Pyrolysis and combustion behavior of coal gangue in O₂/CO₂ and O₂/N₂ mixtures using thermogravimetric analysis and a drop tube furnace

Meng, Fanrui; Yu, Jianglong; Tahmasebi, Arash; Han, Yanna

Title: Pyrolysis and combustion behavior of coal gangue in O₂/CO₂ and O₂/N₂ mixtures using thermogravimetric analysis and a drop tube furnace
Creator: Meng, Fanrui; Yu, Jianglong; Tahmasebi, Arash; Han, Yanna
Relation: Energy & Fuels Vol. 27, Issue 6, p. 2923-2932
Publisher Link: http://dx.doi.org/10.1021/ef400411w
Publisher: American Chemical Society
Resource Type: journal article
Date: 2013
Description: Combustion of coal gangue is extensively used for power generation in China. In this paper, pyrolysis and combustion characteristics of a low-rank coal gangue have been investigated under oxy-fuel (O₂/CO₂) and air (N₂/O₂) conditions using a drop tube furnace and thermogravimetric analysis. Pyrolysis experiments were carried out in N₂ and CO₂ environments, which are the main diluting gases of air and oxy-fuel environments, respectively. The burnout and yields of volatile matter were analyzed during DTF experiments. At lower temperatures, the weight loss rate of coal gangue during pyrolysis in N₂ was higher than that in CO₂. However, further weight loss took place in CO₂ atmosphere at temperatures above 800 °C due to CO₂ gasification of chars. The thermogravimetric analysis (TGA) results confirmed that the pyrolysis in CO₂ environment can be divided into three stages: moisture release, devolatilization, and char gasification by CO₂ in a higher temperature zone. Combustion experiments were carried out in four different atmospheres: air, an oxygen-enriched air environment (30% O₂–70% N₂ and 40% O₂–60% N₂), an oxy-fuel environment (21% O₂–79% CO₂), and an oxygen-enriched oxy-fuel environment (30% O₂–70% CO₂ and 40% O₂–60% CO₂). Coal gangue reactivity under oxy-fuel conditions differed from that under air combustion conditions. The combustion rate of coal gangue increased with increasing O₂ concentration while the ignition and burnout points shifted to lower temperatures and complete combustion was achieved at lower temperatures and shorter times. Comparison of the combustion performance of coal gangue in N₂/O₂ and CO₂/O₂ environments for equivalent O₂ concentrations indicated that the combustion characteristics of coal gangue in a CO₂/O₂ environment were similar to those in a N₂/O₂ environment at 21 vol % O₂ oxygen concentrations. However, increasing O₂ partial pressures resulted in a higher combustion rate under oxy-fuel conditions. Kinetic constants for the samples were calculated by using the isoconventional method. The activation energy decreased with increasing O₂ partial pressure under oxy-fuel combustion conditions and reached lower values compared to air combustion cases. The mineral matter reactions during coal gangue combustion were investigated by means of XRD analysis. During combustion at 1200 °C, mineral phases in coal gangue were transformed to ash comprised of kaolinite, quartz, mullite, magnetite, hematite, and anhydrite.
Subject: coal gangue; pyrolysis experiments; thermogravimetric analysis; oxy-fuel combustion; drop tube furnance
Identifier: http://hdl.handle.net/1959.13/1341839
Identifier: uon:28829
Identifier: ISSN:0887-0624
Language: eng
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