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Full Description
The manner in which time is captured forms the foundation for synthesis, design, and optimization in batch chemical plants. However, there are still serious challenges with handling time in batch plants.
Most techniques tend to assume either a fixed time dimension or adopt time average models to tame the time dimension, thereby simplifying the resultant mathematical models. A direct consequence of this simplification is a suboptimal process. Synthesis, Design, and Resource Optimization in Batch Chemical Plants aims to close this scientific gap.
Presenting state-of-the art models for the scheduling, synthesis, design, and resource optimization of batch chemical processes, this cutting-edge text:
Describes different ways to represent and capture time in the optimal allocation of tasks to various units with the objective of maximizing throughput or minimizing makespan
Covers synthesis and design where the objective is mainly to yield a chemical facility, which satisfies all the targets with minimum capital cost investment
Deals with resource conservation aspects in batch plants, where water and energy take the center stage
Synthesis, Design, and Resource Optimization in Batch Chemical Plants offers a comprehensive discussion of scheduling techniques, continuous-time formulations, and the synthesis and design of chemical plants that optimally utilize water and energy resources.
Contents
Introduction to Batch Chemical Processes. Effective Technique for Scheduling in Multipurpose Batch Plants. Short-Term Scheduling of Multipurpose Pipeless Plants. Evolution of Unit-Specific Event-Based Models in Batch Process Scheduling. Planning and Scheduling in the Biopharmaceutical Industry: An Overview. Design and Synthesis of Multipurpose Batch Plants. Process Synthesis Approaches for Enhancing Sustainability of Batch Process Plants. A Mixed-Integer Linear Programming Model for Optimal Synthesis of Polygeneration Systems with Material and Energy Storage for Cyclic Loads. Scheduling and Design of Multipurpose Batch Facilities: Periodic versus Nonperiodic Operation Mode through a Multi-Objective Approach. Flexibility Analyses and Their Applications in Solar-Driven Membrane Distillation Desalination System Designs. Automated Targeting Model for Batch Process Integration. Integration of Batch Process Schedules and Water Allocation Network. Synthesis of Water Networks with Mixed Batch and Continuous Process Units. Water Conservation in Fixed Scheduled Batch Processes. Simultaneous Optimization of Energy and Water Use in Multipurpose Batch Plants. Retrofit of Industrial Water Network with Mixed Batch and Semicontinuous Processes: Economic versus Environmental Impact.
