Mathematical Modeling Approaches for Optimization of Chemical Processes.
- 1st ed.
- 1 online resource (103 pages)
Intro -- MATHEMATICAL MODELING APPROACHES FOR OPTIMIZATION OF CHEMICAL PROCESSES -- NOTICE TO THE READER -- CONTENTS -- PREFACE -- INTRODUCTION -- DEFINITIONS -- BATCH AND SEMI-CONTINUOUS UNITS -- SINGLE PRODUCT, MULTIPRODUCT AND MULTIPURPOSE BATCH PLANTS -- OPTIMIZATION MODEL DECISIONS: SYNTHESIS, DESIGN, OPERATION, SCHEDULING AND PLANNING -- MATHEMATICAL FORMULATIONS -- LITERATURE REVIEW -- WORK OUTLINE -- NLP SUPERSTRUCTURE MODELING FOR THE OPTIMAL SYNTHESIS, DESIGN AND OPERATION IN A BATCH PLANT -- 3.1. INTRODUCTION -- 3.2. MODEL FORMULATION -- 3.3. FERMENTATION PROCESS FOR ETHANOL PRODUCTION -- 3.4. EXAMPLE RESOLUTION -- 3.5. A COMPARISON WITH THE TRADITIONAL APPROACH -- 3.6. CONCLUSIONS AND OUTLOOK ON THE PROPOSED SUPERSTRUCTURE MODELING -- SYNTHESIS AND DESIGN OF MULTIPRODUCT/MULTIPURPOSE BATCH PLANTS: A HEURISTIC APPROACH FOR DETERMINING MIXED PRODUCT CAMPAIGNS -- 4.1. INTRODUCTION -- 4.2. MODEL ASSUMPTIONS -- 4.3. SOLUTION PROCEDURE -- 4.4. MATHEMATICAL MODELING -- 4.4.1. Relaxed Model -- 4.4.2. Multiproduct Campaign Model -- 4.5. STUDY CASE -- Sequential Multipurpose Plant: Torula Yeast, Brandy and Bakery Yeast Production Integrated to a Sugar Plant -- 4.5.1. B-T Sequence Campaign for Fermentation Stage and T-B for Semi-continuous Stages (B-T / T-B) -- 4.5.2. B-T Sequence Campaign for all the Stages -- 4.5.3. B-B-T Sequence Campaign for all the Stages -- 4.6. CONCLUSIONS AND OUTLOOK ON THE PROPOSED HEURISTIC APPROACH FOR MIXED PRODUCT CAMPAIGN MODEL -- PROCESS INTEGRATION:MATHEMATICAL MODELING FOR THE OPTIMAL SYNTHESIS, DESIGN, OPERATION AND PLANNING OF A MULTIPLANT COMPLEX -- 5.1. INTRODUCTION -- 5.2. MODEL FORMULATION -- 5.3. MULTIPLANT COMPLEX TO PRODUCE DERIVATIVES FROM SUGAR CANE -- 5.4. RESULTS AND ANALYSIS -- EXAMPLE -- 5.5. CONCLUSIONS AND OUTLOOK ON THE PROPOSED MULTIPLANT INTEGRATION MODEL. GENERAL SUMMARY AND SUGGESTIONS FOR FURTHER READING -- REFERENCES -- INDEX.