1. komponenta

Lecture type	Total
Lectures	20

* Load is given in academic hour (1 academic hour = 45 minutes)

Preliminary analysis and evaluation of processes. Understanding process conditions. Input, output and recycle structure. Synthesis and optimization of chemical processes. Use of process simulators for process synthesis and modelling. Process integration for efficient use of materials and energy. Heat exchange network (HEN) design. Mass exchange network (MEN) design. Process optimization. Optimization approaches to process synthesis and design. Unit operations and flowsheet analysis for pollution prevention. Environmental cost accounting. Process modifications aiming for minimisation of emissions into water, air and land. Engineering economic analysis of chemical processes. Case studies.

TEACHING METHODS:
Adapted to the student's individual needs: teaching and/or consultations.

STUDENT'S OBLIGATIONS:
Performing an independent research of a subject in the area of a scientific or professional interest to the student. Written exam.

LEARNING OUTCOMES AT THE LEVEL OF STUDY PROGRAMME
1. To systematise knowledge, skills and competences for the respective field and academic area of the programme of study
2. To evaluate the skills and methods for experimental and theoretical research relating to the respective field and academic area of the programme of study

1. Apply process simulators to create models of processes of differend degree of complexity, based on available data.
2. Develop a diagram of a process for production of a chosen chemical product.
3. Develop a superstructure of a process diagram for the purpose of its structural optimization.
4. Evaluate methods and techniques for chemical process synthesis with a purpose of optimal use of energy and raw materials.
5. Evaluate different approaches to optimization of processes.
6. Analyze a process by applying engineering economical analysis.

1. Chemical Process Design and Integration, R. Smith, Wiley, 2005.
2. Analysis, Synthesis and Design of Chemical Processes, R. Turton, R. C. Bailie, W. B. Whiting, J. A. Shaeiwitz, Prentice Hall, 2003.
3. Systematic Methods of Chemical Process Design, L.T. Biegler, I.E. Grossman, A.W. Westerberg, Prentice Hall, 1997.
4. Pinch Analyisis and Process Integration, I.C: Kemp, Elsevier, 2007.

D_Izborni - Regular studij - Chemical Engineering and Applied Chemistry