briquetting
简明释义
n. 压块;[冶]制团;煤砖制造
v. 把……制成炭砖(briquet 的 ing 形式)
英英释义
The process of compressing materials, typically biomass or coal, into compact shapes known as briquettes for easier storage and transportation. | 将材料(通常是生物质或煤)压缩成称为块状物的紧凑形状,以便于存储和运输的过程。 |
单词用法
热压,加热成型;热压制团;热团矿 | |
压块机 |
同义词
反义词
| 拆解 | The dismantling of the old factory was necessary for the new development project. | 拆解旧工厂是新开发项目所必需的。 | |
| 分散 | 材料的分散有助于减少废物。 |
例句
1.The paper describes the raw material, equipment, flowsheet and method of the briquetting test of sponge iron powder. Suitable parameters were obtained through the research.
叙述了海锦铁粉压块成型试验的原料、设备、流程、试验方法及结果。
2.Analyses are made for the influence factors of moulding characteristics such as coal type, size, distribution water content, moulding pressure and briquetting rate.
分析了影响成型特性的因素,如煤种、粒度、水分、成型压力和成型率等。
3.The briquetting technology was simplified because of no needing of thermal dry process.
型煤制备工艺简化,不需要烘干工序。
4.The paper puts forward a refernce for running of the fine-coal briquetting equipment to promote briquette industry development.
为搅拌设备的研制与性能评价,为型煤工艺的运行与生产提供参考。
5.The spring presses through the briquetting the rack depending in the gear, guarantees ceaseless meshing.
弹簧通过压块将齿条压靠在齿轮上,保证无间隙啮合。
6.Annual production capacity of 60000 tons of biomass fuel, biomass briquetting machine equipment, the annual production capacity of 200 sets.
生物质燃料年生产能力6万吨,生物质成型机设备年生产能力200套。
7.In addition, the effect of pre grinding on the briquetting process as well as on the strength of briquettes was investigated and a positive conclusion was obtained.
此外,还就预先碾压对于成型过程的影响进行了研究,并得到了肯定的结论。
8.Presented is an orthogonal experiment for optimization study on the composition of compound binder and main briquetting technics parameters of briquette used for metallurgy furnace.
以湖南金竹山无烟煤为原料,采用正交实验法对冶金炉窑用型煤复合黏结剂各组分的配比及型煤成型的主要工艺参数进行了实验研究。
9.Briquetting process and its production practice in Baosteel Phase 3 are introduced.
主要叙述宝钢三期成型煤的工艺及生产实践情况。
10.Many companies are investing in briquetting technology to reduce their carbon footprint.
许多公司正在投资于briquetting技术以减少其碳足迹。
11.In the factory, the briquetting machine compresses biomass into solid blocks.
在工厂中,briquetting机器将生物质压缩成固体块。
12.The process of briquetting is essential for recycling waste materials into usable fuel.
这个briquetting过程对于将废料回收成可用燃料至关重要。
13.The briquetting of charcoal helps create a more efficient burning product.
briquetting木炭有助于创造更高效的燃烧产品。
14.After briquetting, the material can be easily transported and stored.
经过briquetting处理后,材料可以方便地运输和存储。
作文
Briquetting is a process that involves compressing materials into a compact form known as briquettes. This technique is widely used in various industries, particularly in the production of fuels from biomass and coal. The main purpose of briquetting (压块成型) is to create a more efficient and manageable form of raw materials, making them easier to transport and use. The history of briquetting (压块成型) dates back to ancient times when people would compress organic materials to produce heat for cooking and heating. Today, this process has evolved significantly with advancements in technology, allowing for the production of high-quality briquettes that can be utilized in various applications.One of the most significant benefits of briquetting (压块成型) is its ability to reduce waste. Many industries generate large amounts of by-products that are often discarded. By using briquetting (压块成型), companies can convert these by-products into valuable fuel sources. For instance, wood chips, sawdust, and agricultural residues can be compressed into briquettes, which can then replace traditional fossil fuels. This not only helps in waste management but also contributes to environmental sustainability by reducing carbon emissions associated with burning fossil fuels.Moreover, briquetting (压块成型) enhances the energy density of the materials. Briquettes typically have a higher calorific value compared to loose biomass or coal. This means that they can produce more energy per unit weight, making them a cost-effective option for heating and power generation. The compact size of briquettes also makes them easier to handle and store, which is an essential factor for industries that rely on bulk fuel supplies.The briquetting (压块成型) process itself involves several steps. Initially, the raw materials are collected and processed to remove moisture and impurities. This is crucial because the moisture content can significantly affect the quality of the final briquette. Next, the materials are fed into a briquetting machine, where they are subjected to high pressure and temperature. The heat generated during this process helps to bind the particles together, forming a solid mass. Finally, the briquettes are cooled and packaged for distribution.In addition to its economic and environmental advantages, briquetting (压块成型) also plays a role in improving energy security. As the world moves towards renewable energy sources, the demand for sustainable fuels is increasing. By investing in briquetting (压块成型) technology, countries can reduce their dependence on imported fossil fuels and promote local energy production. This shift not only supports local economies but also enhances energy independence, which is vital for national security.In conclusion, briquetting (压块成型) is a valuable process that offers numerous benefits across various sectors. It helps in waste reduction, improves energy efficiency, and promotes sustainability. As industries continue to seek innovative ways to meet energy demands while minimizing environmental impact, briquetting (压块成型) will undoubtedly play a crucial role in the future of energy production. By embracing this technology, we can pave the way for a cleaner and more sustainable world.
压块成型是一种将材料压缩成紧凑形状的过程,这种紧凑形状被称为压块。该技术在各个行业中广泛使用,特别是在生物质和煤炭燃料的生产中。briquetting(压块成型)的主要目的是创造一种更高效、更易于管理的原材料形式,使其更易于运输和使用。briquetting(压块成型)的历史可以追溯到古代,当时人们会压缩有机材料以产生用于烹饪和取暖的热量。今天,随着技术的进步,这一过程得到了显著发展,能够生产出高质量的压块,可用于各种应用。briquetting(压块成型)的一个显著好处是能够减少废物。许多行业产生大量的副产品,这些副产品往往被丢弃。通过使用briquetting(压块成型),公司可以将这些副产品转化为有价值的燃料来源。例如,木屑、锯末和农业残余物可以被压缩成压块,进而替代传统的化石燃料。这不仅有助于废物管理,还通过减少与燃烧化石燃料相关的碳排放促进环境可持续性。此外,briquetting(压块成型)还提高了材料的能量密度。与松散的生物质或煤炭相比,压块通常具有更高的热值。这意味着它们每单位重量可以产生更多的能量,使其成为供热和发电的经济有效选择。压块的紧凑尺寸也使其更易于处理和存储,这对于依赖大宗燃料供应的行业至关重要。briquetting(压块成型)过程本身涉及几个步骤。最初,收集和处理原材料,以去除水分和杂质。这一点至关重要,因为水分含量会显著影响最终压块的质量。接下来,材料被送入压块机,在那里它们受到高压和高温的作用。这个过程中产生的热量有助于将颗粒结合在一起,形成固体块。最后,压块被冷却并打包以供分发。除了经济和环境优势之外,briquetting(压块成型)还有助于改善能源安全。随着世界向可再生能源来源的转变,对可持续燃料的需求正在增加。通过投资于briquetting(压块成型)技术,各国可以减少对进口化石燃料的依赖,并促进地方能源生产。这种转变不仅支持地方经济,还增强了能源独立性,这对于国家安全至关重要。总之,briquetting(压块成型)是一种在各个领域提供众多好处的宝贵过程。它有助于减少废物,提高能源效率,促进可持续性。随着各行业继续寻求创新方式来满足能源需求,同时尽量减少环境影响,briquetting(压块成型)无疑将在未来的能源生产中发挥关键作用。通过拥抱这一技术,我们可以为一个更清洁、更可持续的世界铺平道路。
