煤与生物质燃烧

IF 1.5 Q3 ENGINEERING, CHEMICAL Journal of Combustion Pub Date : 2018-11-29 DOI:10.1155/2018/9654923
H. Jin, K. Luo, O. Stein, H. Watanabe, X. Ku
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引用次数: 2

摘要

煤炭燃烧是目前全球能源消耗和发电的最大来源,在可预见的未来仍将如此,尽管煤炭也是空气污染的主要来源之一。提高全球燃煤电厂的效率将大大减少空气污染,延长煤炭资源的使用寿命。固体生物质燃料作为一种可再生能源的燃烧在过去十年中显著增长,主要是因为它可以用来取代化石燃料(煤、石油和天然气)。在本期《燃烧杂志》的特刊中,我们邀请了研究人员关注固体燃料的燃烧及其在发电中的相关过程。提交的论文涵盖了反映该领域最新进展的各个方面。其中包括将超临界co2布雷顿循环与燃煤循环流化床锅炉、煤和生物质共燃系统、生物质材料的燃烧动力学、富集煤的热改进和燃烧动力学以及用于湍流工业火焰重建的化学发光计算机断层扫描(CTC)相结合。生物质似乎是一种很有前途的发电来源,大约一半的论文集中在生物质相关领域,包括木粉和颗粒的燃烧动力学特性,以及燃烧过程。虽然已经开发了一些利用纯生物质的方法(如热解、气化和燃烧),但煤与生物质共燃系统仍然是生物质能源转化的最重要技术。在本期特刊中,最后发表的两篇关于生物质利用的论文都关注了煤与生物质共燃过程,这意味着在能源生产中,煤炭燃烧仍难以完全取代。在已发表的研究中使用的方法中,实验方法和数值方法在不同的领域都显示出各自的优势。本特刊对不同材料的燃烧动力学进行了实验研究和数值研究。本文还介绍了用于湍流工业火焰重建的化学发光计算机断层扫描技术(CTC),它可能成为研究人员和科学家研究火焰结构和演化的有用工具。
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Coal and Biomass Combustion
Coal combustion is the largest source of global energy consumption and electricity generation worldwide now and will remain so in the foreseeable future, although coal is also one of the major sources of air pollution. Increasing the efficiency of coal-fired power plants across the world will greatly reduce air pollution and extend the lifetime of our coal resources. The combustion of solid biomass fuels as a renewable energy source has grown significantly in the last decade, principally because it can be used to replace fossil fuels (coal, oil, and natural gas). For this special issue of the Journal of Combustion, we have invited researchers to focus on the combustion of solid fuels and their related processes in power generation. The submitted papers cover a diversity of aspects reflecting the latest progress in the field. These include integrating the supercritical CO 2 Brayton cycle with the coal-fired circulating fluidized-bed boiler, coal and biomass cofiring systems, combustion kinetics of biomass materials, thermal improvement and combustion kinetics of enriched coal, and Computed Tomography of Chemiluminescence (CTC) for turbulent industrial flame reconstruction. Biomass appears to be a promising source of power generation and about half of the papers focus on the biomass related fields, including the combustion kinetic characteristics of wood powder and pellets, as well as the combustion process. Although some methods to utilize pure biomass have been developed (e.g., pyrolysis, gasification, and combustion), the coal and biomass cofiring system is still the most important technology for biomass energy conversion. In this special issue, both of the final published papers on biomass utilization pay attention to the coal and biomass cofiring process, implying that coal combustion is still difficult to be entirely replaced in energy generation. Regarding the methods used in the published research, both experimental and numerical methods show their advantages in different fields. In this special issue, the combustion kinetics of different materials were studied experimentally and numerical research was carried out to study the combustion processes. Computed Tomography of Chemiluminescence (CTC) for turbulent industrial flame reconstruction was also included in the current issue, which may become a useful tool for researchers and scientists for studying flame structure and evolution.
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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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