ժҪ The scheduling of byproduct gases in byproduct gas system, cogeneration system and production system is studied. All gas-consuming users are divided into three kinds according to their different characters and then a distribution model is established. A dynamic mixed integer linear programming (MILP) model for multiperiod optimization of byproduct gas is performed to optimize byproduct gas distribution to achieve total cost reduction. Case study shows that 6.2% operation cost is reduced using the proposed model.
Abstract��The scheduling of byproduct gases in byproduct gas system, cogeneration system and production system is studied. All gas-consuming users are divided into three kinds according to their different characters and then a distribution model is established. A dynamic mixed integer linear programming (MILP) model for multiperiod optimization of byproduct gas is performed to optimize byproduct gas distribution to achieve total cost reduction. Case study shows that 6.2% operation cost is reduced using the proposed model.
KONG Hai-ning;QI Er-shi;et al. MILP Model for Plant-Wide Optimal By-Product Gas Scheduling in Iron and Steel Industry[J]. �й������ڿ���, 2010, 17(7): 34-34.
KONG Hai-ning;QI Er-shi;et al. MILP Model for Plant-Wide Optimal By-Product Gas Scheduling in Iron and Steel Industry. Chinese Journal of Iron and Steel, 2010, 17(7): 34-34.
2010, Vol. 17 
