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作 者:刘振兴[1] 何峰 Liu Zhenxing;He Feng(College of Information Science and Engineering,Wuhan University of Science and Technology,Wuhan 430223,China;Department of Energy and Environmental Protection,Hunan Valin Xiangtan Iron and Steel Co.Ltd,Xiangtan 411101,China)
机构地区:[1]武汉科技大学信息科学与工程学院,武汉430223 [2]湖南华菱湘潭钢铁有限公司能源环保部,湘潭411101
出 处:《中南民族大学学报(自然科学版)》2018年第3期15-18,共4页Journal of South-Central University for Nationalities:Natural Science Edition
基 金:国家"863"基金资助项目计划(2014AA041803)
摘 要:针对加热炉大惯性、强滞后性等特点,通过分析其燃烧控制系统现状,提出了采用高温直插式氧化锆进行残氧量在线检测,并采用带交叉限制和残氧修正功能的燃烧优化控制技术,实现了空燃比和炉温的在线闭环优化控制,降低了燃料消耗和氧化烧损生成.运行结果表明:该技术应用于湘钢1#加热炉,优化控制了燃烧过程,吨钢煤气消耗降低2.84%,残氧控制降低1.94%,氧化烧损减少0.121%.Aiming at the characteristics of large inertia and strong hysteresis of heating furnace,by analyzing the current situation of its combustion control system,it is proposed to use high temperature direct plug-in zirconia analyzer for on-line detection of residual oxygen.By using combustion optimization control technology with cross-restriction and residual oxygen correction function,online closed-loop optimal control of air-fuel ratio and furnace temperature was achieved,reducing fuel consumption and oxidative loss.The operation results showed that the technology was applied to Xiang Steel 1#heating furnace to control the combustion process optimally,while the gas consumption per ton of steel was reduced by 2.84%,the residual oxygen was reduced by 1.94%,and the oxidation loss was reduced by 0.121%.
分 类 号:TF30[冶金工程—冶金机械及自动化]
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