Your input will help us improve your experience.You can close this popup to continue using the website or choose an option below to register in or login.
Chemical engineering is a vast field of science and technology today. From its fundamental role in producing essential products to advancing new technologies, chemical engineers are crucial in shaping the future. One of the main attractions of chemical engineering is its wide range of career opportunities. Chemical engineers are vital in industries such as pharmaceuticals, petrochemicals, food processing, renewable energy, materials science, and environmental protection. Chemical engineers are the primary developers of renewable energy technologies, including biofuels, hydrogen production, and advanced battery systems. They also play a significant role in addressing climate change by designing carbon capture and storage methods, improving energy efficiency, and producing sustainable materials that minimize environmental impacts. In healthcare, their influence is profound in developing life-saving drugs and medical technologies. They design processes for the mass production of vaccines and biologics and create biomaterials used in implants and prosthetics. Their work directly impacts millions of lives. Additionally, they contribute to developing diagnostic tools and drug delivery systems that enhance treatment effectiveness and accessibility. As technology progresses, the role of chemical engineers expands into exciting new areas. For instance, nanotechnology enables the creation of advanced materials with unprecedented properties, such as self-healing coatings and ultralight composites. The field of biotechnology allows engineers to design biological products and processes, paving the way for a more sustainable bioeconomy. Moreover, artificial intelligence and machine learning have revolutionized methods for process optimization, predictive maintenance, and decision-making in chemical engineering. Ultimately, chemical engineering is more than just a technical discipline; it is a pillar of innovation that influences nearly every aspect of modern life. By combining scientific expertise with creative problem-solving skills, chemical engineers tackle some of the world's grand challenges—such as energy production, healthcare, food security, and environmental sustainability. With the rapid advancements in science and technology, the demand for skilled chemical engineers will continue to rise. This field will not only serve as a viable career choice but also as a platform for making meaningful changes and leaving a lasting impact on society
Chemical Engineering at Urmia University of Technology
Chemical Engineering Department started its undergraduate program almost simultaneously with the establishment of Urmia University of Technology in 2006, making it one of the oldest academic departments at the university. The department launched its graduate programs in 2008. Currently, the Chemical Engineering Department offers both undergraduate and graduate programs as follows:
Bachelor, s Degree : Chemical Engineering
Master, s Degree:
Chemical Engineering – Process Design
Chemical Engineering - Separation Processes
Chemical Engineering – Polymer
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineerng
Chemical engineering is a vast field of science and technology today. From its fundamental role in producing essential products to advancing new technologies, chemical engineers are crucial in shaping the future. One of the main attractions of chemical engineering is its wide range of career opportunities. Chemical engineers are vital in industries such as pharmaceuticals, petrochemicals, food processing, renewable energy, materials science, and environmental protection. Chemical engineers are the primary developers of renewable energy technologies, including biofuels, hydrogen production, and advanced battery systems. They also play a significant role in addressing climate change by designing carbon capture and storage methods, improving energy efficiency, and producing sustainable materials that minimize environmental impacts. In healthcare, their influence is profound in developing life-saving drugs and medical technologies. They design processes for the mass production of vaccines and biologics and create biomaterials used in implants and prosthetics. Their work directly impacts millions of lives. Additionally, they contribute to developing diagnostic tools and drug delivery systems that enhance treatment effectiveness and accessibility. As technology progresses, the role of chemical engineers expands into exciting new areas. For instance, nanotechnology enables the creation of advanced materials with unprecedented properties, such as self-healing coatings and ultralight composites. The field of biotechnology allows engineers to design biological products and processes, paving the way for a more sustainable bioeconomy. Moreover, artificial intelligence and machine learning have revolutionized methods for process optimization, predictive maintenance, and decision-making in chemical engineering. Ultimately, chemical engineering is more than just a technical discipline; it is a pillar of innovation that influences nearly every aspect of modern life. By combining scientific expertise with creative problem-solving skills, chemical engineers tackle some of the world's grand challenges—such as energy production, healthcare, food security, and environmental sustainability. With the rapid advancements in science and technology, the demand for skilled chemical engineers will continue to rise. This field will not only serve as a viable career choice but also as a platform for making meaningful changes and leaving a lasting impact on society
Chemical Engineering at Urmia University of Technology
Chemical Engineering Department started its undergraduate program almost simultaneously with the establishment of Urmia University of Technology in 2006, making it one of the oldest academic departments at the university. The department launched its graduate programs in 2008. Currently, the Chemical Engineering Department offers both undergraduate and graduate programs as follows:
Bachelor, s Degree : Chemical Engineering
Master, s Degree:
Chemical Engineering – Process Design
Chemical Engineering - Separation Processes
Chemical Engineering – Polymer
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 master's degree studies must have a minimum grade point average of 60 on a 100 scale in their undergraduate degree in their home country.
Sep
Tuition fees
Domestic
0 USD
Domestic (Out of State)
0 USD
International
1,000 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.
Chemical Engineering-Process Design, Master's degree program
1,000 USDTuition Fee/year
Engineering - ChemicalMain Subject Area
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineerng
Chemical engineering is a vast field of science and technology today. From its fundamental role in producing essential products to advancing new technologies, chemical engineers are crucial in shaping the future. One of the main attractions of chemical engineering is its wide range of career opportunities. Chemical engineers are vital in industries such as pharmaceuticals, petrochemicals, food processing, renewable energy, materials science, and environmental protection. Chemical engineers are the primary developers of renewable energy technologies, including biofuels, hydrogen production, and advanced battery systems. They also play a significant role in addressing climate change by designing carbon capture and storage methods, improving energy efficiency, and producing sustainable materials that minimize environmental impacts. In healthcare, their influence is profound in developing life-saving drugs and medical technologies. They design processes for the mass production of vaccines and biologics and create biomaterials used in implants and prosthetics. Their work directly impacts millions of lives. Additionally, they contribute to developing diagnostic tools and drug delivery systems that enhance treatment effectiveness and accessibility. As technology progresses, the role of chemical engineers expands into exciting new areas. For instance, nanotechnology enables the creation of advanced materials with unprecedented properties, such as self-healing coatings and ultralight composites. The field of biotechnology allows engineers to design biological products and processes, paving the way for a more sustainable bioeconomy. Moreover, artificial intelligence and machine learning have revolutionized methods for process optimization, predictive maintenance, and decision-making in chemical engineering. Ultimately, chemical engineering is more than just a technical discipline; it is a pillar of innovation that influences nearly every aspect of modern life. By combining scientific expertise with creative problem-solving skills, chemical engineers tackle some of the world's grand challenges—such as energy production, healthcare, food security, and environmental sustainability. With the rapid advancements in science and technology, the demand for skilled chemical engineers will continue to rise. This field will not only serve as a viable career choice but also as a platform for making meaningful changes and leaving a lasting impact on society
Chemical Engineering at Urmia University of Technology
Chemical Engineering Department started its undergraduate program almost simultaneously with the establishment of Urmia University of Technology in 2006, making it one of the oldest academic departments at the university. The department launched its graduate programs in 2008. Currently, the Chemical Engineering Department offers both undergraduate and graduate programs as follows:
Bachelor, s Degree : Chemical Engineering
Master, s Degree:
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineerng
Chemical engineering is a vast field of science and technology today. From its fundamental role in producing essential products to advancing new technologies, chemical engineers are crucial in shaping the future. One of the main attractions of chemical engineering is its wide range of career opportunities. Chemical engineers are vital in industries such as pharmaceuticals, petrochemicals, food processing, renewable energy, materials science, and environmental protection. Chemical engineers are the primary developers of renewable energy technologies, including biofuels, hydrogen production, and advanced battery systems. They also play a significant role in addressing climate change by designing carbon capture and storage methods, improving energy efficiency, and producing sustainable materials that minimize environmental impacts. In healthcare, their influence is profound in developing life-saving drugs and medical technologies. They design processes for the mass production of vaccines and biologics and create biomaterials used in implants and prosthetics. Their work directly impacts millions of lives. Additionally, they contribute to developing diagnostic tools and drug delivery systems that enhance treatment effectiveness and accessibility. As technology progresses, the role of chemical engineers expands into exciting new areas. For instance, nanotechnology enables the creation of advanced materials with unprecedented properties, such as self-healing coatings and ultralight composites. The field of biotechnology allows engineers to design biological products and processes, paving the way for a more sustainable bioeconomy. Moreover, artificial intelligence and machine learning have revolutionized methods for process optimization, predictive maintenance, and decision-making in chemical engineering. Ultimately, chemical engineering is more than just a technical discipline; it is a pillar of innovation that influences nearly every aspect of modern life. By combining scientific expertise with creative problem-solving skills, chemical engineers tackle some of the world's grand challenges—such as energy production, healthcare, food security, and environmental sustainability. With the rapid advancements in science and technology, the demand for skilled chemical engineers will continue to rise. This field will not only serve as a viable career choice but also as a platform for making meaningful changes and leaving a lasting impact on society
Chemical Engineering at Urmia University of Technology
Chemical Engineering Department started its undergraduate program almost simultaneously with the establishment of Urmia University of Technology in 2006, making it one of the oldest academic departments at the university. The department launched its graduate programs in 2008. Currently, the Chemical Engineering Department offers both undergraduate and graduate programs as follows:
Bachelor, s Degree : Chemical Engineering
Master, s Degree:
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 master's degree studies must have a minimum grade point average of 60 on a 100 scale in their undergraduate 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.
More programmes from the university
Engineering and Technology (2)
Aerospace Engineering, Bachelor's degree program
Aerospace Engineering, Bachelor's degree program
Chemical Engineering, Bachelor's degree program
Chemical Engineering, Bachelor's degree program
Civil Engineering, Bachelor's degree program
Civil Engineering, Bachelor's degree program
Computer and Information Technology Engineering, Bachelor's degree program
Computer and Information Technology Engineering, Bachelor's degree program
Electrical Engineering, Bachelor's degree program
Electrical Engineering, Bachelor's degree program
Energy Engineering, Bachelor's degree program
Energy Engineering, Bachelor's degree program
Industrial and Systems Engineering, Bachelor's degree program
Industrial and Systems Engineering, Bachelor's degree program
Manufacturing and Production Engineering, Bachelor's degree program
Manufacturing and Production Engineering, Bachelor's degree program
Mechanical Engineering, Bachelor's degree program
Mechanical Engineering, Bachelor's degree program
Metallurgical and Materials Engineering, Bachelor's degree program
Metallurgical and Materials Engineering, Bachelor's degree program
Mining Engineering, Bachelor's degree program
Mining Engineering, Bachelor's degree program
Optics and Laser Engineering, Bachelor's degree program
Optics and Laser Engineering, Bachelor's degree program
Textile Engineering, Bachelor's degree program
Textile Engineering, Bachelor's degree program
Natural Sciences (2)
Applied Chemistry, Bachelor's degree program
Applied Chemistry, Bachelor's degree program
Engineering and Technology (2)
Chemical Engineering-Polymer, Master's degree program
Chemical Engineering-Polymer, Master's degree program
Chemical Engineering-Process Design, Master's degree program
Chemical Engineering-Process Design, Master's degree program
Chemical Engineering-Separation processes, Master's degree program
Chemical Engineering-Separation processes, Master's degree program
Civil Engineering- structural Engineering, Master's degree program
Civil Engineering- structural Engineering, Master's degree program
Computer and Information Technology Engineering- Management of Information Systems, Master's degree program
Computer and Information Technology Engineering- Management of Information Systems, Master's degree program
Computer and Information Technology Engineering- Network Systems, Master's degree program
Computer and Information Technology Engineering- Network Systems, Master's degree program
Electrical Engineering - Controls, Master's degree program
Electrical Engineering - Controls, Master's degree program
Electrical Engineering - Electronics, Master's degree program
Electrical Engineering - Electronics, Master's degree program
Electrical Engineering - Mechatronics, Master's degree program
Electrical Engineering - Mechatronics, Master's degree program
Electrical Engineering- Communications, Master's degree program
Electrical Engineering- Communications, Master's degree program
Industrial and Systems Engineering - Production and Services Systems, Master's degree program
Industrial and Systems Engineering - Production and Services Systems, Master's degree program
Industrial and Systems Engineering - Systems Modelling and Data Analysis, Master's degree program
Industrial and Systems Engineering - Systems Modelling and Data Analysis, Master's degree program
Manufacturing and Production Engineering, Master's degree program
Manufacturing and Production Engineering, Master's degree program
Mechanical Engineering - Applied Design, Master's degree program
Mechanical Engineering - Applied Design, Master's degree program
Mechanical Engineering - Energy Conversion, Master's degree program
Mechanical Engineering - Energy Conversion, Master's degree program
Mining Engineering - Mineral Extraction, Master's degree program
Mining Engineering - Mineral Extraction, Master's degree program
Photonics Engineering, Master's degree program
Photonics Engineering, Master's degree program
civil Engineering - Earthquake Engineering, Master's degree program
civil Engineering - Earthquake Engineering, Master's degree program
Natural Sciences (2)
Applied Mathematics - Numerical Analysis, Master's degree program
Applied Mathematics - Numerical Analysis, Master's degree program
Applied Mathematics - Optimization, Master's degree program
Applied Mathematics - Optimization, Master's degree program
Catalytic Chemistry, Master's degree program
Catalytic Chemistry, Master's degree program
Physics - Condensed Matter, Master's degree program
Physics - Condensed Matter, Master's degree program
Engineering and Technology (2)
Mechanical Engineering - Energy Conversion, Doctoral Degree Program
Mechanical Engineering - Energy Conversion, Doctoral Degree Program
Natural Sciences (2)
Physics – Fundamental Particles and Field Theory, Doctoral Degree Program
Physics – Fundamental Particles and Field Theory, Doctoral Degree Program
Frequently Asked Questions