Chemical and Process Engineering

Chemical and Process Engineering at Lappeenranta-Lahti University of Technology (LUT University) offers a comprehensive and innovative educational experience designed to prepare students for a wide range of careers in the chemical, energy, and process industries. This program combines fundamental engineering principles with advanced technology and sustainable practices to address global challenges related to energy efficiency, environmental protection, and resource management. Students will gain a solid foundation in chemistry, physics, mathematics, and engineering sciences, enabling them to understand and optimize complex chemical processes and production systems.

The curriculum integrates theoretical knowledge with practical skills through laboratory sessions, project work, and internships, fostering hands-on experience and problem-solving abilities. Emphasis is placed on sustainability, digitalization, and automation, equipping graduates with the tools necessary to develop innovative solutions that contribute to a greener and more efficient industry. The program also highlights interdisciplinary collaboration, encouraging students to work across engineering disciplines, business, and environmental sciences.

LUT University’s state-of-the-art laboratories and research facilities provide students with opportunities to engage in cutting-edge research and industrial collaboration. The program is designed to be flexible, with options for specialization in areas such as process design, energy technology, or sustainable materials. Graduates will be prepared for careers in process design, operations management, research and development, or entrepreneurship within the chemical and process industries.

Moreover, the program promotes international collaboration and mobility, offering students exchange opportunities with partner universities worldwide, fostering a global perspective on engineering challenges. Graduates from the degree are well-positioned to work in multinational companies, research institutions, or start their own ventures, contributing to the development of innovative, sustainable solutions that address critical societal needs. Overall, the Chemical and Process Engineering program at LUT University combines academic excellence, practical training, and a focus on sustainability to prepare future engineers for successful careers in transforming industries and improving quality of life globally.

The Master's Degree Program in Chemical and Process Engineering at Lappeenranta-Lahti University of Technology (LUT University) offers students a comprehensive education in the principles and practices of chemical and process engineering. The program is designed to prepare future engineers to meet the challenges of modern industry, focusing on sustainable solutions, innovative processes, and technological advancement. Throughout the program, students will gain in-depth knowledge of chemical reaction engineering, process design, thermodynamics, process control, and energy systems. The curriculum combines theoretical coursework with practical experiences, including laboratory work, projects, and industry collaboration, enabling students to develop both technical skills and problem-solving abilities.

Students will explore various topics such as renewable energy conversion, bioprocessing, material flows, and process automation. Emphasizing sustainability, the program equips students with the tools to design environmentally friendly processes that minimize waste and energy consumption. The program also encourages interdisciplinary collaboration, fostering innovation at the interface of chemistry, engineering, and environmental sciences. Students have the opportunity to specialize in areas like advanced process control, chemical reactor design, and sustainable process engineering, tailoring their studies to their career aspirations.

The program is delivered in English and includes coursework, research projects, and industry placements. Graduates will be well-prepared for careers in chemical, process, and energy industries, including roles in process design, research and development, and project management. Additionally, the program provides a solid foundation for doctoral studies and research positions. With access to state-of-the-art laboratories and close collaboration with industry partners, students will develop practical skills that are highly valued in the global job market. Overall, the Chemical and Process Engineering master’s program at LUT University combines academic excellence, practical training, and sustainability focus to prepare innovative engineers for a sustainable future.

The Bachelor's Degree Programme in Chemical and Process Engineering at Lappeenranta-Lahti University of Technology (LUT) typically requires applicants to have completed their secondary education with a strong focus on mathematics, chemistry, and physics. Prospective students must demonstrate proficiency in English, usually through standardized tests such as IELTS or TOEFL, to ensure they can follow lectures and participate actively in coursework conducted in English. The program emphasizes both theoretical foundation and practical skills; therefore, applicants with prior experience or coursework in natural sciences are highly valued.

Admission is competitive and may include an entrance examination or assessment, depending on the applicant’s country of origin and specific admission route. For Finnish and EU/EEA applicants, the criteria often involve overall academic performance, motivation, and potential to succeed in engineering studies. Non-EU/EEA students are evaluated according to additional criteria, such as language proficiency and relevant extracurricular activities or work experience in related fields.

Once admitted, students are required to complete a curriculum that comprises core courses in chemistry, physics, mathematics, and engineering principles, along with specialized courses related to chemical process design, process control, materials science, and energy technology. A significant component of the programme includes laboratory work and project-based learning, where students develop practical skills and teamwork abilities essential for engineering practice.

The program also requires students to undertake internships or industry placements, facilitating real-world understanding of chemical process industries and promoting industry-university collaboration. To graduate, students must fulfill course credit requirements, complete a bachelor’s thesis project demonstrating research and analytical skills, and conduct safety and environmental sustainability assessments applicable to chemical engineering processes.

In addition, the programme places a strong emphasis on sustainable development, innovation, and responsible engineering practices. Graduates are expected to possess comprehensive knowledge of chemical processes, problem-solving skills, and the ability to adapt to new technologies and industry demands. Continuing education pathways are available for students seeking to advance to Master's degrees at LUT or other institutions, often requiring fulfillment of specific prerequisites and language requirements.

Want to improve your English level for admission?

Prepare for the program requirements with English Online by the British Council.

• ✔️ Flexible study schedule
• ✔️ Experienced teachers
• ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

Enroll in the course

Financing studies in the Chemical and Process Engineering programme at Lappeenranta-Lahti University of Technology (LUT University) are designed to support students in managing the costs associated with higher education. Tuition fees for non-European Union/European Economic Area (EU/EEA) students apply, with detailed information available on the university’s official website. Students from outside the EU/EEA are required to pay tuition fees, which vary depending on the programme and year of study. These fees typically range from approximately 10,000 to 12,000 euros per academic year. The university offers a range of scholarship opportunities for talented students to offset these costs. Scholarships are awarded based on academic merit, motivation, or specific criteria set by the university or external sponsors, and they can cover partial or full tuition fees.

Finnish students and those from EU/EEA countries generally do not pay tuition fees for degree programmes at LUT University; however, they are responsible for living costs such as accommodation, food, transportation, and personal expenses. The university provides guidance and support in finding affordable accommodation options, including student housing in Lahti and Lappeenranta. In addition to scholarships, students may also explore external funding options such as government student grants or private loans, depending on their nationality and financial situation.

LUT University encourages international students to plan their finances early and offers detailed information about living costs, available scholarships, and work opportunities during studies. Student employment within or outside the university can provide additional financial support, although it is important to balance work and study commitments. The university also provides financial aid consulting services to assist students in understanding funding options and applying for scholarships or external funding sources.

In summary, financing studies in the Chemical and Process Engineering programme involves a combination of tuition fees where applicable, scholarships, personal savings, and possible student loans or grants. The university’s commitment to accessible education is reflected in various support programs aimed at reducing financial barriers and enabling students to focus on their academic success and future careers in the chemical and process industries.

Chemical and Process Engineering at Lappeenranta-Lahti University of Technology is a comprehensive master’s degree programme designed to prepare students for a wide range of careers in the chemical, process, and energy industries. The programme emphasizes the development of advanced problem-solving skills, proficiency in process design, and a deep understanding of chemical and physical processes involved in modern industry. Students gain knowledge in chemical reaction engineering, process control, process safety, separation processes, and sustainable energy solutions. The curriculum combines theoretical studies with practical training, including laboratory work, simulations, and industry projects, ensuring graduates are well-equipped to meet the challenges of the evolving industrial landscape.

The program is typically structured over two years, comprised of coursework, elective modules, and a master's thesis. The coursework includes core topics such as chemical process design, thermodynamics, fluid mechanics, and environmental impact of chemical processes. Electives allow students to specialize further in areas like bioprocess engineering, renewable energy, or material processing. The master’s thesis serves as a capstone project, often involving collaboration with industry partners, providing students with valuable experience in research and problem-solving within real-world industrial contexts.

Languages of instruction are primarily English, reflecting the programme’s international orientation. The programme also encourages students to participate in exchange programs or internships abroad to broaden their professional and cultural perspectives. Graduates of the programme possess a versatile skill set applicable to chemical manufacturing, energy companies, environmental consultancy, and research institutions. The programme is designed to foster innovation and research, supporting students aiming for careers in R&D or pursuing doctoral studies.

Graduates are equipped with both technical expertise and project management skills, enabling them to lead process development, optimize operations, and implement sustainable solutions in various sectors. The university’s strong connections with industry and research organizations provide students with networking opportunities and access to cutting-edge research facilities. Overall, the Chemical and Process Engineering master's programme aims to produce highly competent engineers who can contribute to sustainable development, technological advancement, and industrial efficiency worldwide.