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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
MAE 530ENGINE THERMODYNAMICS3 + 02nd Semester7,5

COURSE DESCRIPTION
Course Level Master's Degree
Course Type Elective
Course Objective Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel.
Course Content Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel.
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1To explain to first and second law of thermodynamic
2To guess about open and closed systems
3To explain to four-stroke spark ignition engine cycles
4To explain to different between real cycle and ideal cycle

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12
LO 0015  4 54  4  
LO 0025  4 55  5  
LO 0034  5 54  4  
LO 0044  5 54  4  
Sub Total18  18 2017  17  
Contribution500505400400

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Hours for off-the-classroom study (Pre-study, practice)14570
Mid-terms12020
Final examination16363
Total Work Load

ECTS Credit of the Course






195

7,5
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2010-2011 Spring1MUSTAFA GÖLCÜ


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
MAE 530 ENGINE THERMODYNAMICS 3 + 0 1 Turkish 2010-2011 Spring
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Course location is not specified. %
Goals Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel.
Content Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel.
Topics
Materials
Materials are not specified.
Resources
Course Assessment
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes