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Mechanical engineering is one of the oldest and most versatile branches of engineering. It applies principles of physics, mathematics, material science, and engineering to design, analyze, manufacture, and maintain mechanical systems. Mechanical engineers work in various industries, including automotive, aerospace, energy, robotics, manufacturing, and biomedical engineering.
At its core, mechanical engineering involves understanding and applying concepts such as:
Thermodynamics : The study of energy systems, heat transfer, and fluid mechanics.
Mechanics : The analysis of forces, motion, and materials.
Manufacturing : The processes and systems for producing products.
Design : The creation and optimization of components and systems.
Mechanical engineering plays a crucial role in solving problems related to energy, transportation, healthcare, and the environment.
2. Master Fields in Mechanical Engineering
Energy Conversion
This field focuses on the efficient use, transformation, and conservation of energy. It addresses global energy challenges by developing technologies for renewable energy sources and optimizing traditional systems. Core topics include:
Thermal Systems : Heat exchangers, boilers, and HVAC systems.
Renewable Energy : Solar, wind, geothermal, and hydroelectric energy technologies.
Power Generation : Gas turbines, steam turbines, and internal combustion engines.
Energy Storage : Batteries, thermal storage, and fuel cells.
Energy Efficiency : Strategies for reducing energy consumption in industrial and residential systems.
Professionals in this field contribute to the design of power plants, renewable energy systems, and energy-efficient industrial processes.
Applied Design
Applied design focuses on the creation, analysis, and optimization of mechanical components and systems to ensure reliability, efficiency, and safety. This field emphasizes practical solutions tailored to meet real-world engineering challenges. Key areas include:
Product Design : Developing mechanical systems, machines, and tools.
Finite Element Analysis (FEA) : Simulating stress, vibration, and heat transfer in components.
Dynamics and Control : Understanding and controlling the motion of mechanical systems.
Advanced Materials : Using composites and alloys to improve performance.
Optimization : Enhancing the design process for cost-effectiveness and functionality.
Engineers in this field work in industries like automotive design, aerospace, robotics, and consumer product manufacturing.
Mechatronics
Mechatronics integrates mechanical engineering with electronics, computer science, and control engineering to create intelligent systems and automation technologies. This interdisciplinary field is vital for modern innovations in robotics and automation. Major topics include:
Control Systems : Feedback mechanisms for automation.
Embedded Systems : Microcontrollers and sensors for smart devices.
Robotics : Design and operation of robots for various applications.
Automation : Industrial process control and automated machinery.
Artificial Intelligence : Machine learning applications in mechanical systems.
Mechatronics is at the forefront of innovation in areas such as autonomous vehicles, smart manufacturing, medical devices, and IoT-enabled systems.
Conclusion
Mechanical engineering, with its diverse specializations, forms the backbone of modern technological advancements. Each master field—Energy Conversion, Applied Design, and Mechatronics—offers unique opportunities to address critical challenges in energy, manufacturing, and automation, making them indispensable for a sustainable and technologically advanced future.
3. Mechanical engineering at Urmia University of Technology (UUT)
The Department of Mechanical Engineering is one of the first faculties established at Urmia University of Technology. It began admitting students in the field of Mechanical Engineering with a specialization in Solid Mechanics in both regular and evening programs in 2006 (1385 in the Iranian calendar). In 2008, the department introduced the Fluid Mechanics specialization, and in 2011, it started admitting students in the general field of Mechanical Engineering without a specific specialization. The Department of Mechanical Engineering has been admitting graduate students since 2009 for the Master’s program and since 2012 for the Ph.D. program in the Energy Conversion field. Currently, it also admits Master’s students in other specializations.
Programme overview
Main Subject
Engineering - Mechanical
Degree
PhD
Study Level
PHD
Study Mode
On Campus
1.Mechanical Engineering: an overview
Mechanical engineering is one of the oldest and most versatile branches of engineering. It applies principles of physics, mathematics, material science, and engineering to design, analyze, manufacture, and maintain mechanical systems. Mechanical engineers work in various industries, including automotive, aerospace, energy, robotics, manufacturing, and biomedical engineering.
At its core, mechanical engineering involves understanding and applying concepts such as:
Thermodynamics : The study of energy systems, heat transfer, and fluid mechanics.
Mechanics : The analysis of forces, motion, and materials.
Manufacturing : The processes and systems for producing products.
Design : The creation and optimization of components and systems.
Mechanical engineering plays a crucial role in solving problems related to energy, transportation, healthcare, and the environment.
2. Master Fields in Mechanical Engineering
Energy Conversion
This field focuses on the efficient use, transformation, and conservation of energy. It addresses global energy challenges by developing technologies for renewable energy sources and optimizing traditional systems. Core topics include:
Thermal Systems : Heat exchangers, boilers, and HVAC systems.
Renewable Energy : Solar, wind, geothermal, and hydroelectric energy technologies.
Power Generation : Gas turbines, steam turbines, and internal combustion engines.
Energy Storage : Batteries, thermal storage, and fuel cells.
Energy Efficiency : Strategies for reducing energy consumption in industrial and residential systems.
Professionals in this field contribute to the design of power plants, renewable energy systems, and energy-efficient industrial processes.
Applied Design
Applied design focuses on the creation, analysis, and optimization of mechanical components and systems to ensure reliability, efficiency, and safety. This field emphasizes practical solutions tailored to meet real-world engineering challenges. Key areas include:
Product Design : Developing mechanical systems, machines, and tools.
Finite Element Analysis (FEA) : Simulating stress, vibration, and heat transfer in components.
Dynamics and Control : Understanding and controlling the motion of mechanical systems.
Advanced Materials : Using composites and alloys to improve performance.
Optimization : Enhancing the design process for cost-effectiveness and functionality.
Engineers in this field work in industries like automotive design, aerospace, robotics, and consumer product manufacturing.
Mechatronics
Mechatronics integrates mechanical engineering with electronics, computer science, and control engineering to create intelligent systems and automation technologies. This interdisciplinary field is vital for modern innovations in robotics and automation. Major topics include:
Control Systems : Feedback mechanisms for automation.
Embedded Systems : Microcontrollers and sensors for smart devices.
Robotics : Design and operation of robots for various applications.
Automation : Industrial process control and automated machinery.
Artificial Intelligence : Machine learning applications in mechanical systems.
Mechatronics is at the forefront of innovation in areas such as autonomous vehicles, smart manufacturing, medical devices, and IoT-enabled systems.
Conclusion
Mechanical engineering, with its diverse specializations, forms the backbone of modern technological advancements. Each master field—Energy Conversion, Applied Design, and Mechatronics—offers unique opportunities to address critical challenges in energy, manufacturing, and automation, making them indispensable for a sustainable and technologically advanced future.
3. Mechanical engineering at Urmia University of Technology (UUT)
The Department of Mechanical Engineering is one of the first faculties established at Urmia University of Technology. It began admitting students in the field of Mechanical Engineering with a specialization in Solid Mechanics in both regular and evening programs in 2006 (1385 in the Iranian calendar). In 2008, the department introduced the Fluid Mechanics specialization, and in 2011, it started admitting students in the general field of Mechanical Engineering without a specific specialization. The Department of Mechanical Engineering has been admitting graduate students since 2009 for the Master’s program and since 2012 for the Ph.D. program in the Energy Conversion field. Currently, it also admits Master’s students in other specializations.
Admission Requirements
For national candidates admission to a major in our university is based upon the performance of them in the Iranian University Entrance Exam (Konkoor/Concours) – it is the Standard means of entry to universities in Iran. Candidates must have previously taken this exam and have achieved the minimum passing score required to study in this major at Urmia University of Technology.
International candidates for doctoral degree studies must have a minimum grade point average of 60 on a 100 scale in their master's degree in their home country.
Sep
Tuition fees
Domestic
0 USD
Domestic (Out of State)
0 USD
International
1,200 USD
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
Please contact our admissions office at the university via email or phone. They will fully guide you regarding the required documents, tuition and registration time, course start time, etc.
Mechanical Engineering - Energy Conversion, Doctoral Degree Program
1,200 USDTuition Fee/year
Engineering - MechanicalMain Subject Area
Programme overview
Main Subject
Engineering - Mechanical
Degree
PhD
Study Level
PHD
Study Mode
On Campus
1.Mechanical Engineering: an overview
Mechanical engineering is one of the oldest and most versatile branches of engineering. It applies principles of physics, mathematics, material science, and engineering to design, analyze, manufacture, and maintain mechanical systems. Mechanical engineers work in various industries, including automotive, aerospace, energy, robotics, manufacturing, and biomedical engineering.
At its core, mechanical engineering involves understanding and applying concepts such as:
Mechanical engineering plays a crucial role in solving problems related to energy, transportation, healthcare, and the environment.
2. Master Fields in Mechanical Engineering
This field focuses on the efficient use, transformation, and conservation of energy. It addresses global energy challenges by developing technologies for renewable energy sources and optimizing traditional systems. Core topics include:
Professionals in this field contribute to the design of power plants, renewable energy systems, and energy-efficient industrial processes.
Applied design focuses on the creation, analysis, and optimization of mechanical components and systems to ensure reliability, efficiency, and safety. This field emphasizes practical solutions tailored to meet real-world engineering challenges. Key areas include:
Engineers in this field work in industries like automotive design, aerospace, robotics, and consumer product manufacturing.
Mechatronics integrates mechanical engineering with electronics, computer science, and control engineering to create intelligent systems and automation technologies. This interdisciplinary field is vital for modern innovations in robotics and automation. Major topics include:
Mechatronics is at the forefront of innovation in areas such as autonomous vehicles, smart manufacturing, medical devices, and IoT-enabled systems.
Conclusion
Mechanical engineering, with its diverse specializations, forms the backbone of modern technological advancements. Each master field—Energy Conversion, Applied Design, and Mechatronics—offers unique opportunities to address critical challenges in energy, manufacturing, and automation, making them indispensable for a sustainable and technologically advanced future.
3. Mechanical engineering at Urmia University of Technology (UUT)
The Department of Mechanical Engineering is one of the first faculties established at Urmia University of Technology. It began admitting students in the field of Mechanical Engineering with a specialization in Solid Mechanics in both regular and evening programs in 2006 (1385 in the Iranian calendar). In 2008, the department introduced the Fluid Mechanics specialization, and in 2011, it started admitting students in the general field of Mechanical Engineering without a specific specialization. The Department of Mechanical Engineering has been admitting graduate students since 2009 for the Master’s program and since 2012 for the Ph.D. program in the Energy Conversion field. Currently, it also admits Master’s students in other specializations.
Programme overview
Main Subject
Engineering - Mechanical
Degree
PhD
Study Level
PHD
Study Mode
On Campus
1.Mechanical Engineering: an overview
Mechanical engineering is one of the oldest and most versatile branches of engineering. It applies principles of physics, mathematics, material science, and engineering to design, analyze, manufacture, and maintain mechanical systems. Mechanical engineers work in various industries, including automotive, aerospace, energy, robotics, manufacturing, and biomedical engineering.
At its core, mechanical engineering involves understanding and applying concepts such as:
Mechanical engineering plays a crucial role in solving problems related to energy, transportation, healthcare, and the environment.
2. Master Fields in Mechanical Engineering
This field focuses on the efficient use, transformation, and conservation of energy. It addresses global energy challenges by developing technologies for renewable energy sources and optimizing traditional systems. Core topics include:
Professionals in this field contribute to the design of power plants, renewable energy systems, and energy-efficient industrial processes.
Applied design focuses on the creation, analysis, and optimization of mechanical components and systems to ensure reliability, efficiency, and safety. This field emphasizes practical solutions tailored to meet real-world engineering challenges. Key areas include:
Engineers in this field work in industries like automotive design, aerospace, robotics, and consumer product manufacturing.
Mechatronics integrates mechanical engineering with electronics, computer science, and control engineering to create intelligent systems and automation technologies. This interdisciplinary field is vital for modern innovations in robotics and automation. Major topics include:
Mechatronics is at the forefront of innovation in areas such as autonomous vehicles, smart manufacturing, medical devices, and IoT-enabled systems.
Conclusion
Mechanical engineering, with its diverse specializations, forms the backbone of modern technological advancements. Each master field—Energy Conversion, Applied Design, and Mechatronics—offers unique opportunities to address critical challenges in energy, manufacturing, and automation, making them indispensable for a sustainable and technologically advanced future.
3. Mechanical engineering at Urmia University of Technology (UUT)
The Department of Mechanical Engineering is one of the first faculties established at Urmia University of Technology. It began admitting students in the field of Mechanical Engineering with a specialization in Solid Mechanics in both regular and evening programs in 2006 (1385 in the Iranian calendar). In 2008, the department introduced the Fluid Mechanics specialization, and in 2011, it started admitting students in the general field of Mechanical Engineering without a specific specialization. The Department of Mechanical Engineering has been admitting graduate students since 2009 for the Master’s program and since 2012 for the Ph.D. program in the Energy Conversion field. Currently, it also admits Master’s students in other specializations.
Admission Requirements
For national candidates admission to a major in our university is based upon the performance of them in the Iranian University Entrance Exam (Konkoor/Concours) – it is the Standard means of entry to universities in Iran. Candidates must have previously taken this exam and have achieved the minimum passing score required to study in this major at Urmia University of Technology.
International candidates for doctoral degree studies must have a minimum grade point average of 60 on a 100 scale in their master's degree in their home country.
Tuition fees
Domestic
Domestic (Out of State)
International
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
Get answers to all your questions about scholarship applications, including tips on how to find scholarships and chances of success.
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Frequently Asked Questions