Photomicrogrph Atlas of Wood Pellet Components

IF 0.5 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
A. Drobniak
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引用次数: 1

Abstract

Concerns about climate change, energy security, and the diversification of energy supplies have made renewable resources increasingly more attractive and important sources of energy. As interest grows, bioenergy (energy from bio-based sources) is becoming more environmentally friendly and economically viable and has started to play a more prominent role in the global energy mix. In this changing market, wood pellets have emerged as a sustainable source of power with the potential to become a mainstream fuel in the future energy market. Pellets are currently the most economical way of converting biomass into fuel, and they are a fast-growing component of the energy sector. Pellets can be made from various types of biomass including industrial waste and co-products, food waste, agricultural residues, and virgin lumber, which are compressed under high pressure. Among these, wood pellets are the most common, and they generally are made from raw trees, wood shavings, compacted sawdust, industrial wastes from the milling of lumber, manufacture of wood products and furniture, and construction. The wood pellets available on the market are sold as fuel (heating and grilling) or as absorbents for animal bedding. But while the wood pellets are a fast-growing component of the energy sector and important tool in fight with global warming, it is important to understand influence of wood pellet quality on combustion emissions, and how their usage impacts human health and environment. Thanks to wood pellet industry efforts, especially in the North America and European Union, many of the wood pellets follow rigorous production procedures, and certification. However, there are still some manufacturers that do not use the same production scrutiny, which can result in poorer quality of their pellets. Our research show that in some extreme cases these uncertified wood pellets contain more than 20 percent of impurities. While some of those contaminants are so big that can be visible even without microscope the majority of the contaminants are of micrometer size and can be detected and identify only under a microscope. While the current standards test the quality of pellets based on a variety of physical and chemical properties, some impurities in pellets (glass, plastic, metal, ceramics, coal, and coke) are not easily identified this way. Our research shows that reflected light microscopy can be successfully used to identify and quantify those contaminants. Although  reflected light microscopy technique is a well-known and widely used method allowing examination of various materials, this is a novel application for pellet fuels.
木屑颗粒组分显微图谱
对气候变化、能源安全和能源供应多样化的担忧使可再生资源越来越具有吸引力和重要的能源来源。随着兴趣的增长,生物能源(来自生物能源的能源)变得更加环保和经济可行,并开始在全球能源结构中发挥更突出的作用。在这个不断变化的市场中,木屑颗粒已成为一种可持续的能源,有可能成为未来能源市场的主流燃料。颗粒是目前将生物质转化为燃料的最经济的方式,也是能源部门快速增长的组成部分。颗粒可以由各种类型的生物质制成,包括在高压下压缩的工业废物和副产品、食品废物、农业残留物和原始木材。其中,木屑颗粒是最常见的,它们通常由生树、木屑、压实木屑、木材加工、木制品和家具制造以及建筑产生的工业废物制成。市场上可买到的木屑颗粒作为燃料(加热和烧烤)或动物床上用品的吸收剂出售。但是,尽管木屑颗粒是能源部门快速增长的组成部分,也是应对全球变暖的重要工具,但了解木屑颗粒质量对燃烧排放的影响,以及其使用如何影响人类健康和环境,是很重要的。由于木屑颗粒行业的努力,特别是在北美和欧盟,许多木屑颗粒都遵循严格的生产程序和认证。然而,仍有一些制造商没有使用相同的生产审查,这可能会导致其颗粒质量较差。我们的研究表明,在某些极端情况下,这些未经认证的木屑颗粒含有超过20%的杂质。虽然其中一些污染物很大,即使没有显微镜也能看到,但大多数污染物都是微米大小的,只能在显微镜下检测和识别。虽然目前的标准根据各种物理和化学性质来测试球团的质量,但球团中的一些杂质(玻璃、塑料、金属、陶瓷、煤和焦炭)不容易通过这种方式识别。我们的研究表明,反射光显微镜可以成功地用于识别和量化这些污染物。尽管反射光显微镜技术是一种众所周知且广泛使用的方法,可以检查各种材料,但这是颗粒燃料的一种新应用。
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来源期刊
International Journal of Embedded Systems
International Journal of Embedded Systems COMPUTER SCIENCE, HARDWARE & ARCHITECTURE-
CiteScore
2.50
自引率
41.70%
发文量
56
期刊介绍: With the advent of VLSI system level integration and system-on-chip, the centre of gravity of the computer industry is now moving from personal computing into embedded computing. Embedded systems are increasingly becoming a key technological component of all kinds of complex technical systems, ranging from vehicles, telephones, audio-video-equipment, aircraft, toys, security systems, medical diagnostics, to weapons, pacemakers, climate control systems, manufacturing systems, intelligent power systems etc. IJES addresses the state of the art of all aspects of embedded computing systems with emphasis on algorithms, systems, models, compilers, architectures, tools, design methodologies, test and applications.
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