| Summary: | 碩士 === 國立成功大學 === 工學院工程管理專班 === 97 === Solar energy industry has been developed rapidly in recent years. They are required in the production technology to the way (Turn-key solution) that copy the same experience rapidly, so at this stage for the industry with high homogeneity. If we want to enhance our competitiveness nothing is better than from the manufacturing process is upgraded and lower production costs are reduced effectively .It is also base on plant facilities. Plant facilities layout (Layout) is always for the performance of manufacturing systems have a significant impact. The general layout of the facilities solutions are measured the quality of design on transport distance, these methods can not be considered effectively on multi-objective decision-making problem, so cannot ensure the problem solution quality on multi-objective. From the practical point of view, the plant layout problem in essence is a need to emphasize communication and co-ordination and how to integrate the views of the majority of the multi-objective decision-making problems, the majority of literature are almost emphasis on solution method and rarely on the group decision-making process give a clear explain. Therefore, how to combine effectively the group decision-making structure and logic to find an easy application and suitability methods for thin-film solar industry is the key point of this paper. This paper combined with a Systematic Layout Planning(SLP)and the Analytic Hierarchy Process(AHP), used on the central spine layout to solve the facilities layout design problem for thin-film solar industry. First, by the SLP steps to do and use from - to chart to achieve transport cost for quantitative indicators; to operate and develop relationships to the working data. The working data are combine the expert suggestions and join the actual constraints to gain a number of alternatives and then by the Check List to confirm and find three better alternatives. Finally, to draw up the decision-making objectives. Then use AHP method to calculate of relative weight and consistency to estimate the best layout and carry out sensitivity analysis. The results show this method practicality and applicability for thin-film solar industries application of facility layout, it is the value of paper-based.
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