控制理论与应用
控製理論與應用
공제이론여응용
CONTROL THEORY & APPLICATIONS
2014年
6期
773-778
,共6页
生产计划%集成%优化%常减压%可变收率
生產計劃%集成%優化%常減壓%可變收率
생산계화%집성%우화%상감압%가변수솔
planning%integration%optimization%CDU%swing yields
传统的生产计划优化由于不考虑过程装置的操作优化,从而无法保证企业生产计划层与过程操作层的全局最优。为了在获得炼油企业最优生产计划的同时,确保计划优化中重点装置的操作条件可以实现,本文建立了集成装置工艺条件的炼油企业生产计划优化模型。该模型引入常减压装置侧线产品切割点温度、催化裂化装置转化率等过程工艺条件,基于物料质量平衡、产品质量指标约束等关系,进行厂级生产计划建模与求解,确定可达的装置操作条件。应用案例中重点通过与传统常减压装置侧线收率固定的生产计划方案比较,证明在满足可达的操作条件下,集成装置工艺条件操作范围的生产计划优化模型,可以实现更高的全厂利润与更优的装置收率分布,同时优化结果对炼厂实际生产更具有指导意义。
傳統的生產計劃優化由于不攷慮過程裝置的操作優化,從而無法保證企業生產計劃層與過程操作層的全跼最優。為瞭在穫得煉油企業最優生產計劃的同時,確保計劃優化中重點裝置的操作條件可以實現,本文建立瞭集成裝置工藝條件的煉油企業生產計劃優化模型。該模型引入常減壓裝置側線產品切割點溫度、催化裂化裝置轉化率等過程工藝條件,基于物料質量平衡、產品質量指標約束等關繫,進行廠級生產計劃建模與求解,確定可達的裝置操作條件。應用案例中重點通過與傳統常減壓裝置側線收率固定的生產計劃方案比較,證明在滿足可達的操作條件下,集成裝置工藝條件操作範圍的生產計劃優化模型,可以實現更高的全廠利潤與更優的裝置收率分佈,同時優化結果對煉廠實際生產更具有指導意義。
전통적생산계화우화유우불고필과정장치적조작우화,종이무법보증기업생산계화층여과정조작층적전국최우。위료재획득련유기업최우생산계화적동시,학보계화우화중중점장치적조작조건가이실현,본문건립료집성장치공예조건적련유기업생산계화우화모형。해모형인입상감압장치측선산품절할점온도、최화열화장치전화솔등과정공예조건,기우물료질량평형、산품질량지표약속등관계,진행엄급생산계화건모여구해,학정가체적장치조작조건。응용안례중중점통과여전통상감압장치측선수솔고정적생산계화방안비교,증명재만족가체적조작조건하,집성장치공예조건조작범위적생산계화우화모형,가이실현경고적전엄리윤여경우적장치수솔분포,동시우화결과대련엄실제생산경구유지도의의。
Traditional production planning models do not consider constraints on operating conditions of the process;therefore, the total optimality of the planning site and the process site cannot be guaranteed. To achieve the total optimal production plan for the refinery enterprise by considering the operating conditions for all major units, we build an optimal production plan model for a refinery enterprise with integrated operating conditions for all major units. This mathematical model considers the cut points of the crude oil distillation unit (CDU) and the conversion of the fluid catalytic cracker (FCC), and is incorporated with the mass balance of material, product quality constraints and the major units models with operation conditions. It is used for the total optimization for the refinery production plan while simultaneously optimizing the operating conditions of major units. A production planning model with swing CDU fractions is obtained in a case study of a real refinery. The results shows that this production planning model integrated with process operation could obtain the optimal operating conditions at the same time achieving a higher refinery profit. Besides, this model provides better guidance for the practical production.