212060520 – Chemical Plant Design I

Course Description:

This course aims to provide students with basic skills in developing concepts/theories in chemical plant design. This course will discuss the definition of the chemical plant design process in general, Design Process, Design Sequence, Data sources, Data estimation, System Analysis, Optimization and Integration of the Process, Plant design process and its selection system, Reaction Flow, Types of reaction systems, Reactor performance, Reactor models, Concentration in reactors, Temperature in reactors, Reactor pressure, Reactor phases, catalysts, Practical use of reactors, Calculating optimization and reactor scheduling needs, Separation of Homogeneous Mixtures, Separation of Heterogeneous Mixtures, Distillation, Absorption, Drying, Evaporators, Adsorption, Identification of physical properties of residual materials and results, Sequence systems, Triple effect evaporators systems, Energy utilization systems. The learning method in this course is carried out centered on students and based on basic theories with examples of chemical engineering cases/industrial cases (Case based learning). Graduate learning outcomes are achieved effectively and the learning process prioritizes a scientific approach in the case of chemical plant design (contextual) collaboratively. The assessment process is carried out with observation assessments, written tests, assignments, and quizzes according to the rubric provided.

Course Outline:

1. Understanding the chemical plant design process in general Design Process, Design Sequence, Data sources, Data estimation, System Analysis, Optimization and Process Integration
2. Plant design process and its selection system. Reaction flow, Type of reaction system, Reactor performance, Reactor model, Concentration in reactor, Temperature in reactor, Reactor pressure, Reactor phase, catalyst, Practical use of reactor. Calculating reactor optimization and scheduling needs
3. Calculating reactor optimization and scheduling needs. Separation of Homogeneous Mixtures, Separation of Heterogeneous Mixtures, Distillation, Absorption, Drying, Evaporator, Adsorption
4. Identification of physical properties of residual materials and results Sequence system, Triple effect evaporator system, Energy utilization system