Master of Science - Accounting
Aalto University’s Master of Science in Accounting program is de...
Master of Science Technology in Hydrogen and Electric Systems
Aalto
INTAKE: August
Program Overview
The Master of Science (Technology) in Hydrogen and Electric Systems program at Aalto University is designed to equip students with the skills and knowledge required to meet the challenges of the rapidly evolving energy sector. This interdisciplinary program focuses on the development and integration of hydrogen technologies and electric systems for sustainable energy solutions. Students are trained to design, analyze, and optimize energy systems that leverage hydrogen and electricity to support the global transition towards greener and more efficient energy systems. The program addresses both theoretical aspects and practical challenges in energy production, distribution, and consumption.
Curriculum: The curriculum of the Master of Science (Technology) in Hydrogen and Electric Systems is structured to provide students with a comprehensive understanding of the principles of energy systems, with a special focus on hydrogen technologies and electric energy systems. The program includes core courses on hydrogen production, storage, and utilization, as well as electric systems, smart grids, and energy management. In addition to these core subjects, students can tailor their education through elective courses in areas such as power electronics, renewable energy, and energy policy. A crucial component of the program is the Master's thesis, where students work on real-world projects in collaboration with industry partners or research institutions.
Research Focus: Aalto University is at the forefront of research in hydrogen and electric systems. The program emphasizes cutting-edge research on sustainable energy technologies, with particular focus on hydrogen production, fuel cells, and integration of electric grids. Research areas include the development of innovative hydrogen solutions for transportation, industrial applications, and energy storage, as well as the optimization of electric power systems for a low-carbon future. The university’s research is highly interdisciplinary, combining expertise from electrical engineering, chemical engineering, and sustainable energy fields. Students are encouraged to engage in these research activities, contributing to advancements in clean energy technologies.
Industry Engagement: The Master of Science (Technology) in Hydrogen and Electric Systems program benefits from Aalto University’s strong ties to the energy sector and industry leaders. Through collaborations with Finnish and international companies, students gain hands-on experience in developing and implementing hydrogen and electric systems. These industry partnerships offer numerous opportunities for internships, research projects, and industry-driven Master's theses. The program is designed to prepare students for careers in energy companies, consulting firms, government agencies, and research institutions, where they can drive the transition to sustainable energy solutions.
Global Perspective: Aalto University is known for its international approach to education and research, and the Master of Science (Technology) in Hydrogen and Electric Systems program is no exception. The program provides students with a global perspective on energy challenges, emphasizing the role of hydrogen and electric systems in achieving sustainability goals worldwide. Students have opportunities to engage with global networks through international conferences, research collaborations, and exchange programs with partner institutions. This global outlook ensures that students are prepared to tackle energy issues on a worldwide scale and contribute to the development of energy systems that support a sustainable future.
Location
Aalto
Score
Tuition Fee
€ 17000
Postgraduate Entry Requirements
Application Fee: €100
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 60% or above in their bachelor's degree.
English Language Proficiency:
- English language test waiver is applicable if the Bachelor's, Master's, Licentiate, or Doctoral degree is in English language.
Standardized Test Requirements:
- Graduate Record Examinations (GRE): Overall score of 315 or higher is required.
- Graduate Management Admission Test (GMAT): Overall score of 600 or higher is required.
Aalto University in Finland offers a variety of scholarships to support international students who wish to study at one of the leading universities in Europe. These scholarships are designed to alleviate the financial burden of tuition fees and help students focus on their studies while living in Finland.
Aalto University Tuition Fee Scholarships: Aalto University offers scholarships specifically for international students who are required to pay tuition fees. The scholarships cover either partial or full tuition fees for master’s degree students from non-EU/EEA countries. The scholarship amounts range from 50% to 100% of the tuition fee, depending on the applicant’s academic achievements. Scholarships are awarded based on the strength of the application and the applicant’s academic background.
Aalto University Scholarship for Living Expenses: While the primary focus of the scholarship program is to assist with tuition fees, some additional financial support is available for students to help cover living expenses. These scholarships are typically awarded to students who already receive a tuition fee scholarship but need further assistance to cover their living costs.
Graduates of the Master of Science (Technology) in Hydrogen and Electric Systems program from Aalto University have a wide range of career opportunities in the rapidly evolving energy sector. This interdisciplinary program equips students with the expertise needed to address the global challenges of sustainable energy, hydrogen technologies, and electric systems. The program’s focus on practical skills, research, and industry collaboration ensures that graduates are well-prepared for roles in diverse fields.
Energy Systems Engineer: Graduates can pursue careers as energy systems engineers, focusing on designing and optimizing energy systems that integrate hydrogen and electric technologies. They will work on developing innovative solutions to reduce carbon emissions and improve energy efficiency in power plants, smart grids, and transportation sectors.
Hydrogen Technology Specialist: As hydrogen becomes an essential part of the global energy transition, there is a growing demand for experts in hydrogen production, storage, and utilization. Graduates can work as hydrogen technology specialists in energy companies, research institutions, and government agencies, contributing to the development of hydrogen-based solutions for sectors like transportation, industry, and power generation.
Renewable Energy Consultant: With expertise in hydrogen and electric systems, graduates can work as consultants advising companies, governments, and organizations on renewable energy solutions. This role involves analyzing energy systems, recommending optimal integration of hydrogen and electric systems, and providing strategies for transitioning to sustainable energy sources.
Power Systems Engineer: Graduates can work as power systems engineers, specializing in the integration of electric grids and renewable energy sources. They will focus on designing, implementing, and optimizing power transmission and distribution systems that support the integration of renewable energy, electric vehicles, and smart grid technologies.
Research Scientist in Sustainable Energy: Graduates who are interested in pursuing further research can become research scientists in sustainable energy fields. They can contribute to pioneering projects in hydrogen energy, electric systems, and other emerging technologies. These roles are typically found in universities, research institutions, and innovation hubs focused on clean energy solutions.
Electric Vehicle (EV) Systems Engineer: As the adoption of electric vehicles grows, graduates can work as electric vehicle systems engineers. In this role, they will focus on the design and development of EV powertrains, energy management systems, and charging infrastructure, contributing to the advancement of sustainable transportation solutions.
Project Manager in Energy Projects: Graduates can become project managers in energy-related projects, where they will oversee the planning, implementation, and evaluation of hydrogen and electric systems in large-scale energy projects. This includes managing budgets, timelines, and teams to deliver successful energy solutions for clients.
Energy Policy Analyst: Graduates with a passion for policy can work as energy policy analysts, providing insights and recommendations for governments, energy companies, and NGOs on the regulatory and policy landscape related to hydrogen and electric energy systems. They may help shape national and international energy policies to support sustainable development goals.
Sustainability Manager: Graduates can pursue careers as sustainability managers in various industries, where they can oversee the implementation of sustainable energy practices and ensure that companies meet environmental regulations. They can play a key role in integrating hydrogen and electric systems into corporate sustainability strategies.
Start-Up Entrepreneur in Clean Energy: For those with an entrepreneurial spirit, graduates may choose to start their own companies focused on hydrogen technologies or electric systems. They could develop new solutions for sustainable energy, work on groundbreaking projects, and bring innovative products to the market.
