torrefaction

简明释义

[ˌtɒrɪˈfækʃən][ˌtɔrɪˈfækʃən]

n. 烘焙;干燥

英英释义

Torrefaction is a thermal process that involves heating biomass in the absence of oxygen to improve its properties for energy production, resulting in a more energy-dense and hydrophobic material.

焙烧是一种热处理过程,涉及在缺氧环境下加热生物质,以改善其用于能源生产的特性,从而产生一种更具能量密度和疏水性的材料。

单词用法

torrefaction process

干燥过程

torrefaction temperature

干燥温度

undergo torrefaction

经历干燥

apply torrefaction

应用干燥技术

同义词

carbonization

碳化

Carbonization is often used in the production of charcoal.

碳化常用于木炭的生产。

pyrolysis

热解

Pyrolysis can convert organic materials into biochar.

热解可以将有机材料转化为生物炭。

dehydration

脱水

Dehydration processes are crucial in food preservation.

脱水过程在食品保存中至关重要。

roasting

焙烧

Roasting coffee beans involves a torrefaction process to enhance flavor.

咖啡豆的焙烧涉及一个焙烧过程,以增强风味。

反义词

hydration

水合

The process of hydration is essential for plant growth.

水合过程对植物生长至关重要。

moistening

湿润

Moistening the soil before planting can improve seed germination.

在种植前湿润土壤可以改善种子的发芽率。

例句

1.Torrefaction, pelletisation and pyrolysis technologies can convert biomass at modest scales into dense energy carriers that ease transportation and handling.

烘焙,球团和热解技术,可在适度的尺度转化成生物质致密能源载体的便于运输和处理。

2.Water extract; Macropore resins; Refine; Spraying torrefaction powder; Boiling granulating;

水煎液; 大孔吸附树脂; 纯化;喷雾干燥粉末;沸腾制粒;

3.A deep red colour. Typical wine from this area with spicy tinges and notes of torrefaction.

深红色;典型的来自于此酒区的风格,辛辣的气息中透出丝丝烤橡木的香味。

4.Torrefaction, pelletisation and pyrolysis technologies can convert biomass at modest scales into dense energy carriers that ease transportation and handling.

烘焙,球团和热解技术,可在适度的尺度转化成生物质致密能源载体的便于运输和处理。

5.In this paper, collagen peptide powder from the shark skin was prepared by some biochemistry techniques including proteinase hydrolysis, spray torrefaction.

以鲨鱼皮为原料,采用现代生物化学技术制备胶原蛋白肽水解液,经过喷雾干燥,获得鲨鱼皮胶原蛋白肽干粉。

6.One of the benefits of torrefaction is the reduction of moisture content in biomass.

进行torrefaction的一个好处是减少生物质中的水分含量。

7.The torrefaction of agricultural residues can create a more valuable energy source.

农业废弃物的torrefaction可以创造出更有价值的能源。

8.Researchers are studying how torrefaction can improve the efficiency of wood pellets.

研究人员正在研究torrefaction如何提高木颗粒的效率。

9.During torrefaction, the material is heated in a low-oxygen environment to prevent combustion.

torrefaction过程中,材料在低氧环境中加热以防止燃烧。

10.The process of torrefaction is often used to enhance the energy content of biomass.

进行torrefaction的过程通常用于提高生物质的能量含量。

作文

In recent years, the demand for renewable energy sources has surged, leading to innovative methods of biomass conversion. One such method is torrefaction, a thermochemical process that transforms biomass into a more energy-dense and manageable form. During torrefaction (热解), organic materials, such as wood or agricultural residues, are heated in an oxygen-limited environment, typically at temperatures between 200 to 300 degrees Celsius. This process not only reduces the moisture content of the biomass but also enhances its energy content and improves its grindability.The significance of torrefaction lies in its ability to convert low-value biomass into high-quality solid fuels. Traditional biomass fuels often have high moisture content, making them less efficient for combustion. However, through torrefaction, the resulting product, known as torrefied biomass, exhibits improved properties that make it suitable for various applications, including co-firing in coal power plants and as a feedstock for biochar production.One of the primary benefits of torrefaction is its environmental impact. By utilizing waste biomass, we can reduce greenhouse gas emissions associated with fossil fuel usage. Furthermore, torrefaction helps in carbon sequestration, as the process locks carbon in a stable form, reducing its release into the atmosphere. This aligns with global efforts to combat climate change and promote sustainable energy practices.Moreover, the torrefaction process results in a material that is easier to transport and store compared to raw biomass. The energy density of torrefied biomass is significantly higher, which means that less volume is required to produce the same amount of energy. This characteristic not only lowers transportation costs but also minimizes the logistical challenges associated with handling bulky biomass materials.As we look towards the future, the potential applications of torrefaction are vast. Research is ongoing to optimize the process, making it more efficient and cost-effective. Additionally, integrating torrefaction with other technologies, such as gasification and pyrolysis, could lead to even greater advancements in biomass utilization. These combined processes could create a range of biofuels and bioproducts, further diversifying energy sources and enhancing energy security.In conclusion, torrefaction presents a promising solution in our quest for sustainable energy. Its ability to convert biomass into a more usable form while mitigating environmental impacts positions it as a key player in the renewable energy landscape. As research and technology continue to advance, we can expect torrefaction to play an increasingly vital role in achieving a more sustainable and resilient energy future.

近年来,新能源的需求激增,催生了创新的生物质转化方法。其中一种方法是热解,这是一种热化学过程,将生物质转变为更具能量密度和可管理形式。在热解过程中(torrefaction),有机材料,如木材或农业残余物,在氧气有限的环境中加热,通常在200到300摄氏度的温度下进行。这个过程不仅降低了生物质的水分含量,还增强了其能量含量并改善了其磨碎性。热解的重要性在于它能够将低价值的生物质转化为高质量的固体燃料。传统的生物质燃料通常具有较高的水分含量,使其燃烧效率较低。然而,通过热解,产生的产品称为热解生物质,展现出改善的特性,使其适合多种应用,包括与煤电厂共同燃烧和作为生物炭生产的原料。热解的主要好处之一是其对环境的影响。通过利用废弃生物质,我们可以减少与化石燃料使用相关的温室气体排放。此外,热解有助于碳封存,因为该过程将碳锁定在一个稳定的形式中,减少其释放到大气中的可能性。这与全球应对气候变化和促进可持续能源实践的努力相一致。此外,热解过程所产生的材料在运输和储存方面比原始生物质更为便捷。热解生物质的能量密度显著提高,这意味着需要更少的体积来产生相同数量的能量。这一特性不仅降低了运输成本,还最小化了处理笨重生物质材料所带来的后勤挑战。展望未来,热解的潜在应用广泛。研究正在进行,以优化这一过程,使其更加高效和经济。此外,将热解与其他技术(如气化和热解)结合,可能会导致生物质利用的更大进展。这些组合过程可以创造一系列生物燃料和生物产品,进一步多样化能源来源,增强能源安全。总之,热解为我们追求可持续能源提供了一个有前景的解决方案。其将生物质转化为更可用形式的能力,同时减轻环境影响,使其成为可再生能源领域的关键参与者。随着研究和技术的不断进步,我们可以预期热解将在实现更加可持续和韧性的能源未来中发挥越来越重要的作用。