Abstract
This work deals with the problem of modeling and prediction of compressive strength of concrete structure in multiproduct batch plant design of protein production found in a chemical engineering process with uncertain demand. Modeling the strength of concrete for this process is very complex. However, it can be solved by minimizing the investment cost. Therefore, the aim of this work is to minimize the investment cost and find out the number and size of parallel equipment units in each stage. For this purpose, it is proposed to solve the problem by using extreme gradient boosting regressor with grid search support (XGBoost), could be interpreted as an optimization algorithm on a suitable cost function, which take into account, the uncertainty on the demand using gaussian process modeling. The results about number and size of equipment’s, investment cost, production time, process time and idle times in plant obtained by light gradient boosted trees regressor are the best. This methodology can help the decision makers and constitutes a very promising framework for finding a set of “good solutions”.
Publisher
Uniscience Publishers LLC
Reference26 articles.
1. Reklaitis GV (1992). Overview of Scheduling and Planning of Batch Process Operations. NATO Advanced Study Institute-Batch Process Systems Engineering.
2. Crougham M, Caldwell V, Randlev B, Billeci K, Nieder M (1997). Prediction of culture performance through cell cycle analysis: Potential tool in operations scheduling. Proceedings of the biochemical engineering.
3. Montagna JM, Vecchietti AR, Iribarren OA, Pinto JM, Asenjo JA (2000). Optimal design of protein production plants with time and size factor process models. Biotechnology Programming, 16(2), 228-237.
4. Robinson JD, Loonkar YR (1972). Minimizing Capital Investment for Multiproduct Batch Plants. Process Technology International, 17(11), 861-63.
5. Grossmann IE, Sargent RW (1979). Optimal design of multipurpose chemical plants. Industrial engineering and chemistry process design, 18(2), 343-48.