与环境影响相关的生物质共烧锅炉

A. Demirbaş
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引用次数: 32

摘要

本文将讨论生物质共烧的一般燃烧和排放问题,以及特定生物质燃料的具体问题,如结垢。在实验室规模的鼓泡流化床燃烧室中进行了共烧试验。生物质是一种有吸引力的、可持续的可再生燃料,以补充燃煤在公用事业锅炉。煤和生物质燃料在成分上有很大的不同。生物质的灰分组成与煤的灰分组成根本不同。生物质中的氯可能因腐蚀而影响操作。积灰减少了传热,也可能在高温下导致严重的腐蚀。生物质与煤混合燃烧是一种很有前途的燃烧技术;然而,在实现大规模实施之前,需要进行大量的开发工作。煤共烧是成功的,高达20%的生物质混合锅炉。确定了与成功实施煤生物质混合燃烧有关的问题。煤与生物质共烧是控制nox的有效方法。随着生物量分数的增加,nox的生成减少。本研究主要关注与共烧相关的五个关键炉边问题:灰沉积、二氧化硫排放、nox形成、腐蚀和碳燃尽。
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Biomass Co-Firing for Boilers Associated with Environmental Impacts
This article is presented to discuss general combustion and emissions issues with biomass co-firing, as well as specific issues with particular biomass fuels, such as fouling. The tests of co-firing were carried out in a lab-scale bubbling fluidized bed combustor. Biomass is an attractive and sustainable renewable fuel to supplement coal combustion in utility boilers. Coal and biomass fuels are quite different in composition. Ash composition for the biomass is fundamentally different from ash composition for coal. Chlorine in the biomass may affect operation by corrosion. Ash deposits reduce heat transfer and may also result in severe corrosion at high temperatures. Biomass and coal blend combustion is a promising combustion technology; however, significant development work is required before large-scale implementation can be realized. Coal co-firing was successful with up to a 20% biomass mix boilers. Issues related to successful implementation of coal biomass blend combustion are identified. Co-firing of coal and biomass is an effective method of control NO x . Formation of NO x decreases with the increase of biomass fraction. This study focuses on five of the critical fireside issues associated with co-firing: ash deposition, SO 2 emission, NO x formation, corrosion, and carbon burnout.
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