多变量预测控制(MPC)在甲醇合成氢碳比调节的应用分析  被引量:1

Application analysis of multivariable predictive control(MPC)in regulation of hydrogen-to-carbon ratio for methanol synthesis

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作  者:刘长伟 孟挺 吴函 贾建峰 靳永勇 路嗣恩 Liu Changwei;Meng Ting;Wu Han;Jia Jianfeng;Jin Yongyong;Lu Sien(China Coal Shaanxi Yulin Energy Chemical Co.,Ltd.,Yulin Shaanxi 719000,China;Beijing Star-Maple Technology Co.,Ltd.,Beijing 100086,China)

机构地区:[1]中煤陕西榆林能源化工有限公司,陕西榆林719000 [2]北京星枫先控科技有限公司,北京100086

出  处:《煤化工》2024年第4期12-15,共4页Coal Chemical Industry

摘  要:以中煤榆林205万t/a甲醇合成系统为研究对象,针对实际操作过程中氢碳比调整滞后导致合成塔温度波动及人工操作频繁等问题,引入多变量预测控制(MPC)系统,并结合实际操作中的控制难点和氢碳比影响因素,确定被控变量和操作变量,实现对甲醇合成装置的精细化控制。实践应用情况表明:MPC系统能够提升装置生产平稳性,提高装置的自动化水平,降低生产过程操作人员的劳动强度,提升装置效益。Taking 2.05 million t/a methanol synthesis system at China Coal Shaanxi Yulin Energy Chemical Co.,Ltd.as the research object,in view of the practical operational challenges such as the lagging in hydrogen-to-carbon ratio(H/C ratio)adjustment leading to temperature fluctuations in the synthesis tower and frequent manual interventions,a multivariable predictive control(MPC)system was introduced to mitigate these issues.Combined with the control challenges and H/C ratio influencing factors during the actual operation,the controlled variables and operational variables were determined to achieve the refined control over the methanol synthesis unit.The practical application results demonstrated that the MPC system could enhance the operational stability of the plant,improve its automation level,reduce the labor intensity during the production process,and increase the overall plant efficiency.

关 键 词:甲醇合成 氢碳比 多变量预测控制(MPC) 节能降耗 

分 类 号:TQ223.121[化学工程—有机化工]

 

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