InhaltsangabeA. Mathematical modelling and optimization in batch facilities i) State of the art scheduling techniques of batch plants ii) Optimal design of batch chemical facilities iii) Synthesis of batch processes iv) Wastewater minimization in batch plants v) Design of near-zero effluent batch facilities vi) Wastewater minimization using inherent storage in batch plants vii) Heat integration of batch facilities viii) Assessment of heat storage as an energy saving opportunity in batch plants B. Graphical analysis and optimization of batch facilities ix) Graphical scheduling techniques of batch plants x) Wastewater minimization in batch plants using graphical methods xi) Heat integration of batch facilities using graphical methods xii) Assessment of heat storage as an energy saving opportunity in batch plants C. Performance comparisons of graphical and mathematical techniques as applied in batch facilities xiii) Scheduling techniques of batch plants xiv) Wastewater minimization in batch plants using graphical methods xv) Heat integration of batch facilities using graphical methods

InhaltsangabeA. Mathematical modelling and optimization in batch facilities i) State of the art scheduling techniques of batch plants ii) Optimal design of batch chemical facilities iii) Synthesis of batch processes iv) Wastewater minimization in batch plants v) Design of near-zero effluent batch facilities vi) Wastewater minimization using inherent storage in batch plants vii) Heat integration of batch facilities viii) Assessment of heat storage as an energy saving opportunity in batch plants B. Graphical analysis and optimization of batch facilities ix) Graphical scheduling techniques of batch plants x) Wastewater minimization in batch plants using graphical methods xi) Heat integration of batch facilities using graphical methods xii) Assessment of heat storage as an energy saving opportunity in batch plants C. Performance comparisons of graphical and mathematical techniques as applied in batch facilities xiii) Scheduling techniques of batch plants xiv) Wastewater minimization in batch plants using graphical methods xv) Heat integration of batch facilities using graphical methods

A. Mathematical modelling and optimization in batch facilities i) State of the art scheduling techniques of batch plantsii) Optimal design of batch chemical facilitiesiii) Synthesis of batch processesiv) Wastewater minimization in batch plantsv) Design of near-zero effluent batch facilitiesvi) Wastewater minimization using inherent storage in batch plantsvii) Heat integration of batch facilitiesviii) Assessment of heat storage as an energy saving opportunity in batch plants B. Graphical analysis and optimization of batch facilities ix) Graphical scheduling techniques of batch plantsx) Wastewater minimization in batch plants using graphical methodsxi) Heat integration of batch facilities using graphical methodsxii) Assessment of heat storage as an energy saving opportunity in batch plants C. Performance comparisons of graphical and mathematical techniques as applied in batch facilities xiii) Scheduling techniques of batch plantsxiv) Wastewater minimization in batch plants using graphical methodsxv) Heat integration of batch facilities using graphical methods