• Biomedical Engineering, Semester 1, position 4
• Shipbuilding, Semester 1, position 4
• Aviation, Semester 1, position 4
• Dizajn u mašinstvu, Semester 1, position 4
• Rail Vehicles, Semester 1, position 4
• Zavarivanje i zavarene konstrukcije, Semester 1, position 4
• Industry Engineering, Semester 1, position 4
• Mašinstvo i informacione tehnologije, Semester 1, position 4
• Motor Vehicles, Semester 1, position 4
• Motori SUS, Semester 1, position 4
• Production Engineering, Semester 1, position 4
• Procesna tehnika i zaštita životne sredine, Semester 1, position 4
• Automatic Control, Semester 1, position 4
• Weapon Systems, Semester 1, position 4
• Thermal Energy, Semester 1, position 4
• Transportno inženjerstvo, konstrukcije i logistika, Semester 1, position 4
• Thermal Power Engineering, Semester 1, position 4
• Hidroenergetika, Semester 1, position 4
• Mechanics, Semester 1, position 4
• Inženjerska grafika i mehatronika, Semester 1, position 4
• Poljoprivredno prehrambeno mašinstvo, Semester 1, position 4

Student should gain knowledge in thermodynamics and thermal devices and plants that are present in process engineering, thermal engineering and power engineering. Through practical and theoretical education should understand from thermodynamic aspect the transformation of thermal energy into mechanical work and gain physical fundamentals on phenomena that go on in steam turbine, gas turbine and refrigeration devices as well as in plants for drying various materials and air conditioning of corresponding spaces.

Upon successful completion of this course, students should be able to: •Interpret, explain and implement the First and Second principle of thermodynamics to the closed and open thermodynamic systems. •Interpret and apply the equations of state of real gases and explain their deviations from the ideal gas model. •Recognize the devices in which real thermomechanical processes are evolved and perform their thermodynamic analysis. •Determine the energy indicators of the ideal gas and real right-handed and left-handed cyclic processes with and perform their thermodynamic analysis. •Recognize and describe the exergy of the open and closed thermodynamic system. •Apply the energy and exergy analysis of thermomechanical processes on devices and facilities. •Recognize and determine the thermodynamic properties of wet gases and implement them in the analysis of thermomechanical processes in devices and facilities with moist air.

1.First law of thermodynamics for open thermomechanic system. Mass balance. Energy balance. 2.Second law of thermodynamics for open thermomechanic systems. 3.Exergy of closed and open thermomechanic systems. 4.Thermodynamic analysis of operation of basic thermomechanic devices and plants. 5.Thermodynamics of complex systems, outflow. 6.Humid air - devices and plants that operate with humid air.

1.Numerical exercises on First law of thermodynamics for open thermomechanic system. 2.Numerical exercises on Second law of thermodynamics for open thermomechanic systems. 3.Numerical exercises on exergy of closed and open thermomechanic systems. 4.Numerical exercises on thermodynamic analysis of operation of thermomechanic devices and plants. 5.Numerical exercises on thermodynamics of complex systems. 6.Numerical exercises on processes, devices and plants that operate with humid air.

Necessary: Physics, Thermodynamics B

1. Милинчић, Д., Вороњец, Д.: Термодинамика, Машински факултет, Београд, 1990 2. Козић, Ђ.: Термодинамика, Инжењерски аспекти, Машински факултет, Београд, 2019 3.Васиљевић Б,Бањац М.Мапа за термодинамику,2020 4. Козић, Ђ., Васиљевић, Б., Бекавац, В.:Приручник за термодинамику, Београд, 2006 5. Хендаути за Термодинамику M, сајт Машинског факултета, Београд. 6.Вороњец, Д., Козић, Ђ.: Влажан ваздух, СМЕИТС, Београд, 2005. 7. Васиљевић Б,Бањац М.Приручник за термодинамику:табеле и дијаграми.2020

Total assigned hours: 75

New material: 20
Elaboration and examples (recapitulation): 10

Auditory exercises: 25
Laboratory exercises: 0
Calculation tasks: 5
Seminar paper: 0
Project: 0
Consultations: 0
Discussion/workshop: 0
Research study work: 0

Review and grading of calculation tasks: 4
Review and grading of lab reports: 0
Review and grading of seminar papers: 0
Review and grading of the project: 0
Test: 3
Test: 3
Final exam: 5

Activity during lectures: 0
Test/test: 60
Laboratory practice: 0
Calculation tasks: 0
Seminar paper: 5
Project: 0
Final exam: 35
Requirement for taking the exam (required number of points): 20

Y.A.Cengel, M.A.Boles. Thermodynamics. An Engineering Approach. 5rd Edition, McGraw Hill, 2006.; A. Bejan: Advanced Engineering Thermodynamics, John Wiley & Sons, 1988; Moran M., Sharpio H., Fundamentals of Engineering Thermodynamics, John Wiley & Sons Ltd, 2006.