Single particle flame-combustion studies on solid biomass fuels

燃烧 烧焦 固体燃料 煤粉锅炉 点火系统 环境科学 发电站 生物量(生态学) 锅炉(水暖) 自燃温度 核工程 工艺工程 粒子(生态学) 废物管理 化学 工程类 海洋学 有机化学 地质学 电气工程 航空航天工程
作者
Patrick E. Mason,L.I. Darvell,J.M. Jones,Mohamed Pourkashanian,A. Williams
出处
期刊:Fuel [Elsevier BV]
卷期号:151: 21-30 被引量:82
标识
DOI:10.1016/j.fuel.2014.11.088
摘要

Combustion of solid biomass in large scale power generation has been recognized as a key technology for the transition to a decarbonized electricity sector in the UK by 2050. Much of the near-term forecast capacity is likely to be by the conversion of existing coal-fired pulverized fuel plant (DECC, 2012). In such applications, it will be necessary to ensure that the combustion behaviour of the solid biomass fuels is engineered to match, as far as practical, that of the original plant design. While biomass feedstock characteristics vary considerably, one controllable variable for pulverized fuel is the size of the particles. Useful modelling for adaptation and design of boiler plant can be improved with more detailed measurement of the real behaviour of individual particles of the varying fuels. Typical power plant biomass fuels including pine, eucalyptus and willow with particle sizes ranging from up to 3 mm (Van Loo and Koppejan, 2008) and with differing moisture content and aspect ratios were selected for study. Single particles were supported in a water-cooled cover and then exposed above a flame, simulating biomass combustion in a furnace. Measurements of ignition delay, volatile burning time and char burn-out time were undertaken using high speed image capture. Temperatures of the surrounding environment and near to the particle surface were measured with thermocouples and thermometric imaging. Thermo-gravimetric measurements on separate samples complement the single particle measurements as a means of verifying the demarcation between the different stages of combustion and providing kinetic data. Analysis of the data identified correlations between the biomass fundamental characteristics, particle size, and the observed combustion profiles. Empirical expressions for the duration of each combustion stage have been derived. These have been validated with basic modelling including the predicted devolatilisation stage calculated by the FG-Biomass model (Chen et al.,1998).

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