In-situ ash sintering process analysis during the co-combustion of the coal gasification fine slag and corn straw

IF 9 1区工程技术 Q1 ENERGY & FUELS Energy Pub Date : 2024-09-29 DOI:10.1016/j.energy.2024.133311

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Abstract

The co-combustion of coal gasification fine slag (CGFS) and biomass is proposed to enhance the poor combustion characteristic of CGFS and alleviate the ash-related issues of biomass. In this study, the sintering mechanism of CGFS ash (FA) and corn straw ash (SA) was revealed by in-situ image analysis and thermodynamic modelling. The sintering process of FA includes initial sintering stage (S1), holding stage (S2), and primary melting stage (S3). The S1 is initiated by the flow of the low-viscosity slag, whereas the subsequent S2 and S3 stages are predominantly governed by the crystallization and then the melting of anorthite with increasing temperatures, respectively. The AAEMs in SA loosens the structure of FA, thereby facilitating the onset of S1 at a low temperature. Concurrently, the anorthite is gradually converted to diopside, which possesses a lower melting point, and subsequently into sanidine, which exhibits a higher melting point. This transformation extends the temperature range across S1 and S2, leading to an initial decrease followed by an increase of ash fusion temperatures with the SA addition. The dry bottom boiler suits for the co-combustion of CGFS and corn straw and the boiler exit temperature is suggested to be higher than 968 °C.

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煤气化细渣与玉米秸秆共燃过程中的原位灰烧结工艺分析

煤气化细渣（CGFS）与生物质的共燃被提出来用于改善煤气化细渣（CGFS）的不良燃烧特性，并缓解生物质的灰分相关问题。本研究通过原位图像分析和热力学建模揭示了煤气化细渣灰（FA）和玉米秸秆灰（SA）的烧结机理。FA 的烧结过程包括初始烧结阶段（S1）、保温阶段（S2）和初熔阶段（S3）。S1 阶段由低粘度熔渣的流动开始，而随后的 S2 和 S3 阶段则主要分别由正长石的结晶和随温度升高而熔化所决定。SA 中的 AAEMs 使 FA 结构变得松散，从而促进了 S1 阶段在低温下的开始。与此同时，阳起石逐渐转化为熔点较低的透辉石，随后又转化为熔点较高的辉石。这种转变扩大了 S1 和 S2 的温度范围，导致最初的灰熔点降低，随后随着 SA 的加入，灰熔点升高。适用于 CGFS 和玉米秸秆共燃的干底锅炉和锅炉出口温度建议高于 968 ℃。

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来源期刊

Energy 工程技术-能源与燃料

CiteScore

15.30

自引率

14.40%

发文量

审稿时长

14.2 weeks

期刊介绍： Energy is a multidisciplinary, international journal that publishes research and analysis in the field of energy engineering. Our aim is to become a leading peer-reviewed platform and a trusted source of information for energy-related topics. The journal covers a range of areas including mechanical engineering, thermal sciences, and energy analysis. We are particularly interested in research on energy modelling, prediction, integrated energy systems, planning, and management. Additionally, we welcome papers on energy conservation, efficiency, biomass and bioenergy, renewable energy, electricity supply and demand, energy storage, buildings, and economic and policy issues. These topics should align with our broader multidisciplinary focus.