A gas retort (气体反应器) is a device used for heating substances to produce gas or vapor, often employed in the production of coal gas or the distillation of organic materials. This invention not only improved efficiency in gas production but also played a crucial role in the evolution of energy sources. In the early days, the gas retort was primarily used in the gasworks industry. It allowed for the conversion of coal into gas, which was then used for lighting and heating homes. The process involved heating coal in the absence of air, leading to the release of volatile gases. These gases could be collected and purified for use. The gas retort thus became an essential tool in urban areas where gas lighting was becoming the norm.As technology progressed, the design of the gas retort evolved. Modern versions are more efficient and environmentally friendly, incorporating advanced materials and designs that minimize emissions and maximize yield. The ability to control temperature and pressure within the gas retort has also improved, allowing for better quality gas production. This innovation has had a lasting impact on energy production and consumption.Furthermore, the gas retort is not only limited to coal gas production. It has found applications in various fields, including the production of biofuels and other renewable energy sources. By using organic waste materials in a gas retort, it is possible to create biogas, which can be used as a clean energy source. This aspect highlights the importance of the gas retort in the context of sustainable energy solutions.In educational settings, understanding the principles behind the gas retort is crucial for students studying chemistry and engineering. The reactions that occur within a gas retort provide valuable insights into thermodynamics and reaction kinetics. Students can learn about the transformation of materials and the energy changes involved in these processes. In conclusion, the gas retort (气体反应器) is a pivotal invention that has shaped the landscape of energy production and industrial processes. Its historical significance and modern applications demonstrate its versatility and importance in both past and future technologies. As we continue to seek sustainable energy solutions, the gas retort remains a relevant and essential component in our quest for cleaner energy alternatives. Understanding its function and impact allows us to appreciate the intricate relationship between technology and society as we move forward into a more energy-conscious world.
工业革命带来了众多技术和制造过程的进步。在这一时期,一个重要的创新就是各种类型化学反应器的发展,包括气体反应器。气体反应器(gas retort)是一种用于加热物质以产生气体或蒸汽的设备,通常用于煤气的生产或有机材料的蒸馏。这项发明不仅提高了气体生产的效率,还在能源来源的演变中发挥了关键作用。在早期,气体反应器主要用于煤气行业。它允许将煤转化为气体,然后用于照明和加热家庭。这个过程涉及在缺氧的情况下加热煤,从而释放挥发性气体。这些气体可以被收集和净化以供使用。因此,气体反应器成为城市地区的一个重要工具,当时煤气照明正在成为常态。随着技术的进步,气体反应器的设计也逐渐演变。现代版本更高效且环保,采用先进的材料和设计,最大限度地减少排放并提高产量。控制气体反应器内温度和压力的能力也有所改善,从而实现更高质量的气体生产。这项创新对能源生产和消费产生了持久影响。此外,气体反应器并不仅限于煤气生产。它在多个领域找到了应用,包括生物燃料和其他可再生能源的生产。通过在气体反应器中使用有机废弃物,可以产生沼气,这可以作为清洁能源使用。这一方面突显了气体反应器在可持续能源解决方案中的重要性。在教育环境中,理解气体反应器背后的原理对于学习化学和工程的学生至关重要。在气体反应器内发生的反应提供了热力学和反应动力学的宝贵见解。学生可以学习材料的转化及其过程中的能量变化。总之,气体反应器(gas retort)是一个关键的发明,它塑造了能源生产和工业过程的格局。它的历史意义和现代应用展示了其多功能性和在过去和未来技术中的重要性。随着我们继续寻求可持续能源解决方案,气体反应器仍然是我们寻找更清洁能源替代品的相关和重要组成部分。理解其功能和影响使我们能够欣赏技术与社会之间复杂的关系,随着我们迈向更加注重能源的世界。
