Bachelor of Engineering - Biotechnology
The Bachelor of Engineering in Biotechnology at Turku Universi...
Bachelor of Engineering - Mechanical Engineering
Turku
INTAKE: Jan & Aug
Program Overview
The Bachelor of Engineering - Mechanical Engineering program at Turku University of Applied Sciences provides students with a comprehensive education in the fundamentals of mechanical engineering, focusing on designing, analyzing, and optimizing mechanical systems and processes. This program is designed to equip students with the essential technical knowledge and practical skills required to succeed in the field of mechanical engineering. Students are trained to apply principles of physics, mathematics, and engineering in real-world scenarios to solve complex engineering challenges across various industries. Upon graduation, students are prepared for careers in industries such as manufacturing, automotive, robotics, and renewable energy.
Curriculum: The curriculum of the Bachelor of Engineering - Mechanical Engineering program is designed to offer both theoretical knowledge and hands-on experience. The core courses cover fundamental subjects in mechanics, thermodynamics, materials science, fluid dynamics, and computer-aided design (CAD). Additionally, students gain expertise in manufacturing processes, structural analysis, automation, and mechatronics. The program incorporates practical training through laboratory exercises, group projects, and design tasks, ensuring that students develop the problem-solving skills necessary to meet the demands of the mechanical engineering field. As part of their studies, students also engage in internships and industry projects, which allow them to apply their knowledge in real-world settings.
Research Focus: The research focus at Turku University of Applied Sciences for the Mechanical Engineering program emphasizes the development of sustainable and innovative engineering solutions. Research areas include renewable energy technologies, automation and robotics, advanced manufacturing techniques, material science, and energy efficiency. The university is involved in collaborative research with industry partners and international institutions, fostering a culture of innovation. Students are encouraged to participate in research projects, gaining exposure to cutting-edge technologies and methodologies that address global challenges in energy conservation, sustainable production, and industrial automation.
Industry Engagement: Industry engagement is a key aspect of the Bachelor of Engineering - Mechanical Engineering program. Turku University of Applied Sciences has strong partnerships with local and international industries, allowing students to gain practical experience through internships, cooperative projects, and industry collaborations. These partnerships provide students with direct exposure to the latest engineering practices and technologies, preparing them for seamless integration into the workforce. The university also works closely with engineering companies to align the curriculum with industry needs, ensuring that graduates possess the skills and knowledge that are highly valued by employers in fields such as automotive, aerospace, and manufacturing.
Global Perspective: The Bachelor of Engineering - Mechanical Engineering program at Turku University of Applied Sciences has a strong global perspective, encouraging students to broaden their knowledge and experience through international exchange programs. The university has established connections with several academic institutions around the world, offering students opportunities to study abroad and collaborate on international engineering projects. The program also includes global case studies, where students analyze and address engineering challenges in a global context. This international exposure helps students develop intercultural competence, preparing them to work in a globalized engineering environment and tackle international engineering challenges.
Location
Turku
Score
IELTS 6
Tuition Fee
€ 11500
Undergraduate Entry Requirements
Application Fee: €100
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 60% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 or 6.5 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 60 or higher.
- PTE: Overall score of 55 or higher.
Turku University of Applied Sciences (TUAS) offers a range of scholarship opportunities for international students to help make higher education in Finland more affordable. These scholarships are designed to support non-EU/EEA students who demonstrate academic excellence and their studies. TUAS strives to create a welcoming environment where international students can succeed, and scholarships play an important role in this mission.
Tuition Fees and Scholarships: Non-EU/EEA students are required to pay tuition fees for bachelor’s and master’s degree programs at Turku University of Applied Sciences. However, TUAS provides a variety of scholarships to help offset these costs. The scholarships are awarded based on academic performance, helping to ease the financial burden for students while encouraging them to excel in their studies.
Bachelor’s Degree Scholarships: For students pursuing a bachelor's degree, TUAS offers a 50% tuition fee reduction for the first year to those who meet the academic requirements. This scholarship is available to students who demonstrate strong academic performance during their first year of studies. After the first year, students may also be eligible for additional scholarships based on their continued academic success.
Early Payment Discount: In addition to merit-based scholarships, Turku University of Applied Sciences also offers an early payment discount. If international students pay their tuition fees early, they can receive a discount on the total fee amount. This discount is available to all non-EU/EEA students and is an excellent way to reduce overall costs.
Graduates of the Bachelor of Engineering - Mechanical Engineering program from Turku University of Applied Sciences have access to a wide range of career opportunities in various sectors that require mechanical engineering expertise. The program’s focus on hands-on learning, technical knowledge, and industry collaboration equips students to thrive in dynamic and diverse engineering fields.
Mechanical Engineer: Graduates can work as mechanical engineers, designing, analyzing, and testing mechanical systems and components. They can find roles in various industries, including automotive, aerospace, manufacturing, and energy. Mechanical engineers use their knowledge of materials, thermodynamics, and mechanics to create efficient and innovative products.
Product Development Engineer: Graduates may work as product development engineers, where they are responsible for the design and improvement of products. This could involve creating prototypes, testing functionality, and ensuring that products meet the required standards. Product development engineers often work in industries such as consumer electronics, automotive, and machinery.
Automotive Engineer: The automotive industry offers numerous opportunities for graduates, where they can work as automotive engineers, specializing in the design, testing, and development of vehicles and vehicle components. They might focus on improving vehicle performance, fuel efficiency, or sustainability in transportation technologies.
Energy Systems Engineer: Graduates can work in the field of energy systems, designing and optimizing systems for energy production and distribution. This includes working with renewable energy sources, such as wind, solar, and hydroelectric systems, to develop sustainable solutions for the energy industry.
Robotics Engineer: Robotics engineers focus on the design and development of robots and automation systems. With the growing demand for automation in manufacturing, logistics, and healthcare, graduates of the Mechanical Engineering program can pursue careers in robotics engineering, where they will apply their knowledge of mechanics and automation technologies.
Manufacturing Engineer: Manufacturing engineers work on the design, implementation, and improvement of manufacturing processes. They are responsible for optimizing production lines, improving efficiency, and ensuring quality control. This role is crucial in industries such as automotive, electronics, and machinery manufacturing.
Quality Control Engineer: Quality control engineers ensure that products meet high standards of quality and functionality before they reach the market. Graduates can work in industries such as manufacturing, automotive, aerospace, or electronics, focusing on testing, inspection, and process optimization to guarantee product quality.
Structural Engineer: Structural engineers design and analyze structures such as buildings, bridges, and infrastructure projects. Graduates can apply their mechanical engineering skills to work on the integrity and safety of structural components, ensuring that structures can withstand forces and loads during their lifecycle.
Supply Chain and Logistics Engineer: With a solid understanding of mechanical systems, graduates can work in supply chain management and logistics engineering. This involves optimizing the transportation, distribution, and storage of goods in manufacturing and production environments, with a focus on efficiency and cost-effectiveness.
Project Manager in Engineering: Graduates with strong leadership skills may pursue careers as project managers in engineering fields. In this role, they oversee engineering projects from conception to completion, managing teams, budgets, and timelines to ensure the successful delivery of products or systems within scope and on schedule.
Consultant Engineer: Some graduates may choose to work as consultants, providing expert advice and solutions to engineering challenges. They can assist companies in areas like product development, process optimization, energy systems, and sustainability. Consultants can work independently or as part of consulting firms.
Entrepreneur in Engineering: Graduates with entrepreneurial aspirations may start their own engineering companies, focusing on innovative products, solutions, or technologies in mechanical engineering. They can develop startups in fields such as automation, energy efficiency, or consumer electronics.
