fuel pulverization

简明释义

燃料雾化

英英释义

例句

1.In biomass energy production, fuel pulverization 燃料粉碎 allows for better mixing with air.

在生物质能源生产中，燃料粉碎可以更好地与空气混合。

2.Our new mill improves fuel pulverization 燃料粉碎 rates, resulting in higher energy output.

我们的新磨机提高了燃料粉碎率，从而导致更高的能量输出。

3.The process of fuel pulverization 燃料粉碎 is crucial in enhancing combustion efficiency in power plants.

燃料粉碎的过程在提高发电厂的燃烧效率中至关重要。

4.The fuel pulverization 燃料粉碎 technique reduces the size of coal particles for more efficient burning.

燃料粉碎技术减少煤粒的大小，以实现更高效的燃烧。

5.Proper fuel pulverization 燃料粉碎 can significantly lower emissions from industrial boilers.

适当的燃料粉碎可以显著降低工业锅炉的排放。

作文

In the field of energy production, the process of fuel pulverization plays a crucial role in enhancing the efficiency of combustion systems. Fuel pulverization refers to the process of grinding solid fuels into fine particles, which allows for better mixing with air and more efficient burning. This technique is particularly important when using coal as a fuel source, as it significantly improves the combustion characteristics and reduces emissions. By converting coal into a fine powder, power plants can achieve higher thermal efficiencies and lower levels of unburned carbon, leading to a cleaner energy output.The significance of fuel pulverization cannot be overstated, especially in the context of environmental sustainability. As the world moves towards greener energy solutions, the need to optimize existing fossil fuel technologies becomes paramount. Through fuel pulverization, we can minimize the environmental impact of coal-fired power generation. The fine particles produced during this process have a larger surface area, which facilitates a more complete combustion process. This means that less fuel is wasted and fewer harmful byproducts are released into the atmosphere.Moreover, fuel pulverization also contributes to the economic viability of energy production. By increasing the efficiency of fuel usage, power plants can reduce their operational costs. This is particularly important in an era where energy prices are volatile and competition among energy producers is fierce. The initial investment in pulverization technology can be offset by the long-term savings achieved through improved fuel efficiency and reduced emissions penalties.In addition to coal, fuel pulverization can also be applied to other solid fuels such as biomass and petcoke. As the energy sector seeks to diversify its fuel sources, the ability to efficiently pulverize various types of fuel becomes increasingly valuable. Biomass, for example, is often considered a renewable energy source, but its combustion properties can vary widely depending on its composition. By employing fuel pulverization, biomass can be processed into a uniform particle size, allowing for more consistent combustion and energy output.While the benefits of fuel pulverization are clear, the process does come with its challenges. The equipment required for pulverization can be expensive to install and maintain. Additionally, the handling of fine particles poses safety risks, including dust explosions. Therefore, it is essential for power plants to implement strict safety protocols and invest in high-quality equipment to mitigate these risks.In conclusion, fuel pulverization is a vital process in modern energy production that enhances combustion efficiency, reduces environmental impacts, and improves economic performance. As we continue to seek ways to make energy production more sustainable, the role of fuel pulverization will undoubtedly become more prominent. Embracing this technology not only aligns with global sustainability goals but also paves the way for a more efficient and cleaner energy future.

在能源生产领域，燃料粉碎过程在提高燃烧系统效率方面起着至关重要的作用。燃料粉碎指的是将固体燃料磨成细颗粒的过程，这样可以更好地与空气混合，从而实现更高效的燃烧。这项技术在使用煤作为燃料来源时尤为重要，因为它显著改善了燃烧特性并减少了排放。通过将煤转化为细粉，发电厂可以实现更高的热效率和更低的未燃碳水平，从而产生更清洁的能源输出。燃料粉碎的重要性不容小觑，尤其是在环境可持续性背景下。随着世界向更环保的能源解决方案迈进，优化现有化石燃料技术的需求变得尤为迫切。通过燃料粉碎，我们可以最小化燃煤发电的环境影响。该过程中产生的细颗粒具有更大的表面积，有助于更完全的燃烧过程。这意味着更少的燃料被浪费，释放到大气中的有害副产品也更少。此外，燃料粉碎也有助于提高能源生产的经济可行性。通过提高燃料使用效率，发电厂可以降低运营成本。这在能源价格波动和能源生产者之间竞争激烈的时代尤为重要。尽管粉碎技术的初始投资可能较高，但通过提高燃料效率和减少排放罚款所获得的长期节省可以抵消这一成本。除了煤之外，燃料粉碎还可以应用于其他固体燃料，如生物质和石油焦。随着能源行业寻求多样化其燃料来源，高效粉碎各种类型燃料的能力变得越来越有价值。例如，生物质通常被视为可再生能源，但其燃烧特性可能因组成而异。通过采用燃料粉碎，生物质可以处理成均匀的颗粒大小，从而允许更一致的燃烧和能量输出。虽然燃料粉碎的好处显而易见，但该过程确实面临一些挑战。所需的粉碎设备安装和维护成本可能很高。此外，处理细颗粒存在安全风险，包括粉尘爆炸。因此，发电厂必须实施严格的安全协议，并投资高质量设备以减轻这些风险。总之，燃料粉碎是现代能源生产中的一个重要过程，能够提高燃烧效率、减少环境影响并改善经济表现。随着我们继续寻求使能源生产更可持续的方法，燃料粉碎的角色无疑将变得更加突出。接受这一技术不仅符合全球可持续发展目标，还为更加高效和清洁的能源未来铺平了道路。