carburetted water gas

简明释义

增烃水煤气

英英释义

例句

1.The research team is studying the combustion properties of carburetted water gas for cleaner energy solutions.

研究团队正在研究碳化水气的燃烧特性，以寻找更清洁的能源解决方案。

2.Safety measures must be followed when handling carburetted water gas due to its flammable nature.

处理碳化水气时必须遵循安全措施，因为它具有易燃性。

3.The industrial plant uses carburetted water gas to enhance the efficiency of its heating system.

该工业厂房使用碳化水气来提高其供热系统的效率。

4.The city decided to switch from natural gas to carburetted water gas for some of its heating needs.

该市决定将部分供暖需求从天然气转为碳化水气。

5.In the past, carburetted water gas was commonly used for street lighting in urban areas.

过去，碳化水气常用于城市地区的街道照明。

作文

The industrial revolution brought about significant advancements in technology and energy production. Among the various innovations, one of the most interesting is the development of gases for heating and lighting purposes. One such gas that emerged during this time is carburetted water gas, a mixture that played a crucial role in the evolution of gas lighting and heating systems. Understanding carburetted water gas and its applications can provide insight into the historical context of energy consumption and technological progress.Carburetted water gas is produced by mixing water gas, which is primarily composed of carbon monoxide and hydrogen, with a hydrocarbon vapor, usually derived from liquid hydrocarbons such as gasoline or kerosene. This process enhances the calorific value of the gas, making it more suitable for various applications. The addition of these hydrocarbons increases the energy output, allowing for more efficient combustion when used in gas lamps or heating appliances.In the late 19th century, cities began to adopt carburetted water gas as a primary source of illumination. Before this innovation, many urban areas relied on coal gas, which had a lower efficiency and produced more pollutants. The transition to carburetted water gas marked a significant improvement in the quality of light and heat available to households and businesses. It provided a brighter and cleaner alternative, allowing for longer working hours and enhanced safety in homes.Moreover, the use of carburetted water gas was not limited to lighting. It also found applications in cooking and industrial processes. Factories utilized this gas for powering machinery, while households appreciated its clean-burning properties for cooking. The versatility of carburetted water gas made it an essential resource during a time of rapid industrial growth.However, as with many technological advancements, there were challenges associated with the use of carburetted water gas. The production process required careful handling, as both carbon monoxide and hydrocarbons are flammable and potentially hazardous. Safety measures had to be implemented to prevent leaks and accidents, which could lead to explosions or poisoning. Despite these risks, the benefits of carburetted water gas outweighed the drawbacks, leading to its widespread adoption.As the 20th century progressed, the development of natural gas infrastructure began to overshadow the use of carburetted water gas. Natural gas proved to be a more efficient and safer alternative, prompting many cities to phase out older gas systems. Nevertheless, the legacy of carburetted water gas remains in the history of energy production, illustrating a pivotal moment when society shifted towards more efficient and cleaner sources of energy.In conclusion, carburetted water gas represents a fascinating chapter in the history of energy and technology. Its development was a response to the needs of a growing urban population seeking better lighting and heating solutions. Although it has largely been replaced by natural gas, understanding carburetted water gas allows us to appreciate the innovations that have shaped our modern energy landscape. As we continue to explore new energy technologies, the lessons learned from the past will undoubtedly guide us towards sustainable solutions for the future.

工业革命带来了技术和能源生产的重大进步。在各种创新中，最有趣的之一是为供暖和照明目的开发气体。在这个时期出现的一种气体是碳化水气，这种混合气体在煤气照明和供暖系统的发展中发挥了关键作用。理解碳化水气及其应用可以提供对能源消费和技术进步历史背景的洞察。碳化水气是通过将水气（主要由一氧化碳和氢气组成）与来自液态烃（如汽油或煤油）的烃蒸气混合而产生的。这一过程提高了气体的热值，使其更适合各种应用。添加这些烃类物质增加了能量输出，在用于煤气灯或供暖设备时，能够更有效地燃烧。在19世纪末，城市开始采用碳化水气作为主要的照明来源。在这一创新出现之前，许多城市地区依赖于煤气，这种气体效率较低，污染物排放更多。转向碳化水气标志着可供家庭和企业使用的光和热质量的显著改善。它提供了一种更明亮、更清洁的替代方案，使得工作时间延长，家庭安全性增强。此外，碳化水气的应用并不限于照明。它还被用于烹饪和工业过程。工厂利用这种气体为机器提供动力，而家庭则欣赏其清洁燃烧的特性。碳化水气的多功能性使其在快速工业增长的时期成为一种重要资源。然而，与许多技术进步一样，使用碳化水气也面临挑战。生产过程需要小心处理，因为一氧化碳和烃类都是易燃且潜在危险的物质。必须实施安全措施以防止泄漏和事故，这可能导致爆炸或中毒。尽管存在这些风险，但碳化水气的好处超过了缺点，促使其广泛采用。随着20世纪的发展，天然气基础设施的开发开始超越碳化水气的使用。天然气被证明是一种更高效和更安全的替代品，促使许多城市逐步淘汰旧的煤气系统。然而，碳化水气的遗产仍然存在于能源生产的历史中，展示了一个社会向更高效和更清洁的能源来源转变的关键时刻。总之，碳化水气代表了能源和技术历史中一个迷人的篇章。它的发展是对日益增长的城市人口寻求更好照明和供暖解决方案需求的响应。尽管它在很大程度上被天然气取代，但理解碳化水气使我们能够欣赏塑造现代能源格局的创新。当我们继续探索新的能源技术时，过去的经验教训无疑将指导我们朝着可持续解决方案迈进未来。