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 log in.
Chemical Engineering and Chemical Engineers provide cutting-edge solutions to the society’s needs such as sustainable processes and technologies for the production of goods (materials, drugs, green chemicals, fertilizers) and for energy transformation (e.g. fuels, carbon neutral energy carriers such as hydrogen, ammonia, etc.) coupling pollutants emissions reduction (e.g. carbon capture, storage and utilization, wastewater treatments, etc.), economic viability and a wise utilization of natural renewable and non-renewable sources. All of the modern challenges related to decarbonization, energy transition and circular economy have a common denominator: they involve chemical transformations. Chemical Engineers exploit fundamentals of chemistry (e.g. chemical kinetics, thermodynamics), physics (e.g. heat and mass transfer) and mathematics to describe and understand underlying chemical and physical processes from the molecular level to the macroscale (chemical reactors and chemical plants), designing, operating, and controlling all processes and equipment that produce and/or transform materials and energy.
The Laurea Magistrale (equivalent to Master of Science) programme in Chemical Engineering completes the basic preparation of bachelor graduates in Chemical Engineering and related disciplines and provide guided paths towards high-level professional profiles which are employed in a plethora of industrial sectors including (but not limited to) chemical, petrochemical, oil&gas, energy and sustainable energy production and management, pharmaceutical, food, biological, metals, textile, plastics and automotive industries. In these contexts, chemical engineers typically design and develop innovative processes and products, operate, control and optimize complex production facilities and plants. Additional employment opportunities typically include public and industrial research centers, technical structures of the Public Administration and consultancy in the area of environment and safety.
LANGUAGE: English
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineering and Chemical Engineers provide cutting-edge solutions to the society’s needs such as sustainable processes and technologies for the production of goods (materials, drugs, green chemicals, fertilizers) and for energy transformation (e.g. fuels, carbon neutral energy carriers such as hydrogen, ammonia, etc.) coupling pollutants emissions reduction (e.g. carbon capture, storage and utilization, wastewater treatments, etc.), economic viability and a wise utilization of natural renewable and non-renewable sources. All of the modern challenges related to decarbonization, energy transition and circular economy have a common denominator: they involve chemical transformations. Chemical Engineers exploit fundamentals of chemistry (e.g. chemical kinetics, thermodynamics), physics (e.g. heat and mass transfer) and mathematics to describe and understand underlying chemical and physical processes from the molecular level to the macroscale (chemical reactors and chemical plants), designing, operating, and controlling all processes and equipment that produce and/or transform materials and energy.
The Laurea Magistrale (equivalent to Master of Science) programme in Chemical Engineering completes the basic preparation of bachelor graduates in Chemical Engineering and related disciplines and provide guided paths towards high-level professional profiles which are employed in a plethora of industrial sectors including (but not limited to) chemical, petrochemical, oil&gas, energy and sustainable energy production and management, pharmaceutical, food, biological, metals, textile, plastics and automotive industries. In these contexts, chemical engineers typically design and develop innovative processes and products, operate, control and optimize complex production facilities and plants. Additional employment opportunities typically include public and industrial research centers, technical structures of the Public Administration and consultancy in the area of environment and safety.
LANGUAGE: English
Admission Requirements
59+
6+
4.5+
A strong undergraduate preparation is required both in general core disciplines and basic sciences, as well as a Bachelor Degree in Chemical Engineering and/or related disciplines (Industrial Chemistry, Industrial Engineering, Chemistry, Physical Chemistry, etc.).
Applicants to Master of Science programmes are required to have a Bachelor degree or to be in the process of completing a Bachelor degree. In case you have both a Bachelor and a Master Degree, you will be evaluated on the basis of your Bachelor Degree only.
18 Jun 2026
2 Years
Sep
Feb
Candidates are required to submit references or letter(s) of recommendation for acceptance
Candidates are required to submit an essay(s) for acceptance
Tuition fees
Domestic
167 EUR
International
167 EUR
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:
Chemical Engineering
Milano Leonardo, Milan,, Italy
24 monthsProgramme duration
167 EURTuition Fee/year
18 Jun, 2026Application Deadline
Sep, FebStarting Month
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineering and Chemical Engineers provide cutting-edge solutions to the society’s needs such as sustainable processes and technologies for the production of goods (materials, drugs, green chemicals, fertilizers) and for energy transformation (e.g. fuels, carbon neutral energy carriers such as hydrogen, ammonia, etc.) coupling pollutants emissions reduction (e.g. carbon capture, storage and utilization, wastewater treatments, etc.), economic viability and a wise utilization of natural renewable and non-renewable sources. All of the modern challenges related to decarbonization, energy transition and circular economy have a common denominator: they involve chemical transformations. Chemical Engineers exploit fundamentals of chemistry (e.g. chemical kinetics, thermodynamics), physics (e.g. heat and mass transfer) and mathematics to describe and understand underlying chemical and physical processes from the molecular level to the macroscale (chemical reactors and chemical plants), designing, operating, and controlling all processes and equipment that produce and/or transform materials and energy.
The Laurea Magistrale (equivalent to Master of Science) programme in Chemical Engineering completes the basic preparation of bachelor graduates in Chemical Engineering and related disciplines and provide guided paths towards high-level professional profiles which are employed in a plethora of industrial sectors including (but not limited to) chemical, petrochemical, oil&gas, energy and sustainable energy production and management, pharmaceutical, food, biological, metals, textile, plastics and automotive industries. In these contexts, chemical engineers typically design and develop innovative processes and products, operate, control and optimize complex production facilities and plants. Additional employment opportunities typically include public and industrial research centers, technical structures of the Public Administration and consultancy in the area of environment and safety.
LANGUAGE: English
Programme overview
Main Subject
Engineering - Chemical
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Chemical Engineering and Chemical Engineers provide cutting-edge solutions to the society’s needs such as sustainable processes and technologies for the production of goods (materials, drugs, green chemicals, fertilizers) and for energy transformation (e.g. fuels, carbon neutral energy carriers such as hydrogen, ammonia, etc.) coupling pollutants emissions reduction (e.g. carbon capture, storage and utilization, wastewater treatments, etc.), economic viability and a wise utilization of natural renewable and non-renewable sources. All of the modern challenges related to decarbonization, energy transition and circular economy have a common denominator: they involve chemical transformations. Chemical Engineers exploit fundamentals of chemistry (e.g. chemical kinetics, thermodynamics), physics (e.g. heat and mass transfer) and mathematics to describe and understand underlying chemical and physical processes from the molecular level to the macroscale (chemical reactors and chemical plants), designing, operating, and controlling all processes and equipment that produce and/or transform materials and energy.
The Laurea Magistrale (equivalent to Master of Science) programme in Chemical Engineering completes the basic preparation of bachelor graduates in Chemical Engineering and related disciplines and provide guided paths towards high-level professional profiles which are employed in a plethora of industrial sectors including (but not limited to) chemical, petrochemical, oil&gas, energy and sustainable energy production and management, pharmaceutical, food, biological, metals, textile, plastics and automotive industries. In these contexts, chemical engineers typically design and develop innovative processes and products, operate, control and optimize complex production facilities and plants. Additional employment opportunities typically include public and industrial research centers, technical structures of the Public Administration and consultancy in the area of environment and safety.
LANGUAGE: English
Admission Requirements
A strong undergraduate preparation is required both in general core disciplines and basic sciences, as well as a Bachelor Degree in Chemical Engineering and/or related disciplines (Industrial Chemistry, Industrial Engineering, Chemistry, Physical Chemistry, etc.).
Applicants to Master of Science programmes are required to have a Bachelor degree or to be in the process of completing a Bachelor degree. In case you have both a Bachelor and a Master Degree, you will be evaluated on the basis of your Bachelor Degree only.
Tuition fees
Domestic
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
Arts and Humanities (2)
Architectural Design
Architectural Design
Fashion Design
Fashion Design
Interior Design
Interior Design
Product Design
Product Design
Urban Planning: Cities, Environment & Landscapes
Urban Planning: Cities, Environment & Landscapes
Engineering and Technology (2)
Aerospace Engineering
Aerospace Engineering
Automation Engineering
Automation Engineering
Biomedical Engineering
Biomedical Engineering
Building Engineering/Architecture
Building Engineering/Architecture
Building and Construction Engineering
Building and Construction Engineering
Chemical Engineering
Chemical Engineering
Civil Engineering
Civil Engineering
Communication Design
Communication Design
Electrical Engineering
Electrical Engineering
Electronic Engineering
Electronic Engineering
Energy Engineering
Energy Engineering
Engineering Science
Engineering Science
Engineering of Computing Systems
Engineering of Computing Systems
Environmental and Land Planning Engineering
Environmental and Land Planning Engineering
Industrial Engineering
Industrial Engineering
Industrial Production Engineering
Industrial Production Engineering
Interaction Design
Interaction Design
MEDTEC - Medicine and Biomedical Engineering
MEDTEC - Medicine and Biomedical Engineering
Management and Production Engineering
Management and Production Engineering
Materials and Nanotechnology Engineering
Materials and Nanotechnology Engineering
Mathematical Engineering
Mathematical Engineering
Mechanical Engineering
Mechanical Engineering
Physics Engineering
Physics Engineering
Process Engineering
Process Engineering
Arts and Humanities (4)
Architectural Design and History
Architectural Design and History
Architecture
Architecture
Communication Design
Communication Design
Design & Engineering
Design & Engineering
Design for the Fashion System
Design for the Fashion System
Digital and Interaction Design
Digital and Interaction Design
Integrated Product Design
Integrated Product Design
Interior and Spatial Design
Interior and Spatial Design
Landscape Architecture - Land Landscape heritage
Landscape Architecture - Land Landscape heritage
Product Service System Design
Product Service System Design
Sustainable Architecture and Landscape Design
Sustainable Architecture and Landscape Design
Urban Planning And Policy Design
Urban Planning And Policy Design
Engineering and Technology (4)
Aeronautical Engineering
Aeronautical Engineering
Agricultural Engineering
Agricultural Engineering
Architectural Engineering
Architectural Engineering
Automation and Control Engineering
Automation and Control Engineering
Bioinformatics for Computational Genomics
Bioinformatics for Computational Genomics
Biomedical Engineering
Biomedical Engineering
Building Engineering for Sustainability
Building Engineering for Sustainability
Chemical Engineering
Chemical Engineering
Civil Engineering
Civil Engineering
Civil Engineering for Risk Mitigation
Civil Engineering for Risk Mitigation
Computer Science and Engineering
Computer Science and Engineering
Cyber Risk Strategy and Governance
Cyber Risk Strategy and Governance
Electrical Engineering
Electrical Engineering
Electronics Engineering
Electronics Engineering
Energy Engineering
Energy Engineering
Engineering Physics
Engineering Physics
Environmental and Land Planning Engineering
Environmental and Land Planning Engineering
Food Engineering
Food Engineering
Geoinformatics Engineering
Geoinformatics Engineering
High Performance Computing Engineering
High Performance Computing Engineering
Industrial Safety and Risk Engineering
Industrial Safety and Risk Engineering
Management Engineering
Management Engineering
Management of Built Environment
Management of Built Environment
Materials Engineering and Nanotechnology
Materials Engineering and Nanotechnology
Mechanical Engineering
Mechanical Engineering
Mobility Engineering
Mobility Engineering
Music and Acoustic Engineering
Music and Acoustic Engineering
Nuclear Engineering
Nuclear Engineering
Space Engineering
Space Engineering
Telecommunication Engineering
Telecommunication Engineering
Life Sciences and Medicine (4)
Health Informatics
Health Informatics
Natural Sciences (4)
Mathematical Engineering
Mathematical Engineering
Transformative Sustainability
Transformative Sustainability
Arts and Humanities (4)
Architectural, Urban and Interior Design
Architectural, Urban and Interior Design
Architecture, Built Environment and Construction Engineering
Architecture, Built Environment and Construction Engineering
Built Heritage Conservation
Built Heritage Conservation
Design
Design
Urban Planning, Design and Policy
Urban Planning, Design and Policy
Engineering and Technology (4)
Aerospace Engineering
Aerospace Engineering
Bioengineering
Bioengineering
Data Analytics and Decision Sciences
Data Analytics and Decision Sciences
Electrical Engineering
Electrical Engineering
Energy and Nuclear Science and Technology
Energy and Nuclear Science and Technology
Environmental and Infrastructure Engineering
Environmental and Infrastructure Engineering
Industrial Chemistry and Chemical Engineering
Information Technology
Management Engineering
Materials Engineering
Mathematical Models and Methods in Engineering
Mechanical Engineering
Structural Seismic and Geotechnical Engineering
Life Sciences and Medicine (4)
Personalized caRe and Innovation in Medicine and Engineering (PRIME)
Personalized caRe and Innovation in Medicine and Engineering (PRIME)
Natural Sciences (4)
Physics
Physics
Science, Technology, and Policy for Sustainable Change
Science, Technology, and Policy for Sustainable Change