摘要
2021—2025重点行业节能降碳行动方案对玻璃行业能耗提出了更高的要求,传统火焰熔窑的能耗进一步降低潜力有限。电助熔在玻璃行业已有广泛运用,进一步加大电助熔负荷比例势在必行。基于平板玻璃熔窑电助熔多区设计及其计算方法,力求最大限度地提升平板玻璃熔窑电助熔功率,实现节能减排技术性突破。
The 2021——2025 action plan for energy conservation and carbon reduction in key industries puts forward higher requirements for energy consumption in the glass industry,and the potential for further reduction of energy consumption in traditional flame furnace is limited.Electric boosting has been widely used in glass industry.It is imperative to further increase the proportion of electric boosting load.Based on the multi-zone design and calculation method of sheet glass furnace electric boosting,in order to maximize the electric boosting power,and realize the technical breakthrough of energy conservation and emission reduction.
作者
何奎
邓永财
HE Kui;DENG Yongcai(China Triumph International Engineering Co.,Ltd.,Shanghai 200063,China)
出处
《玻璃》
2022年第11期19-22,共4页
Glass
基金
上海光电玻璃装备工程技术研究中心(21DZ2280300)。
关键词
电助熔
电阻率
二次侧电压
电流密度
electric boosting
electrical resistivity
secondary side voltage
electric current density
