硅酸盐通报2023,Vol.42Issue(12):4509-4517,4541,10.
全氧燃烧玻璃窑炉热化学再生技术实验研究
Experimental Investigation of Thermochemical Regeneration Technology for Oxy-Fuel Combustion Glass Furnace
摘要
Abstract
Compared with traditional oxy-fuel combustion technology and air combustion technology,the thermochemical regeneration technology of glass furnace has remarkable energy saving effect and is a cutting-edge and disruptive technology for green and low-carbon development of the future high energy consuming glass industry.The thermochemical regeneration technology of glass furnace was experimentally studied by using atmospheric tube furnace and the effects of different experimental conditions on the thermochemical reforming reaction performance of methane/flue gas were analyzed.The results show that methane/flue gas can spontaneously undergo thermochemical reforming at high temperature without catalyst.When the reforming reaction temperature is lower than 900℃ ,the thermochemical reforming reaction of methane/flue gas does not occur.A reaction temperature of 1 200℃ and a reaction time of more than 10 s can ensure the full progress of the reforming reaction.The increase of methane and CO2 content in the reforming reaction gas is conducive to the increase of hydrogen and carbon monoxide yields in the synthesis gas,respectively.关键词
热化学再生技术/全氧燃烧玻璃窑炉/甲烷-烟气重整/反应温度/反应时间/节能减排Key words
thermochemical regeneration technology/oxy-fuel combustion glass furnace/methane/flue gas reforming/reaction temperature/reaction time/energy saving and emission reduction分类
化学化工引用本文复制引用
曾红杰,周文彩,官敏,沈中杰,陈淑勇,李红强,齐帅,左泽方..全氧燃烧玻璃窑炉热化学再生技术实验研究[J].硅酸盐通报,2023,42(12):4509-4517,4541,10.基金项目
安徽省重大产业创新计划(AHZDCYCX-LSDT2023-02) (AHZDCYCX-LSDT2023-02)
国家玻璃新材料创新中心自立课题(K22008) (K22008)
