Optimization of a heavy continuous Rolling Mill system via simulation

The objective of this study is to develop an integrated simulation model, which generates a set of optimizing alternatives for a heavy continuous Rolling Min system in a full-scale steelmaking factory. The simulation approach enabled us to evaluate the performance of the existing system and pinpointed existing bottlenecks in workstations and production flow. Consequently, it generated a set of optimum production alternatives. Data related to process and operation times, repairs, maintenance and quality control were collected and analyzed systematically The simulation model was modeled by Visual SLAM & Awesim simulation language. The results and structure of the computer simulation model were validated and verified against the actual system. Also, the results of the models were discussed and approved by the production managers. The distinct feature of the simulation model is three fold. First, it is integrated and considers detailed operations and activities of the Rolling Mill system. Furthermore, it is designed to be integrated with other workshops of the factory. Second, it locates the optimum solutions by a rule-based methodology. Finally,the model considers the Just-in-Time configuration of the line and is capable of answering all production and inventory issues.