橄榄和柑橘颗粒在小型锅炉中燃烧及排放的实验研究

IF 3 3区 农林科学 Q2 ECOLOGY Fire-Switzerland Pub Date : 2023-07-29 DOI:10.3390/fire6080288
A. Palma, F. Gallucci, S. Papandrea, M. Carnevale, E. Paris, B. Vincenti, M. Salerno, Valerio Di Stefano, A. Proto
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引用次数: 2

摘要

农业工业活动产生了大量的生物产品,作为含有能量的生物质残留物,在热化学转化过程中具有潜在的有用应用。将这种原料作为不受控制的燃烧(“露天燃烧”)进行管理,在环境和经济方面,往往是处置实践供应链中的一个问题。农林生物质加工的残余基质可以进行处理,以提高其能量水平和经济价值。可持续处置的一种广泛做法是用残余生物质生产颗粒,如修剪。本研究的目的是探索从橄榄和柑橘修剪中获得的颗粒的燃烧及其向大气中的排放。这项研究证实了利用废弃生物质获得高能生物燃料的可能性,该生物燃料可用于受控燃烧系统,并监测该过程及其相关排放(CO、CO2、NOx、SO2、PM)。对三种不同的颗粒(橄榄颗粒、柑橘颗粒和从橄榄和柑橘混合物中获得的颗粒)进行了表征,以确定其物理化学性质,并在配备有多旋流滤袋的80千瓦锅炉中燃烧,作为评估相对排放的减排系统。表征结果表明,柑橘颗粒比橄榄颗粒具有更高的灰分、水分含量和更低的能量值。排放结果表明,在燃烧过程中,与只燃烧橄榄颗粒相比,柑橘颗粒混合物的CO和SO2排放量更高。
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Experimental Study of the Combustion of and Emissions from Olive and Citrus Pellets in a Small Boiler
Agro-industrial activities generate a great amount of bioproducts as biomass residues containing energy and with potentially useful applications in the thermochemical conversion process. The management of this feedstock as uncontrolled combustion (“open burning”) can often be a problem within the supply chain for disposal practices, both in environmental and economic aspects. The residual matrices from agroforestry biomass processing can be treated to increase their energy levels and economic value. A widespread practice for sustainable disposal is the production of pellets from residual biomass, such as pruning. The aim of this study is to explore the combustion of pellets obtained from olive and citrus pruning, and their emissions into the atmosphere. This study confirms the possibility of using waste biomass to obtain a high-energy biofuel that is usable in a controlled combustion system and to monitor the process and its related emissions (CO, CO2, NOx, SO2, PM). Three different pellets (olive pellet, citrus pellet and a pellet obtained from a mix of olive and citrus) were characterized to determine their physicochemical properties and burned in an 80 kWth boiler equipped with multicyclone filter bags as an abatement system to evaluate relative emission. The characterization results show that citrus pellet has a higher ash content, moisture content and lower energy value than mixtures of olive pellet. The emission results suggest that, during combustion, higher emissions of CO and SO2 were monitored from mixtures of citrus pellet compared to burning only olive pellet.
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来源期刊
Fire-Switzerland
Fire-Switzerland Multiple-
CiteScore
3.10
自引率
15.60%
发文量
182
审稿时长
11 weeks
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