1. komponenta

Lecture type	Total
Lectures	30
Seminar	30

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

AIM OF THE COURSE: The aim of the Technical Thermodynamics course is to provide students with a fundamental understanding of the basic principles of thermodynamics and their application in various processes. The course focuses on thermodynamics as a key area in engineering disciplines, especially in the fields of energy, mechanical engineering, chemical engineering and other related fields.

EXECUTIVE PROGRAM OF THE COLLEGE:
1. Basic thermodynamic quantities
2. Thermal quantities of the state
3. Energy quantities in thermodynamic processes
4. Basic laws of thermodynamics
5. Changes in the state of ideal gases
6. Humid air
7. Compression and expansion processes
8. Circular processes
9. Processes in gas turbine plants
10. Processes in internal combustion engines
11. Steam process
12. Processes with low temperatures
13. Thermodynamics and sustainability: impact on the environment and energy efficiency
14. Thermodynamics of renewable energy sources
15. Thermodynamics in industry: application in production processes

DEVELOPMENT OF STUDENTS' GENERAL AND SPECIFIC COMPETENCES:
Acquiring specific knowledge needed to solve practical thermodynamic problems.

OBLIGATIONS OF STUDENTS IN CLASSES AND METHODS OF PERFORMING THEM:
Students are required to attend lectures and seminars. Students have the right to take the exam through partial colloquia.

CONDITIONS FOR OBTAINING A SIGNATURE:
Attendance at a minimum of 75% of all lectures and seminars.

METHOD OF PERFORMING LESSONS:
Lectures and seminar.

METHOD OF CHECKING KNOWLEDGE AND PASSING THE EXAM:
Partial colloquia or written/oral exam

METHODS OF MONITORING THE QUALITY AND SUCCESS OF COLLEGES:
Student survey

METHODOLOGICAL PREREQUISITES:
Passed exam from the courses Fundamentals of Mechanical Engineering, Physics II, Mathematics II

LEARNING OUTCOMES OF THE COLLEGE:
1. Understanding the basic principles of thermodynamics
2. Application of thermodynamics in different technical systems
3. Analysis of thermodynamic processes
4. Critical thinking and problem solving
5. Application of thermodynamics in sustainable development

LEARNING OUTCOMES AT PROGRAM LEVEL:
1. explain the basic principles of chemical engineering in the areas of modeling and simulating chemical reactions, processes of matter and energy transfer, and separation processes
2. to define chemical engineering problems, which includes their analysis and formulation for solving by applying basic principles
3. choose appropriate methods of analysis, modeling, simulation and optimization
4. explain the principles of process design methods
5. critically use literature in printed and online form to collect the necessary information for solving chemical engineering problems
6. apply techniques and methods with awareness of their limitations
7. demonstrate the ability to learn independently and recognize the need for lifelong education

1. Osnove tehničke termodinamike, Budin, R., Mihelić Bogdanić, A., Školska knjiga, 2012.
2. Osnove termodinamike i termotehnike, Hnatko, E., Strojarski fakultet, 2001.

Enrollment :
Passed : Analytical chemistry
Passed : Applied computer sciences
Passed : Calculus II
Passed : General and inorganic chemistry
Passed : Introduction to environmental engineering
Passed : Microbiology
Passed : Physics II

Mandatory course - Regular studij - Environmental Engineering