Abstract
The buffer allocation problem is an NP-hard combinatorial optimization problem, and it is an important design problem in manufacturing systems. The research proposed in this paper concerns a product line consisting of n unreliable machines with n − 1 buffers and a preventive maintenance policy. The focus of the research is to obtain a better trade-off between the buffer level and the preventive maintenance actions. This paper proposes a dynamic control of the buffers’ level and the interval between two consecutive preventive actions. The set of the parameter of the proposed policy allows choosing the reduction in the costs or the increment of the throughput rate. A simulation model is developed to test the proposed model to the solution proposed in the literature. The proposed policy leads to better results in terms of total costs reduction keeping high production rate, while the design of a fixed level of buffer works better for lower production rates required.
Highlights
A production line is a manufacturing system where work centers are connected in series and separated with buffers
The aim of this paper is to develop a simulation model with higher detail to obtain a realistic evaluation of the manufacturing costs and production rate
The map of the costs obtained with the simulation environment developed can be a decision support system to choose the best model evaluating the condition of production rate, preventive maintenance actions time required, and the buffer storages allocation
Summary
A production line is a manufacturing system where work centers are connected in series and separated with buffers. Chow (1987) highlighted two issues that cause difficulties to solve the buffer allocation problem: (1) an analytical relation between the performance of the production line and the storage capacities’ distribution between the work center of the line cannot be provided; (2) buffer sizing is an NP-hard combinatorial optimization problem. Preventive maintenance is another method to increase the production rate (Patchong and Willaeys 2001; Northworthy and Abdul-Kader 2004; Yusuf 2014; Renna 2012). Conclusions and future research paths are given in the seventh section
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