Master's Programme in Chemical, Biochemical and Materials Engineering - Sustainable Metals Processing

Degree:

Master of Science (Technology).
More information.

ECTS:

120 ECTS

Field of Study:

Technology and Engineering

Duration:

2 years, full-time

Eligibility:

An appropriate Bachelor´s degree or an equivalent qualification.

Tuition fees & scholarships:

Yes, for non-EU citizens.
More information

Language of Instruction:

English
More information.

Organising school/s:

School of Chemical Engineering

Application period:

2017-12-15 - 2018-01-24

Further information:

Master's Programme

Study Guide 2017-2018

The School of Chemical Engineering combines natural sciences and engineering in a unique way. This allows the results of our research to be refined a long way and put into practice as ready products and processes. Each innovation secures both our renewable and non-renewable natural resources for the future.


The School provides education for a wide range of responsible future professionals. M.Sc. and Ph.D. graduates in technology work in diverse positions in Finland's largest industrial sectors, in the metal and electronics industry, wood processing industries as well as chemical, pharmaceutical, biotechnology and food industries. The research and teaching are supported by an extensive international academic and industrial cooperation network.

 

Study programme

The learning outcomes of the master's degree are based on the aims set for education leading to a Master of Science (Technology) as defined in the degree regulations of the School of Chemical Engineering. The learning outcomes of the degree are further specified in the major- and course- specific descriptions of learning outcomes.

The focus areas of the education are the sustainable use and processing of natural resources and new materials, including their technical applications. In the studies towards the major, students acquire advanced knowledge in a specific area of biotechnology, chemical technology or material science and technology. The education leading to a master’s degree is based on the professional practices of fields requiring expertise in science and technology and on scientific research generating new knowledge. Students may choose their minors or elective study modules so that their degree is a combination of technology, business, and art, typical of Aalto University.

Students will adopt a responsible, goal-oriented and systematic way of working, and develop skills to work as experts in their area of specialisation both independently and in cooperation with experts of different fields, also in an international working environment. They will be able to express themselves clearly and unambiguously both orally and in writing and to tailor their communication to the target audience.

The School of Chemical Engineering trains Masters of Science (Technology) who have the skills and knowledge to work as pacesetters of the fields of biotechnology, chemical technology and material science and technology in various managerial, planning and research duties serving industry or related stakeholders, the scientific community or public sector. The studies of the programme provide students with the knowledge and skills needed for applying scientific knowledge and scientific methods independently and for continuing to doctoral education.

Graduates of the programme will have achieved the key scientific and professional working methods of their area of specialisation and will be able to continuously deepen their knowledge by acquiring, evaluating and processing scientific, technical and professional information. They will gain the knowledge and skills to understand the challenges of the field from the point of view of users and technical and social systems, as well as from that of the environment and be able to use this knowledge in developing new solutions, also as members of multidisciplinary teams.

 

Structure of studies

The master’s degree programme consists of 120 study credits. This means two study years including master’s thesis.

The programme includes:

  • 65 cr major subject courses
  • 30 cr thesis
  • 25 cr electives

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Content and learning outcomes of the major

 

Making the metals of the future

The major Sustainable Metals Processing is a specialist field that deals with the extraction of metals and mineral products from primary and secondary resources through the application of scientific principles. Considered is the bigger cycle of materials linking rigorously to product design, material science, energy recovery and bio-materials.

The (extractive metallurgy) major focuses in a multi-scale approach to the relevant physical and chemical  phenomena  in  the  processes.  It  covers  atom-level  basics  of  relevant  phenomena, explains how unit process level models and design practices can be derived from them, and considers integrated metals extraction plants and their material flows. An important factor is sustainability of metals extraction and the system approach allowing the availability of metals over their life cycles. The aim is to educate engineers with a deep understanding on how sciences are applied with engineering skills in the metallurgical industries. They will act as metallurgical processing experts in various industries, are capable of evaluating equipment and process designs and designing feasible as well as sustainable metals extraction processes with the help of numeric simulation tools.

Learning Outcomes

The core scientific and engineering knowledge to be obtained:

  • Adequate knowledge of transport phenomena in homogeneous, heterogeneous and particulate systems, and a general knowledge of their atom-level origins; knowledge of their mutual interactions in extraction and refining operations and how their equipment and processes are designed.
  • Adequate knowledge of chemical kinetics in various fields related to metallurgical processing industries.
  • Knowledge about chemical thermodynamic, phase equilibrium and property calculations.
  • Understanding on chemical equilibria, process dynamics, system engineering and their connections to process design, the best practices and flow-sheet integration.
  • Understanding on societal, economic and environmental impacts to process designs and responsibilities related to metal making on the basis of system engineering.

Core scientific and engineering skills to be developed:

  • System engineering and its connections to process design, the best practices and flow-sheet integration thus quantified sustainability linking product design and geology to metal production while also considering links to energy recovery as well as water recycling.
  • Study experimentally metals extraction reactors and unit processes at low and high temperatures, gather data and evaluate process performance.
  • Model, develop and optimize production equipment, processes and plants with the help of numerical tools.
  • Act as metallurgical engineering expert in multidisciplinary groups developing feasible metals extraction processes, equipment and plants.
 

 

Evaluation criteria

The Master’s programmes offered by the School of Chemical Engineering apply the following principles during the academic evaluation of eligible applications. These principles are revised annually.

The student selection process is competitive. The applicant’s suitability for the programme is evaluated. The best applicants are granted admission to the programme. The selection of students is primarily based on the application documents. Not all eligible applicants will necessarily be admitted, CHEM Master’s programme does not have a minimum quota to be fulfilled.

The programmes reserve the right to interview the applicants if it is necessary to clarify the applicant’s motivation or other information in the application.

 

Sustainable Metals Processing specific criteria for academic evaluation

1. Content of the previous degree

B.Sc. or equivalent degree in the natural sciences or engineering of a relevant field. B.Sc. or equivalent degree in engineering in for example process and chemical engineering, minerals engineering, metallurgy, materials science, or chemistry.

Preference is given to candidates with strong background in sciences in combination with the above.

This Master’s programme should provide genuinely new knowledge and enhance the career prospects of the applicant. Thus, applicants who already have a Master’s degree in the closely related field will only be accepted onto the programme for very specific reasons. These reasons must be stated in the application.

2. Study success
The applicant's success in previous studies (those that give basis for applying into the programme) will be evaluated based on the grade point average (GPA) and results in key courses. Preference is given to students with a GPA average equivalent to minimum of 3.0 (on a scale 5.0 max).

The time taken to complete previous studies will also be taken into account. Applicants, who have previously studied at Aalto University, e.g. as exchange students, will also be evaluated according to the grades in those studies and the number of credits obtained in comparison to the time taken for completion.

 3. Recognition and quality of the home university
The applicant's previous degree will be evaluated based on the recognition and quality of the university.

 4. Motivation and commitment
The applicant must demonstrate genuine motivation (motivation letter, max. 1 page) to study the chosen field and be committed to full-time studies with a plan to complete the Master's degree in two years’ time. The applicant is asked to inform if applicant has a study right to another master or doctoral programme.

 5. Language proficiency
The studies are conducted fully in English. The applicant must meet the mandatory language requirements of Aalto University. Student must be able to demonstrate that he/she is able to effectively use English as a working language.

 6. Recommendation letter

Max. two recommendation letters can be attached to the application. Recommendation letter should be in English written by professor. It can be original letter or certified copy of it.

 7. Other relevant achievements
The applicant's other relevant achievements may be considered if documented in the application.

These can be, for example:
- experience of work in the field of the programme
- participation in scientific research which has led to publications, posters for applicants whose Bachelor's degree is from a Finnish university of applied sciences, prior
- completion of required complementary studies with good grades (transcript required)
- other previous studies (transcript required)

 

Required application documents

In addition to the compulsory documents, applicants to the programme are also requested to provide the following documents:

  • Copies of relevant work certificates
  • Original or certified copies of recommendation letter/letters
  • Information about publications or posters
  • Transcript of other previous studies

How to apply

 

All enquiries regarding admission, admission documents and language tests should be sent to admissions [at] aalto [dot] fi.

 

Complementary studies

Students admitted to the Master's Programme in Chemical, Biochemical and Materials Engineering may be required to take complementary studies, max 20 credits. Complementary studies may not be included in the degree of Master of Science (Tech).

The content and number of the complementary courses depend on your previous studies. The complementary studies will be set latest in September.

 

Tuition fees

The fees will concern non-EU/EEA degree students who start their studies in English-taught Master's degree programmes in August 2017 or after that.

More information about the tuition fees and scholarships

 

Contact information

Aalto University School of Chemical Engineering

Street address: Kemistintie 1, Espoo, Finland

Enquiries regarding the application process, application documents, language tests etc: 
admissions [at] aalto [dot] fi

Enquiries regarding the content of programme and studies at the School of Chemical Engineering: 
studies-chem [at] aalto [dot] fi

Page content by: | Last updated: 17.11.2017.