Silesian University of Technology Logo Silesian University of Technology

Address: Silesian University of Technology, ul. Akademicka 2A, 44-100 Gliwice, Poland
Phone: +48 32 237 11 00
Email: info@polsl.pl
Website: www.polsl.pl


Silesian University of Technology - Fee Structure 2023

Particular Year - 1 Year - 5
Tuition Fee 50000 PLN 50000 PLN
Hostel Fee 4200 PLN 4200 PLN
Total Fees in PLN 54200 PLN 54200 PLN
Total Fees in Rs Rs. 9,21,400 Rs. 9,21,400

 

Fees

The Silesian University of Technology (SUT) has specific language requirements for both Polish and international students, depending on the language of instruction for the chosen program. Here are the details:

1. Polish-Taught Programs

For students enrolling in programs taught in Polish, non-native Polish speakers must demonstrate proficiency in the Polish language.

  • Polish Language Proficiency Test:

    • International students who wish to enroll in Polish-taught programs are required to prove their proficiency by passing a recognized Polish language test, such as the Certificate of Proficiency in Polish.
    • The university typically requires at least a B1/B2 level in Polish (based on the Common European Framework of Reference for Languages - CEFR).
  • Language Preparatory Courses:

    • If students do not meet the language requirements, SUT offers Polish language courses (usually a one-year preparatory program) to help international students gain the necessary proficiency before starting their degree program.

2. English-Taught Programs

SUT offers several programs in English, particularly at the graduate level (master’s and doctoral programs) and in fields such as engineering, computer science, and management. For these programs, international students need to provide proof of English language proficiency.

  • Accepted English Proficiency Tests:

    • TOEFL iBT: A minimum score of 87–90 is usually required.
    • IELTS: A minimum score of 6.0 overall is typically expected.
    • Cambridge English Qualifications: Certificates such as FCE (First Certificate in English) or CAE (Certificate in Advanced English) with equivalent scores are accepted.
    • PTE Academic: A score of around 60 may be required for English-taught programs.
  • Exemptions:

    • Applicants who have completed their previous education in English-speaking countries or at institutions where English was the medium of instruction may be exempt from providing English language test scores.
    • Additionally, students who have completed an English-language preparatory course at SUT or another recognized institution may be exempt.

3. Internal Language Proficiency Test

  • SUT may offer an internal language proficiency test for students who do not submit official test scores. Passing this test allows students to enroll in the program without needing external certifications.

4. Preparatory Programs

  • For students who do not meet the language proficiency requirements, the university offers preparatory language courses in both Polish and English. These programs are designed to help students improve their language skills and meet the academic requirements of their degree programs.

5. Language Support

  • SUT provides language support services, including language labs and tutoring, for students who need additional help with language skills during their studies. These services are especially helpful for non-native speakers enrolled in either Polish- or English-taught programs.

The Silesian University of Technology (Politechnika Śląska), located in Gliwice, Poland, is one of the country’s leading technical universities. It offers a wide range of programs in engineering, technology, and sciences. Below are the key course specialties available at the university:

1. Engineering and Technology

  • Mechanical Engineering: Focuses on mechanics, thermodynamics, material science, and manufacturing. The program covers modern engineering solutions such as automation, robotics, and advanced production techniques.
  • Civil Engineering: Specializes in construction engineering, transportation systems, structural design, and geotechnics. It also covers environmental engineering aspects.
  • Electrical Engineering: Emphasizes power systems, electronics, telecommunications, and automation. The program explores renewable energy, electrical networks, and control systems.
  • Computer Science: Covers software engineering, artificial intelligence, data science, cybersecurity, and computer networks. This program prepares students for careers in software development, IT, and digital technologies.
  • Automotive Engineering: Specializes in vehicle design, propulsion systems, and automotive technology. The program emphasizes innovation in transportation and sustainable vehicle engineering.
  • Environmental Engineering: Focuses on water and air quality management, waste treatment, and sustainable environmental solutions. The program emphasizes eco-friendly technologies and environmental protection.
  • Materials Engineering: Specializes in the study of materials used in industries, including metals, ceramics, polymers, and composites, as well as materials for specific applications like electronics or aerospace.
  • Biomedical Engineering: Combines medical sciences and engineering principles to design healthcare systems, medical devices, and technologies aimed at improving patient care.

2. Architecture and Urban Planning

  • Architecture: This program covers architectural design, urban planning, and sustainable development. Students learn about the design of buildings, urban spaces, and environmentally friendly solutions in architecture.
  • Urban Planning: Focuses on city planning, landscape architecture, and spatial management. It deals with creating functional, sustainable, and aesthetically pleasing urban environments.

3. Natural Sciences

  • Physics: Offers courses in theoretical and applied physics, quantum mechanics, and nanotechnology. Students engage in both theoretical studies and experimental research.
  • Chemistry: Focuses on organic, inorganic, and physical chemistry, with applications in industry, environmental protection, and new materials development.

4. Management and Economics

  • Management and Production Engineering: Combines engineering knowledge with management skills to optimize production processes and lead industrial enterprises. It covers operations management, logistics, and business strategies.
  • Economics: Specializes in economic theory, financial management, and business analysis. Students are prepared for careers in finance, industry, and commerce.

5. Transport and Aviation

  • Transport Engineering: This program focuses on transportation systems, including road, rail, air, and water transport. It emphasizes logistics, traffic management, and modern transport technologies.
  • Aviation and Aerospace Engineering: Specializes in aircraft design, aerodynamics, and aviation technology, preparing students for careers in the aerospace industry.

6. Mining and Geology

  • Mining Engineering: Focuses on mineral extraction, safety in mining operations, and sustainable mining practices. The program emphasizes modern mining technologies and environmental protection.
  • Geology: Studies the Earth’s structure, minerals, and processes. Students are trained in geological exploration, natural resource management, and environmental impact assessment.

7. Energy Engineering

  • Renewable Energy: Focuses on sustainable energy sources such as solar, wind, and geothermal. It prepares students to work in the growing field of alternative energy technologies.
  • Nuclear Power Engineering: Specializes in nuclear energy production, reactor design, and radiation protection, training students for careers in the nuclear energy sector.

8. Information and Communication Technology (ICT)

  • Telecommunications: Focuses on communication systems, networks, and data transmission technologies. Students learn about mobile networks, internet infrastructure, and satellite communication.
  • Information Technology (IT): Covers a wide range of topics, from software and hardware systems to IT project management, cloud computing, and enterprise IT systems.

9. Industrial and Applied Mathematics

  • Applied Mathematics: Combines mathematics with real-world applications, focusing on mathematical modeling, optimization, and statistics. Students are prepared for work in finance, industry, and research.

10. Interdisciplinary Programs

  • Nanotechnology: Focuses on materials and devices at the nanoscale, including applications in electronics, medicine, and environmental protection.
  • Biotechnology: Specializes in the application of biological processes and organisms in industrial processes, including pharmaceuticals, food production, and environmental sustainability.

Graduate Programs

  • Silesian University of Technology offers a wide range of master's and doctoral programs in these fields, allowing students to specialize further and engage in advanced research.

Research and Development

  • The university is highly regarded for its research capabilities, particularly in the fields of engineering, environmental science, and technology. It has various research institutes and laboratories where students and faculty collaborate on innovative projects.

The Silesian University of Technology (SUT) has a number of distinguished professors recognized for their contributions to academia, research, and industry. Here are some notable professors from the university across various fields:

1. Prof. Dr. Arkadiusz Białas

  • Field: Civil Engineering
  • Specialization: Known for his work in structural engineering and geotechnics, Prof. Białas focuses on the design and analysis of constructions and soil mechanics. He has published numerous papers and conducted research on sustainable building materials.

2. Prof. Dr. Krzysztof S. J. Bartosik

  • Field: Computer Science
  • Specialization: His research interests include artificial intelligence, machine learning, and software engineering. He has contributed significantly to the development of algorithms for complex data analysis and applications in various industries.

3. Prof. Dr. Elżbieta S. Wolska

  • Field: Environmental Engineering
  • Specialization: A leading expert in waste management and environmental protection, Prof. Wolska's research focuses on sustainable development practices and the impact of pollution on ecosystems. She is involved in projects related to renewable energy sources and waste-to-energy technologies.

4. Prof. Dr. Jacek Kuczynski

  • Field: Electrical Engineering
  • Specialization: Prof. Kuczynski is recognized for his work in power systems, renewable energy, and smart grid technologies. He has published extensively on energy management systems and their applications in smart cities.

5. Prof. Dr. Tomasz W. Czekaj

  • Field: Mechanical Engineering
  • Specialization: His research focuses on advanced manufacturing techniques, including additive manufacturing and 3D printing. Prof. Czekaj's work is significant in the context of modern manufacturing processes and sustainability.

6. Prof. Dr. Jerzy Łuczak

  • Field: Mathematics
  • Specialization: An expert in probability theory and stochastic processes, Prof. Łuczak has contributed to various mathematical models applied in engineering and natural sciences.

7. Prof. Dr. Barbara Księżopolska

  • Field: Management and Production Engineering
  • Specialization: Her research interests include operations management, logistics, and supply chain management. She focuses on optimizing production processes and improving efficiency in manufacturing industries.

8. Prof. Dr. Krzysztof T. Owsianik

  • Field: Physics
  • Specialization: Known for his work in condensed matter physics and material science, Prof. Owsianik's research involves the study of nanomaterials and their applications in electronics and photonics.

Contributions and Achievements

  • These professors have made significant contributions through their research, publications, and collaborations with industry. Many of them are involved in European research projects and have received various academic awards and recognitions.
  • Their work not only advances knowledge in their fields but also contributes to the practical applications of engineering and technology, fostering innovation and development.

As of now, the Silesian University of Technology does not have any faculty members or alumni who have been awarded a Nobel Prize. However, Poland has produced several notable Nobel laureates, although they may not be directly affiliated with this university. Here are some of the most recognized Polish Nobel Prize winners:

Notable Polish Nobel Laureates

  1. Marie Curie (1867–1934)

    • Nobel Prizes: Physics (1903, shared with Pierre Curie and Henri Becquerel) and Chemistry (1911).
    • Achievements: Marie Curie was the first woman to win a Nobel Prize and remains the only person to win Nobel Prizes in two different scientific fields. Her pioneering research on radioactivity laid the groundwork for advancements in both physics and chemistry.
  2. Wisława Szymborska (1923–2012)

    • Nobel Prize in Literature (1996): Recognized for her poetic work, which explores themes of human existence, history, and everyday life. Szymborska's writing is celebrated for its philosophical depth and subtle wit.
  3. Olga Tokarczuk (born 1962)

    • Nobel Prize in Literature (2018): Awarded for her narrative imagination that "with encyclopedic passion represents the crossing of boundaries as a form of life." Tokarczuk is known for her rich storytelling and exploration of cultural and psychological themes.
  4. Andrzej Wajda (1926–2016)

    • Honorary Nobel Prize (2014): Although primarily known as a film director, Wajda was recognized for his contribution to culture. He received an honorary award from the Nobel Committee for his significant impact on cinema.
  5. Jerzy Grotowski (1933–1999)

    • Cultural Nobel Prize: Although not an official Nobel Prize, Grotowski was a renowned theater director who greatly influenced modern theater and was considered for various prestigious awards throughout his career.

Contributions to Academia

While Silesian University of Technology may not have Nobel laureates among its faculty or alumni, it is a well-respected institution known for its engineering and technical programs. The university focuses on research and development in various fields, which could potentially lead to future Nobel Prize-winning work.

The Silesian University of Technology (SUT) is a place that, without any doubts, educates successful people. It is a modern higher education institution with 75 years of tradition in teaching, research and science. It was established in 1945 as a scientific and educational facility for Upper Silesia, the most industrialized area in Poland, and one of the most industrialized in Europe.

The SUT consists of fifteen faculties – eleven in Gliwice, two in Zabrze and two in Katowice. The main seat of the SUT is in Gliwice, a charming, 800 years old city and important scientific, research and design centre in Poland. Gliwice has nearly 200,000 inhabitants and thanks to the SUT it is the second (next to Warsaw) agglomeration of technical intelligence. During the last 20 years, Gliwice has transformed from a city based on heavy industry into a leader in the new technologies. 

The University also established close cooperation with its business environment. In the entire Upper Silesia, there are numerous companies and special economic zones, including the Katowice Special Economic Zone, with numerous enterprises operating in the fields of advanced technologies. The SUT does it in order to reach its main objective, which is to train highly skilled engineering staff for the modern industry and to conduct and implement innovative research. The University also pays special attention to the development of entrepreneurship among its students.

The SUT is home to a vibrant community of almost 1,700 of the best and brightest minds. We attract academics whose passion and brilliance drives them to become leaders in their field. The university offers studies on bachelor, master and doctoral level. Studies are conducted in a full-time and a part-time system. The majority of bachelor programmes are 3.5 years long (7 semesters) and master programmes are 1.5 years long (3 semesters) with the possibility of an extension. Studies at the SUT give ample opportunities to broaden your interests. During the academic year, the university is vibrant with activities inspired by the Student Council and various student organizations, over 100 scientific associations and 20 different sports sections, such as basketball, volleyball, cycling, handball, skiing, aerobics etc.

The SUT is also a key player in new technologies. It is here, where new ideas are brought to life, and once applied by the industry they boost the competitiveness of Polish and international companies. The University received two ELSEVIER Research Impact Leaders Awards. In 2016 in the Engineering and Technology category and in 2018 in the Social Sciences category as one of the higher education institutions whose publications had the greatest impact on the perception of Polish science in the world. The Silesian University of Technology also ranked 4th  in the recent Perspektywy Foundation Ranking of Engineering Studies 2018 and 9th among all Polish universities.

The Silesian University of Technology (SUT) is famous for several reasons, making it one of Poland's top technical universities and a leader in the fields of engineering, technology, and applied sciences. Here are the key factors contributing to its fame:

1. Strong Focus on Engineering and Technology

  • Comprehensive Engineering Programs: SUT is renowned for its wide range of highly regarded engineering programs, including mechanical, civil, electrical, and computer engineering. These programs are closely aligned with industry needs, providing students with practical and theoretical skills.
  • Cutting-Edge Technology: The university is well-known for keeping up with the latest trends in technology and innovation, ensuring that students are equipped with up-to-date knowledge in fields like robotics, automotive engineering, renewable energy, and telecommunications.

2. Research Excellence and Innovation

  • Research-Oriented: SUT places a strong emphasis on research and development, particularly in engineering, environmental science, and industrial technologies. The university has several research institutes and centers of excellence that collaborate with industry partners to develop cutting-edge solutions.
  • EU-Funded Projects: The university participates in many European Union-funded research projects, giving it a strong international profile and allowing it to contribute to innovation in fields like renewable energy, nanotechnology, biotechnology, and smart cities.

3. Close Ties with Industry

  • Collaboration with Industry Leaders: SUT maintains close partnerships with major industrial corporations, both within Poland and internationally. These collaborations provide students with opportunities for internships, research projects, and employment after graduation.
  • Technology Transfer: The university actively engages in technology transfer, helping to bridge the gap between academic research and practical applications. This fosters innovation and entrepreneurship among students and faculty.

4. International Reputation and Partnerships

  • Erasmus+ Program: The university is actively involved in the Erasmus+ program, allowing students to participate in exchange programs with other top universities across Europe. This international exposure enhances the learning experience and helps SUT maintain a global reputation.
  • Global Research Collaborations: SUT has established international collaborations with leading universities and research institutions across Europe, North America, and Asia, promoting joint research and academic exchange.
  • International Student Community: The university attracts students from around the world, contributing to its diverse and dynamic learning environment.

5. Strong Specializations in Key Fields

  • Automotive Engineering: SUT is particularly well-known for its automotive engineering program, which includes collaboration with major automotive manufacturers. The university is involved in research on electric vehicles, automated driving, and sustainable transportation.
  • Energy Engineering and Environmental Science: The university has a strong focus on renewable energy and environmental sustainability, with research centers dedicated to developing green technologies and improving energy efficiency.
  • Nanotechnology and Biotechnology: SUT has made significant strides in nanotechnology and biotechnology, with several interdisciplinary research projects exploring applications in medicine, industry, and environmental protection.

6. Modern Campus and Facilities

  • State-of-the-Art Laboratories: SUT boasts modern research facilities, laboratories, and equipment, which provide students with hands-on experience in advanced technological fields. This makes it a leader in practical, application-based learning.
  • Tech Innovation Hub: The university has established several innovation hubs and technology parks where startups and researchers collaborate on developing new technologies and bringing them to market.

7. Alumni Success

  • Prominent Graduates: Many of SUT’s graduates have gone on to hold leadership positions in the industry, academia, and government. Their achievements reflect the high-quality education provided by the university and its impact on both the Polish and global workforce.

8. Location in an Industrial Region

  • Strategic Location: Located in Gliwice, an important industrial region in Poland, SUT benefits from its proximity to several key industries, including mining, metallurgy, automotive, and energy. This geographic advantage allows the university to maintain strong links with local and international companies.