Week |
Subject |
Related Preparation |
1) |
Definition of Mathematical Modeling |
Lecture notes, other sources |
1) |
Definition of Mathematical Modeling |
Lecture notes, other sources |
1) |
Definition of Mathematical Modeling |
Lecture notes, other sources |
2) |
Linear and nonlinear equations |
Lecture notes, other sources |
3) |
Techniques for Calculating Roots of Equations |
Lecture notes, other sources |
4) |
Degrees of Freedom Analysis |
Lecture notes, other sources |
5) |
Numerical Integration |
Lecture notes, other sources |
5) |
Numerical Integration |
Lecture notes, other sources |
6) |
Principles of Mathematical Modeling and Solution of Models |
Lecture notes, other sources |
7) |
Solutions of Ordinary and Partial Differential Equations |
Lecture notes, other sources |
8) |
MIDTERM |
NONE. |
9) |
Modeling Steady and Dynamic Systems |
Lecture notes, other sources |
10) |
Mass and Energy Balances, Component Balances, Evaporators |
Lecture notes, other sources |
11) |
Modeling of Reactors |
Lecture notes, other sources |
12) |
Microscopic Equations |
Lecture notes, other sources |
13) |
Gas-Liquid Systems |
Lecture notes, other sources |
14) |
Counterflow Multistage Systems |
Lecture notes, other sources |
15) |
Final Exam |
yok |
Course Notes / Textbooks: |
1. Process Modelling, Simulation and Control for Chemical Engineers, Luyben, L.M., 2nd ed., McGraw-Hill, 1990. 2. Modelling and Simulation in Chemical Engineering, Franks, G.E.R., Wiley, 1972. 3. Ders Notları, Belma Ozbek |
References: |
1. Process Modelling, Simulation and Control for Chemical Engineers, Luyben, L.M., 2nd ed., McGraw-Hill, 1990. 2. Modelling and Simulation in Chemical Engineering, Franks, G.E.R., Wiley, 1972. 3. Ders Notları, Belma Ozbek |
|
Program Outcomes |
Level of Contribution |
1) |
To be able to use advanced theoretical and practical knowledge acquired in the field |
3 |
2) |
To be able to interpret and evaluate data using advanced knowledge and skills acquired in the field, to be able to identify and analyze problems, to be able to develop solutions based on research and evidence. |
3 |
3) |
To be able to plan and manage activities for the development of employees under his/her responsibility within the framework of a project. |
3 |
4) |
To act in accordance with social, scientific, cultural and ethical values in the stages of collecting, interpreting, applying and announcing the results of data related to the field. |
3 |
5) |
To be able to carry out an advanced level study related to the field independently. |
3 |
6) |
To be able to take responsibility individually and as a team member to solve complex and unforeseen problems encountered in applications related to the field. |
3 |
7) |
To have advanced theoretical and practical knowledge supported by textbooks, application tools and other resources containing up-to-date information in the field. |
3 |
8) |
To have sufficient awareness of the universality of social rights, social justice, quality culture and protection of cultural values, environmental protection, occupational health and safety. |
3 |
9) |
To be able to inform the relevant people and institutions about the issues related to the field; to be able to convey his / her thoughts and suggestions for solutions to problems in written and orally. |
3 |
10) |
To be able to share his/her thoughts and suggestions for solutions to problems related to his/her field with experts and non-experts by supporting them with quantitative and qualitative data. |
3 |
11) |
To be able to organize and implement projects and activities for the social environment in which he/she lives with a sense of social responsibility |
3 |
12) |
To be able to evaluate the advanced knowledge and skills acquired in the field with a critical approach |
3 |
13) |
To be able to identify their learning needs and direct their learning |
3 |