Most of construction materials, everyday household items, energy sources and groundwater originate from the earth. Megatrends like urbanization, climate change and increasing use of natural resources and energy greatly affect our lives. These scenarios generate challenges but also opportunities for specialist with knowledge in applied geosciences and construction. Geoengineers have such skills and many opportunities to work in different evolving expert assignments. Graduates are mainly employed by the industry, but also by government organizations and research institutions. They hold key positions ranging from research, teaching and consultancy, to management, design and engineering. The title in the start of the career can be a project manager, designer, site supervisor or researcher.

Geoengineering relies on a wide range of knowledge including geosciences, material sciences, mechanics and construction. Structures of interest are, for example, foundations, roads and tunnels. Geoengineering covers the whole life cycle from research and design to construction, maintenance and recycling. Field investigations, laboratory experiments and numerical modelling are the tools geoengineers are dealing with.

The master’s degree consists of major studies, elective studies and a master’s thesis.

The major studies (60 cr) are divided into common and advanced studies. The common studies courses (30 cr) are compulsory for all and they are completed during the first year of studies. In the advanced studies (30 cr) students can choose from a list of courses.

For their elective studies (30 cr) students can choose any courses offered at Aalto University. Also additional advanced studies courses can be included in elective studies. A list of recommended elective courses for geoengineers is provided.

At the end of their studies, students are required to complete a master's thesis (30 cr).

The Master's programme in Geoengineering offers study tracks allowing specialization in geotechnical engineering, rock engineering or highway engineering. Good geotechnical knowledge is the foundation of all construction activities. In geotechnical engineering the mechanical, hydraulic and thermal properties of the soil and their impact on foundations, soil-structure interaction and soil improvement are the main fields of interest.

Rock engineering provides education to utilize bedrock as an underground space and as a mineral and energy resource. The education gives proficiency in designing optimal structures in the rock and expertise to carry out these plans in a safe, economic and most environmentally friendly way. The core fields are rock mechanics, excavation techniques and a selection of applied geosciences.

Roads and trafficked areas are an important part of societal infrastructure and have profound impact on everyday life and the entire function of the society. The focus areas of in highway engineering are the structural design of roads and their structure including bituminous materials.

Many of the courses are designed and also completed in cooperation with the industry, covering consultants, construction companies and authorities. In addition to conventional lectures, excursions and visits are arranged with industry partners. Assignments and case studies are based on real data and they are often completed by team work to develop student’s social skills, which are of significant importance for example in large civil engineering projects.

Code: ENG23
Credits: 30 ECTS cr
Responsible Professor: Wojciech Solowski

The common studies courses are compulsory for all the students and they are be completed during the first year of studies.

 1st Year, Fall Term

 1st Year, Spring Term

Code: ENG23
Credits: 30 ECTS cr
Responsible Professors: Mikael Rinne, Leena Korkiala-Tanttu, Jussi Leveinen, Henry Gustavsson, Terhi Pellinen, Juha Antikainen, Wojciech Solowski

Choose at least six courses from the list below. All combinations are allowed as long as the course specific prerequisites are followed (the prerequisites are listed in the course descriptions in WebOodi).

^{*Lectured every second year, next time spring term 2019.
**Lectured every second year, next time spring term 2020.}

 1st Year, Fall Term

 1st Year, Spring Term

^{*Lectured every second year}

 2nd Year, Fall Term

For elective studies students can freely choose courses offered by Aalto University or by other universities in Finland (JOO studies) or by our partner universities abroad (Exchange studies). Additional advanced studies courses can also be included in elective studies. Here are courses offered by other programmes at the School of Engineering that give additional knowledge for geoengineers:

^{CIV = Building Technology
WAT= Water and Environmental Engineering
SPT= Spatial Planning and Transportation Engineering
LC= Language Centre}

Students may also complete a minor and include those courses in their elective studies. Please see the list of all minors offered at Aalto University under Studies.

Foreign language studies (min 3 cr) are a compulsory part of the Master’s degree if they have not been completed as part of the student’s Bachelor’s degree. For international students, Finnish and Swedish language courses are highly recommended for elective studies. More information: Language requirements.

Students can also include 1-5 credits of practical training in their elective studies. Please see more information in the subsection of Practical training.

The course ENG-E3010 Introduction to Master's Studies in Engineering (1 cr) is recommended for students who are coming from outside of Aalto University. The course is organized during the orientation week.

The master’s thesis is written on a topic related to the advanced studies of the programme, agreed upon between the student and the supervising professor. The professors of the programme provide master’s thesis topics that are related to their current research activities. The student can also suggest his/her own topic to a supervisor. Students may apply for a topic for their master’s thesis when a minimum of 60 credits counted towards the master’s degree have been completed.

The master’s thesis supervisor shall be one of the professors of Aalto University and the thesis advisor shall hold at least a master’s degree.

The master's thesis includes a seminar presentation. The student is also required to write a maturity essay related to the master’s thesis.

Please see further instructions on completing the master’s thesis under planning your studies: Completing your master's thesis.

Most of construction materials, everyday household items, energy sources and groundwater originate from the earth. Megatrends like urbanization, climate change and increasing use of natural resources and energy greatly affect our lives. These scenarios generate challenges but also opportunities for specialist with knowledge in applied geosciences and construction. Geoengineers have such skills and many opportunities to work in different evolving expert assignments. Graduates are mainly employed by the industry, but also by government organizations and research institutions. They hold key positions ranging from research, teaching and consultancy, to management, design and engineering. The title in the start of the career can be a project manager, designer, site supervisor or researcher.

Geoengineering relies on a wide range of knowledge including geosciences, material sciences, mechanics and construction. Structures of interest are, for example, foundations, roads and tunnels. Geoengineering covers the whole life cycle from research and design to construction, maintenance and recycling. Field investigations, laboratory experiments and numerical modelling are the tools Geoengineers are dealing with.

The Geoengineering master program offers study tracks allowing specialization in geotechnical engineering, rock engineering or highway engineering. Good geotechnical knowledge is the foundation of all construction activities. In geotechnical engineering the mechanical, hydraulic and thermal properties of the soil and their impact on foundations, soil-structure interaction and soil improvement are the main fields of interest.

Rock engineering provides education to utilize bedrock as an underground space and as a mineral and energy resource. The education gives proficiency in designing optimal structures in the rock and expertise to carry out these plans in a safe, economic and most environmentally friendly way. The core fields are rock mechanics, excavation techniques and a selection of applied geosciences.

Roads and trafficked areas are an important part of societal infrastructure and have profound impact on everyday life and the entire function of the society. The focus areas of in highway engineering are the structural design of roads and their structure including bituminous materials.

Many of the courses are designed and also completed in cooperation with the industry, covering consultants, construction companies and authorities. In addition to conventional lectures, excursions and visits are arranged with industry partners. Assignments and case studies are based on real data and they are often completed by team work to develop student’s social skills, which are of significant importance for example in large civil engineering projects.

This program contains elective studies, which can be freely chosen to broaden the knowledge in the field of student’s special interest. Elective studies can also be utilized for exchange studies. Recommended period for exchange studies is the autumn semester of the second year in one of Aalto University’s partner universities.

Code: ENG23
Credits: 30 ECTS cr
Responsible Professors: Mikael Rinne

Courses

Courses in the common studies group are compulsory for all the students in the Master's Programme in Geoengineering.

 1st Year, Fall Term

1st Year, Spring Term

Code: ENG23
Credits: 30 ECTS cr
Responsible Professors: Mikael Rinne, Leena Korkiala-Tanttu, Jussi Leveinen, Henry Gustavsson, Terhi Pellinen, Juha Antikainen, Wojciech Solowski

Courses

Advanced studies (30 cr)

Select at least 6 courses from the list of advances studies below. All combinations are allowed considering possible prerequisites.

 1st Year, Fall Term

1st Year, Spring Term

2nd Year, Fall Term

For free elective studies students can study courses offered by Aalto University or by other universities as it is possible by Aalto internal and inter institutional agreements and procedures and course specific prerequisities. A list of suggested courses which give additional knowledge for geoengineerings is provided below:

^{CIV = Building Technology
WAT = Water and Environmental Engineering
SPT = Spatial Planning and Transportation Engineering}

Students may also complete a certain master level minor in addition to the major studies. Please find minors Aalto University offers from Aalto University Minor Guide. Also, International minor can replace the elective studies in the student’s MSc (Tech) degree. Read more about the content and the structure from all minors from Elective studies 2017-2018.

Foreign language studies (minimum 3 cr in the same language) are required for the completion of the MSc (Tech) degree in some cases (BSc degree has been completed abroad). More information about language requirements for the master's degree students in Elective studies 2017-2018.

Finnish or Swedish language courses are strongly recommended for elective studies for international students.

Practical Training can also be included to the elective studies. The extent of the practical training is 1-5 credit points. More information: Elective studies 2017-2018

Most of construction materials, everyday household items, energy sources and groundwater originate from the earth. Megatrends like urbanization, climate change and increasing use of natural resources and energy greatly affect our lives. These scenarios generate challenges but also opportunities for specialist with knowledge in applied geosciences and construction. Geoengineers have such skills and many opportunities to work in different evolving expert assignments. Graduates are mainly employed by the industry, but also by government organizations and research institutions. They hold key positions ranging from research, teaching and consultancy, to management, design and engineering. The title in the start of the career can be a project manager, designer, site supervisor or researcher.

Geoengineering relies on a wide range of knowledge including geosciences, material sciences, mechanics and construction. Structures of interest are, for example, foundations, roads and tunnels. Geoengineering covers the whole life cycle from research and design to construction, maintenance and recycling. Field investigations, laboratory experiments and numerical modelling are the tools Geoengineers are dealing with.

The Geoengineering master program offers study tracks allowing specialization in geotechnical engineering, rock engineering or highway engineering. Good geotechnical knowledge is the foundation of all construction activities. In geotechnical engineering the mechanical, hydraulic and thermal properties of the soil and their impact on foundations, soil-structure interaction and soil improvement are the main fields of interest.

Rock engineering provides education to utilize bedrock as an underground space and as a mineral and energy resource. The education gives proficiency in designing optimal structures in the rock and expertise to carry out these plans in a safe, economic and most environmentally friendly way. The core fields are rock mechanics, excavation techniques and a selection of applied geosciences.

Roads and trafficked areas are an important part of societal infrastructure and have profound impact on everyday life and the entire function of the society. The focus areas of in highway engineering are the structural design of roads and their structure including bituminous materials.

Many of the courses are designed and also completed in cooperation with the industry, covering consultants, construction companies and authorities. In addition to conventional lectures, excursions and visits are arranged with industry partners. Assignments and case studies are based on real data and they are often completed by team work to develop student’s social skills, which are of significant importance for example in large civil engineering projects.

This program contains elective studies, which can be freely chosen to broaden the knowledge in the field of student’s special interest. Elective studies can also be utilized for exchange studies. Recommended period for exchange studies is the autumn semester of the second year in one of Aalto University’s partner universities.

Code: ENG23
Credits: 30 ECTS cr
Responsible Professors: Mikael Rinne

Courses

Code: ENG23
Credits: 30 ECTS cr
Responsible Professors: Mikael Rinne

Courses

Select at least 6 courses from the list of advances studies below. All combinations are allowed considering possible prerequisites.

Choose freely from the courses offered by Aalto University. A list of suggested courses which give additional knowledge for Geoengineerings is provided below:

^{CIV = Building Technology
WAT = Water and Environmental Engineering
SPT = Spatial Planning and Transportation Engineering}

International minor can replace the elective studies in the student’s MSc (Tech) degree. Read more about the content and the structure from Aalto University Minor Guide.

Practical Training can also be included to the elective studies. The extent of the practical training is 1-5 credit points. More information: ENG-E1010 Practical Training