Basic and Professional Studies
(Select 180 cr)
Natural Sciences for Engineers
|Geometry and Vector Algebra||3|
|Functions and Matrices||3|
|Fluid Mechanics and Thermophysics||3|
|Electricity and Magnetism||3|
|Oscillations, Waves and Modern Physics||3|
|Basics of Environmental Chemistry and Measurements||5|
|Organic and Analytical Chemistry||6|
Communication and Language Skills
|Writing Scientific Reports in English||3|
|English for Students of Environmental Engineering||3|
|Computer and Software Tools||3|
|Finnish and Swedish for Native Finns||10|
|Finnish Language and Communication||3|
|Finnish Language and Reporting||3|
|Swedish Language, Written||2|
|Swedish Language, Spoken||2|
|Finnish for Foreigners||10|
|Finnish for Foreigners 1||3|
|Finnish for Foreigners 2||3|
|Finnish for Foreigners 3||4|
|Finnish for Foreigners 1||5|
|Finnish for Foreigners 2||5|
Fundamentals of Environmental Engineering Studies
|Soil Science and Engineering||4|
|Basics for Environmental Technology and Management||6|
|Structure and Function of Ecosystems||4|
|Professional Software Tools||5|
|Sustainable Industrial Production||6|
Generic Engineering Skills
|Environmental Management Tools||5|
|Working Life Competences||5|
|Industrial Engineering and Economics||4|
|Scientific and Professional Communication||5|
|Project and Risk Management||5|
Environmental and Civil Engineering
|Waste Management and Engineering||5|
|Industrial Emissions and Monitoring||5|
|Water and Sanitation||5|
|Material Circulation and Resource Efficiency||4|
|Infrastructure Design and Development||4|
|Avenues to Circular Economy||5|
|Life Cycle Assessment||3|
Advanced Study Modules
(Select 25 cr)
Environmental Forensics and Consulting
(Select 0 pieces)
|Contaminated Site Remediation||5|
|Advanced Water and Wastewater Engineering||5|
|Environmental Monitoring and Measurements||5|
|GIS and Remote Sensing Tools||5|
Energy Technology and Management
(Select 0 pieces)
Logistics and Environment
Business Management and Entrepreneurship
Bioeconomy Products and Services
|Practical Training 1||10|
|Practical Training 2||10|
|Practical Training 3||10|
Free Choice Studies (choose 15 ECTS)
(Select 15 cr)
|Orientation for Engineering Mathematics||3|
|Water Day -project||3|
|60 / 79||60 / 67||60 / 58||60 / 56||60 / 41||60 / 38||60 / 38||60 / 29||60 / 34||60 / 24||60 / 28||60 / 28||60 / 22||60 / 19||60 / 19||60 / 19||60 / 20.5||60 / 17.5||60 / 14.5||60 / 14.5||60 / 17||60 / 17||60 / 12||60 / 12||60 / 14||60 / 14||60 / 14||60 / 14|
Studies of syllabus is planned so 60 credits are studied in academic year and length of studies is 3,5/4/4,5 years. Planned syllabus may change during studies.
Since 2000, the Degree Programme in Environmental Engineering has trained professionals for the anthropocene with sustainability mindset and with the whole world as their workplace. Our focus areas are water and wastewater treatment, sustainable sanitation, material and resource efficiency, environmental remediation and consultation. Our aim is to provide students with these professional and working life skills in the field of environmental engineering and the working life skills needed in professional life.
VISION AND VALUES
The global environmental change and need for more sustainable use of natural resources has created an ever-increasing demand for environmental professionals with complex problem-solving skills. Designing and planning new processes, products and services that are regenerative and restorative by design, require taking the principles of circular economy into account on every step to keep the humanity within the planetary boundaries. Technical skills together with management capabilities are needed when solving global environmental issues, but we also need life-cycle thinking to be able to understand the consequences of our actions, whether they take place in urban or natural environments.
Innovative and forward-looking mindset plays a central role in the degree programme. Studying in an international community and atmosphere will give you unique possibilities to develop your communication and team working skills, and skills for acting in different working environments. You will also have a great chance to grow your network with experts all around the world.
WHY ENVIRONMENTAL ENGINEERING?
Global markets and increasing demand for resources in the form of products and services, translates into a need for environmental experts. To become an environmental engineer requires skills and understanding many different fields. In addition to engineering and natural sciences, team working, problem-solving and communication skills are emphasized. Environmental engineers can work as consultants or in some other task of an expert in private companies, public services or NGO sector.
Typical areas of practice for environmental engineers are environmental restoration, water and wastewater treatment, waste treatment, material and resource efficiency and air and noise pollution control. Many environmental engineers work also in managerial positions, where the versatility of the training is a real asset.
During the first year, the students create a strong foundation for understanding the structure and function of the industrial and natural environments. The emphasis is on natural sciences and developing of environmental thinking in engineering. The students start to develop their academic skills through report writing and strengthening their communication skills. After completing the studies of the first study year, students will have basic knowledge in natural sciences as well as engineering subjects, which include basics of environmental technology and management, soil science and engineering, ecology and environmental monitoring .
During the first half of the second year, the students continue building the foundation for professional studies by studying natural sciences. After the foundation is built, the studies will focus more and more on professional topics and the students will also gain working life skills with different engineering and management practices. The subjects include sustainable industrial production, professional software tools, environmental management, waste, water and wastewater management and engineering. After completing the studies on the second year, students have competence to assist as supervised in environmental monitoring projects, engineering industry, management and administration. The students are also expected to have completed the first part of their practical training.
Third and fourth year
During the last two academic years, the students deepen their environmental engineering skills and get competences in project management, risk management and other practical engineering tasks. The students are encouraged to design their individual professional paths by offering a possibility to choose courses that support the students’ interests. The students will also start to prepare for their final theses as they are cumulating their working life skills through practical training. The students are expected to have completed the remaining second and third part of their practical training during the third and fourth year.
The themes of the third and fourth year are to advance the students' competences through selected study modules and prepare them for challenges in working life. The studies concentrate on questions like how to keep products and materials in use and how waste and pollution can be avoided through better design. Other subjects include infrastructure design and development, water and wastewater treatment and contaminated site remediation. The focus is on promoting lifecycle thinking and the principles of circular economy.
After completing the studies, the students have competences to work as a team member in environmental monitoring, management projects and various other duties in environmental engineering industry, public services, and private and NGO sectors. The students will also have competences to work in international jobs, on fields such as environmental monitoring and remediation, design and planning of sustainable and resource efficient products, services and processes.