Chemical Technology

Chemical Technology at Poznan University of Technology is a comprehensive engineering program that prepares students to meet the demands of the modern chemical industry. The program focuses on the principles of chemical processes, process design, and the application of chemical engineering techniques to develop sustainable and innovative solutions in various sectors, including pharmaceuticals, food production, environmental protection, and materials manufacturing. Students will gain theoretical knowledge complemented by practical skills through laboratory work, internships, and project-based learning, ensuring they are well-equipped for professional careers or further scientific research. The curriculum covers fundamental subjects such as inorganic and organic chemistry, thermodynamics, fluid mechanics, heat and mass transfer, process equipment design, and safety procedures. Emphasis is placed on interdisciplinary approaches, combining chemical knowledge with engineering methods to optimize production processes, minimize environmental impact, and improve product quality. Students also develop competencies in computational modeling, process control, and automation, which are critical in modern chemical plants. The program encourages active engagement in research and innovation, offering opportunities for participation in projects, collaborations with industry partners, and access to state-of-the-art laboratories. Graduates of the Chemical Technology program are prepared for employment in chemical manufacturing companies, research institutions, and regulatory agencies, where they can contribute to technological advancements, process optimization, and sustainable development in the chemical sector. The program aims to produce responsible engineers capable of designing efficient, safe, and environmentally friendly chemical processes, fostering a culture of continuous improvement and innovation.

The Chemical Technology programme at Poznan University of Technology offers students a comprehensive education in the principles and practices of chemical processes and their applications in various industries. This programme is designed to prepare graduates for innovative roles in sectors such as petrochemical, pharmaceutical, food, environmental protection, and materials manufacturing. Throughout the course of study, students gain in-depth knowledge of chemical reaction engineering, process design, and control, as well as modern techniques in laboratory analysis and quality assurance. The curriculum combines theoretical foundations with practical experience, ensuring that graduates develop the skills necessary for both research and industrial applications.

Students will explore subjects including inorganic and organic chemistry, process engineering, thermodynamics, fluid mechanics, and safety management. Special emphasis is placed on sustainable development and environmental protection, reflecting the modern demands of the chemical industry. The programme incorporates laboratory work, project-based learning, and internships in collaboration with industry partners, allowing students to apply their knowledge in real-world settings. Additionally, students have access to state-of-the-art laboratories equipped with advanced instrumentation, supporting hands-on training in chemical synthesis, process optimization, and data analysis.

The faculty team, composed of experienced researchers and professionals, provides mentorship and guidance to help students develop both technical expertise and soft skills such as teamwork, communication, and project management. The programme is structured to facilitate the development of innovative thinking and problem-solving abilities, preparing graduates to contribute effectively to the dynamic chemical industry and related fields. Graduates of the programme are equipped with the technical knowledge, practical skills, and ethical awareness necessary to pursue careers as chemical engineers, process technologists, research scientists, or entrepreneurs. They are also prepared to undertake postgraduate studies or engage in international projects, reflecting Poznan University of Technology’s commitment to providing a globally relevant education in chemical technology.

Education requirements:

In order to apply for Ph.D. studies the candidate should send (study@put.poznan.pl) us copies of the following documents:
1. Master diploma – a photocopy – diploma of completing 2nd cycle studies.
NOTE! it should be legalized and translated by a sworn translator into English or Polish.
2. Transcript of Records for M.Sc. studies (supplement) containing courses passed by a candidate during the studies, in particular including lectures, auditorium classes, laboratory classes, seminar classes and project classes together with obtained grades.
3. Motivation letter, stating why the candidate has chosen the faculty concerned at PUT, and describing the candidate’s particular area of scientific interest within the chosen field.
4. English knowledge at the level B2. If the previous education was conducted in English the document will be recognized as proof of language proficiency.
It is also possible:
• to present an official certification e.g.: TOEFL, IELTS exam or,
• enroll in a one- semester language course at PUT.
5. Photocopy of a valid passport.
6. CV.
Poznan University of Technology holds the rights to award a Ph.D. degree in 16 academic fields within the following scientific areas: technology, chemistry, physics and economics, as well as to award a senior Ph.D. (habilitation) in 12 academic fields.
The documents provided by the candidate are then analyzed in search of an appropriate member of the academic staff (professor) who will take the role of scientific tutor, i.e. whose scientific interests are close to those of the candidate, who will co-operate with the future Ph.D. student and finally become the official supervisor of their Ph.D. thesis. Such tutor, interested in scientific cooperation, will contact the candidate, and finally decide about admitting (inviting) him/her to the recruitment process.

Funding for the Chemical Technology program at Poznan University of Technology is primarily provided through various financial sources, including state-funded subsidies, university grants, student tuition fees, and potential scholarships. As a public university in Poland, Poznan University of Technology benefits from the national higher education funding system, which allocates resources based on governmental budgets, research achievements, and educational quality assessments. Students enrolled in the program may also have access to a range of scholarships awarded by the Polish government, the university itself, and external sponsors, supporting both tuition and living expenses. Tuition fees for international students vary depending on the nationality and specific agreements, but are generally collected to cover program delivery costs and facilities maintenance. The university may also offer financial aid options, including partial scholarships or fee reductions for students demonstrating academic excellence or financial need. Additionally, students might access loans or grants from national or European sources aimed at supporting higher education. The program’s financing is designed to ensure high-quality education while maintaining affordability for domestic students. The university’s strategic partnerships with industry and research institutions sometimes facilitate practical training placements, which can be subsidized or funded through industry sponsorships. Overall, the combination of public funding, student contributions, and external financial support ensures the sustainable operation of the Chemical Technology studies at Poznan University of Technology, enabling continuous curriculum development, modern laboratory facilities, and comprehensive student services necessary for a competitive education in the field of chemical technology.

The Chemical Technology program at Poznan University of Technology is a comprehensive engineering course designed to prepare students for professional careers in the chemical and process industries. The curriculum integrates fundamental sciences such as chemistry, physics, and mathematics with specialized engineering subjects including chemical reaction engineering, process design, material science, and automation. Students gain hands-on experience through laboratory work, industrial internships, and project-based learning, enabling them to develop practical skills necessary for manufacturing, environmental protection, and innovation in chemical processes. The program emphasizes sustainable development and the responsible use of resources, aligning with current global trends towards green chemistry and environmentally friendly technologies. Graduates of the program are equipped to work in diverse sectors such as petrochemicals, pharmaceuticals, food production, and energy industries. The faculty members are experienced researchers and industry professionals who regularly collaborate with technological companies, providing students with insights into current industry challenges and technological advancements. The university's state-of-the-art laboratories facilitate advanced experimentation and research, supporting students' academic growth and innovation capabilities. Moreover, students have access to international exchange programs and opportunities to participate in conferences, fostering a global perspective and intercultural competence. The program also offers specializations and elective courses in topics like polymer technology, process safety, or environmental engineering, allowing students to tailor their education to their interests and career ambitions. Upon graduation, students are prepared to undertake roles such as process engineers, production managers, quality assurance specialists, or research and development engineers. They are also well-positioned to continue their education at postgraduate levels or engage in entrepreneurial ventures within the chemical industry. Overall, the Chemical Technology program at Poznan University of Technology aims to produce highly skilled professionals capable of contributing to technological innovation and sustainable development in the chemical sector.