The integration of energy efficiency at both machine tool and shop floor levels could bring multiple environmental benefits. In order to explore the potential on energy saving for shop floor management, a multi-level optimization method for energy-efficient flexible flow shop scheduling is proposed, which incorporates power models of single machine and cutting parameters optimization into the energy efficient scheduling problems. The operation scheme is obtained through multi-level optimization, namely cutting parameters optimization (machine tool level) and optimized scheduling (shop floor level). At machine tool level, cutting parameters of each machine are optimized based on grey relational analysis, where cutting energy and cutting time are considered as the objectives. Based on the established energy consumption model of flexible flow shop, Genetic Algorithm is employed to optimize makespan and total energy consumption simultaneously at shop floor level. The case study for a flexible flow shop is presented to demonstrate the applicability of the proposed multi-level optimization method. The scheduling results show that the multi-level optimization method is effective in assisting schemes selection to reduce the makespan and total energy consumption during production process. Moreover, there exists potential for synergistic energy saving when the multi-level optimization is used.

• 出版日期2016-11-20
• 单位哈尔滨工业大学