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Name of qualification

The master¿s programme leads to the degree Master of Science in Reservoir and Geoenergy. It is a two year programme (120 ECTS credits).

Language of Instruction

English or Norwegian

Semester

Autumn (main admission) and spring (supplementary admission)

Objectives and content

Objectives

A master's in Reservoir and Geoenergy focuses on theoretical and experimental studies of flow and processes that are crucial for subsurface understanding in the context of energy exploitation, energy storage and CO2-storage. An overall objective is to understand reservoir physics and be trained to solve challenges needed in the energy transition toward clean and affordable energy for all.

Content

The master's thesis is an independent work, designed in consultation with the supervisor, where the candidate is responsible for the progression. The research field in which one can choose a topic span across several areas: low-emission technology for oil and gas production; hydrogen storage; geothermal energy; and CO2-management. Theoretical and practical courses are tuned to the topic of the master¿s thesis. This program provides a solid competence in the science needed to contribute to the subsurface energy transition.

Required Learning Outcomes

On completion of the course the student should have the following learning outcomes defined in terms of knowledge, skills, and general competence.

Knowledge

The student

  • Has a solid, scientifically based knowledge on various energy resources, their uses, and disadvantages
  • Has basic knowledge of geology and in-depth knowledge of porous medium and the processes related to energy utilization, CO2-storage, and energy storage
  • Understands the place for oil and gas in the global energy supply and knows how Carbon Capture, Use and Storage (CCUS) can be used for reducing CO2-emissions
  • Has knowledge on experimental apparatus, instruments, and measurements
  • Has knowledge on numerical simulation of subsurface flow

Skills

The student

  • Can handle and present scientific data, discuss precision and accuracy, and use programming tools to analyze and process data
  • Can analyze problems and pursue them using theoretical and experimental methods
  • Can analyze, interpret, and discuss own results in a professional and critical way
  • Can carry out an independent, limited research project under guidance, but with a high degree of independence, and in line with ethical norms

General competence

The student

  • Can communicate scientific problems, analyses, and conclusions to specialists
  • Can analyse and critically evaluate scientific information sources and use these to structure and formulate reasoning and new ideas
  • Can contribute to new ideas and innovation in the energy sector
  • Demonstrates understanding of and respect for scientific values such as openness, precision, and reliability

Admission Requirements

In order to apply for the Master's Programme in Reservoir and Geoenergy, you need a bachelor's degree in the same, or similar, field. The degree needs to fulfill specific admission requirements.

Bachelor's degrees from UoB that qualify:

  • Bachelor's degree in petroleum and process technology
  • Bachelor's degree in physics or mathematics, in which the subjects ENERGI261 and GEOV261 are included
  • Bachelor's degree from the Faculty of Mathematics and Natural Sciences with topics covering the admission and grading requirements (the courses do not need to be part of the degree).

External Bachelor's degrees that qualify

  • Norwegian bachelor's degrees in petroleum technology (UiS) and oil and gas technology (NTNU), or equivalent, in which the subjects GEOV261 and ENERGI261 are included.
  • Norwegian bachelor's degrees in energy, physics or equivalent, in which the subjects ENERGI261 and GEOV261 are included.
  • Other bachelor's degrees can qualify if you have 80 ECTS in petroleum technology or other equivalent fields.

You also need to document:

Recommended previous knowledge

Expertise: You must have completed a bachelor's degree in natural sciences, STEM fields, or engineering with a specialization in energy, process technology, petroleum technology, physics, or mathematics.

Skills: Basic understanding of natural sciences and engineering, analytical skills, technical proficiency (applicants should be comfortable using technical tools and software), and excellent communication skills.

Compulsory units

The master's Program in Reservoir and Geoenergy includes an independent scientific work (master's thesis) of 60 credits and courses or specialized curriculum totaling 60 credits, comprising both compulsory and elective courses. The overall academic package is agreed upon in each case in collaboration with the supervisor, considering the current specialization and research task.

1. semester: Elective, Elective, Elective

2. semester: ENERGI364, ENERGI365, Thesis OR ENERGI364, ENERGI365, Elective

3. semester: Elective, Thesis, Thesis OR Thesis, Thesis, Thesis

4. semester: Thesis, Thesis, Thesis

Recommended electives

ENERGI261, ENERGI366, ENERGI300, MAT254, ENERGI351, ENERGI360.

Master thesis credits

In consultation with your academic supervisor, you will choose a master's thesis (60 ECTS credits) and produce a progress plan containing important milestones for your project. The master's thesis can have a theoretical (modelling and simulation) or an experimental character, but often be a combination of the two. External partners (industry, research institutions) are also often involved.

Sequential Requirements, courses

The recommended sequence of the courses in the programme can be found under the heading "Compulsory units".

Study period abroad

You can plan study periods abroad in consultation with your supervisor as a part of the master agreement.

Teaching and learning methods

A combination of teaching and learning methods is used in the various courses, including lectures, hands-on laboratory, workshops. You may find more information in the course description.

The master's thesis is an independently scientific work, under supervision of an academic supervisor.

Assessment methods

The assessment methods in the courses are reports, written and oral examination. The assessment methods for each course are described in the course description. The final step in the programme is an oral examination. The examination is held when the master¿s thesis is submitted, evaluated and approved. The most common assessment methods in the courses are written and oral examination. The assessment methods for each course are described in the course description.

Grading scale

At UiB the grades are given in one of two possible grading scales: passed/failed and A to F.

The master's thesis will be graded A to F. The grading scale for each course is given in the course description.

Access to further studies

To be eligible for admission to the Doctoral education (PhD) the candidate must have completed a master's degree. To qualify for the Doctoral education (PhD) at UiB the average grade for the master's thesis, the Master's degree and the bachelor's degree should be at least C. In order to get enrolled you have to be granted a fellowship for doctoral training.

Employability

Former students are now active within energy companies (including oil and gas), consulting firms, and various branches of the process industry. Work tasks range from the development of advanced products and materials to consulting services and management/operation of industrial facilities. Several also work in research and teaching, illustrating the breadth and depth of career opportunities within reservoir and process technology. Additionally, opportunities exist within the environmental and energy fields, technical consulting, and innovation. This demonstrates that an education in process technology opens doors to a variety of exciting career paths in today's workforce.

Evaluation

The programme will be evaluated according to the quality assurance system of the University of Bergen.

Programme committee

The programme committee is responsible for the academic content, the structure and the quality of the programme

Administrative responsibility

The Faculty of Mathematics and Natural Sciences by the Department of Physics and Technology, holds the administrative responsibility for the programme.

Contact information

For more information, please contact the student supervisor at The Department of Physics and Technology

E-mail: studie.ptek@uib.no