mechanical stoking

简明释义

机械加煤

英英释义

例句

1.The new design of the furnace includes mechanical stoking to ensure a consistent fuel supply.

新设计的炉子包括机械加煤以确保燃料供应的一致性。

2.The factory implemented mechanical stoking to improve the efficiency of their coal-fired boilers.

工厂实施了机械加煤以提高他们燃煤锅炉的效率。

3.In modern power plants, mechanical stoking systems are crucial for maintaining high output levels.

在现代发电厂中，机械加煤系统对维持高产出水平至关重要。

4.With mechanical stoking, the workers can focus on monitoring the system instead of manual fueling.

通过机械加煤，工人可以专注于监控系统，而不是手动加煤。

5.The transition to mechanical stoking has reduced the labor costs significantly.

转向机械加煤显著降低了人工成本。

作文

In the world of industrial machinery, efficiency and effectiveness are paramount. One of the key processes that contribute to these qualities is known as mechanical stoking. This term refers to the automated method of feeding fuel into a furnace or boiler, which significantly enhances the combustion process. The use of mechanical stoking systems has revolutionized how industries manage their heating needs, allowing for a more consistent and controlled supply of fuel. Historically, stoking was a labor-intensive task that required manual effort. Workers would physically load coal or other fuels into the firebox, often leading to inconsistent burning and inefficiencies. However, with the advent of technology, mechanical stoking emerged as a solution to these challenges. By utilizing machines to perform this task, industries could ensure that the right amount of fuel was delivered at the right time, optimizing the overall performance of the system.The benefits of mechanical stoking are numerous. First and foremost, it increases safety in the workplace. Manual stoking often involved workers getting dangerously close to high temperatures, which posed significant risks. With mechanical stoking, the need for human intervention in hazardous areas is reduced, thus minimizing the likelihood of accidents. Additionally, it allows for better control over the combustion process, leading to improved energy efficiency. When fuel is fed into the furnace consistently, it burns more effectively, resulting in less waste and lower emissions.Moreover, mechanical stoking contributes to operational cost savings. By automating the stoking process, industries can reduce labor costs associated with manual stoking. Furthermore, the enhanced efficiency means that less fuel is needed to achieve the desired heat output, which can lead to significant savings over time. As industries continue to seek ways to improve their bottom line while also adhering to environmental regulations, mechanical stoking presents a viable solution.In addition to traditional applications in coal-fired power plants and industrial boilers, mechanical stoking technology is also being adapted for use in more modern settings. For example, biomass energy production facilities are increasingly incorporating mechanical stoking systems to handle organic materials efficiently. This not only helps in managing waste but also supports the transition towards more sustainable energy sources.As we look to the future, the role of mechanical stoking in industrial processes will likely expand even further. With ongoing advancements in automation and machine learning, we can expect to see even more sophisticated systems that optimize fuel delivery and combustion efficiency. This evolution will not only enhance productivity but also contribute to a greener planet by reducing carbon footprints and promoting cleaner energy practices.In conclusion, mechanical stoking is an essential component of modern industrial operations. Its ability to streamline the fuel feeding process, improve safety, and enhance efficiency makes it a critical technology for various sectors. As industries continue to evolve, embracing innovations like mechanical stoking will be vital for achieving sustainability and operational excellence.

在工业机械的世界中，效率和效果是至关重要的。一个有助于这些品质的关键过程被称为机械送煤。这个术语指的是将燃料自动送入炉子或锅炉的方式，这显著增强了燃烧过程。机械送煤系统的使用彻底改变了工业如何管理其加热需求，使燃料的供应更加一致和可控。历史上，送煤是一项劳动密集型的任务，需要人工努力。工人们需要将煤或其他燃料物理地装入火箱，这往往导致燃烧不均匀和低效。然而，随着技术的发展，机械送煤作为解决这些挑战的方案应运而生。通过利用机器来执行这项任务，工业可以确保在正确的时间提供适量的燃料，从而优化整个系统的性能。机械送煤的好处是众多的。首先，它提高了工作场所的安全性。人工送煤通常涉及工人与高温环境的接触，存在显著的风险。通过采用机械送煤，减少了人类在危险区域的干预，从而降低了事故发生的可能性。此外，它允许对燃烧过程进行更好的控制，提高了能源效率。当燃料以一致的方式送入炉子时，它燃烧得更有效，从而减少浪费和排放。此外，机械送煤有助于降低运营成本。通过自动化送煤过程，工业可以减少与人工送煤相关的劳动成本。此外，提升的效率意味着实现所需热输出所需的燃料更少，从而随着时间的推移可能会产生显著的节省。随着工业不断寻求改善其利润的方式，同时遵守环保法规，机械送煤提供了一种可行的解决方案。除了在燃煤发电厂和工业锅炉中的传统应用外，机械送煤技术也正在被现代环境所采纳。例如，生物质能源生产设施越来越多地采用机械送煤系统，以高效处理有机材料。这不仅有助于管理废物，还支持向更可持续能源来源的过渡。展望未来，机械送煤在工业过程中的作用可能会进一步扩大。随着自动化和机器学习的持续进步，我们可以期待看到更复杂的系统，优化燃料输送和燃烧效率。这一演变不仅将提高生产力，还有助于通过减少碳足迹和促进清洁能源实践，为一个更绿色的星球做出贡献。总之，机械送煤是现代工业运营的重要组成部分。它简化了燃料输送过程，提高了安全性，并增强了效率，使其成为各个行业的关键技术。随着工业的不断发展，拥抱像机械送煤这样的创新对于实现可持续性和运营卓越将至关重要。