Effect of Mineral Additives on Fusion Behavior of Agricultural Residue Ashes during Combustion or Co-combustion with Lignite

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2021-09-06 DOI:10.21926/jept.2104047

D. Vamvuka, M. Deli, A. Stratakis

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引用次数: 4

Abstract

In this work, the ash fusibility behaviour of selected agricultural residues and their blends with lignite was studied, by carrying out chemical, mineralogical, fusibility and thermogravimetric analyses and calculating slagging/fouling indicators for predicting deposition tendencies in boilers. Two additives, bauxite, and clinochlore, were used at varying amounts to reduce ash melting, followed by examining their anti-fusion mechanisms. Initial deformation and softening temperatures of biomass materials were low for combustion processes operating above 900 °C due to their high concentration in K, Na, and P compounds. When the additives were mixed with raw fuels or lignite/biomass blends, the initial deformation of ashes started at temperatures up to 340 °C higher, whereas the fluid temperature in most cases exceeded 1500 °C. Bauxite was more effective than clinochlore. The positive impact of additives was attributed to the mineralogical transformations during ashing to phases with a high melting point through reactions with K, Na-bearing minerals, or CaO of fuel ashes.

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矿物添加剂对农业残灰燃烧或与褐煤共燃熔合行为的影响

在这项工作中，通过进行化学、矿物学、熔融性和热重分析，并计算出预测锅炉沉积趋势的结渣/结垢指标，研究了选定的农业残留物及其与褐煤混合物的灰熔融行为。两种添加剂，铝土矿和沸石，在不同数量的使用，以减少灰熔化，然后检查其抗熔合机制。在900°C以上的燃烧过程中，生物质材料的初始变形和软化温度较低，因为它们含有高浓度的K、Na和P化合物。当添加剂与原料燃料或褐煤/生物质混合物混合时，灰的初始变形开始于高达340°C的温度，而在大多数情况下流体温度超过1500°C。铝土矿比沸石更有效。添加剂的积极影响归因于在灰化过程中通过与燃料灰中的K、na矿物或CaO反应向高熔点相的矿物学转变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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