NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION

Kuddis Büyükakıllı

doi:10.58692/jotcsb.1796426

NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION

Abstract

This study explores the definition, brief history, development trajectory, societal duties, and contributions to technological developments of chemical science and chemical engineering. It also explores their current status in Turkey and globally, their professional formation, and their working principles. Subsequently, current chemical engineering education provided at universities in Turkey and abroad was examined, and the data obtained was classified and analysed. Curricular innovation trends highlight the strengthening of experimental and practical learning, interdisciplinary integration, the use of digital tools, project-based learning, environmental sustainability and ethics, and educator development and career awareness. Product design and engineering are emerging as the most important emerging concepts in chemical engineering. In this context, molecular dynamics and quantum mechanics simulation, computer-aided molecular design modelling, mathematical fluid dynamics (CFD) modelling, continuum models, and mesoscale models have attracted attention. It is expected that new multidisciplinary approaches will be developed by integrating technical disciplines such as biology, environmental chemistry, and nuclear chemistry into chemical engineering education, integrating the humanities and social sciences. The evolution of artificial intelligence over the next decade will have tremendous impact not only on the types of problems chemical engineers can solve, but also on how they will do so. It is also recommended that data science and statistics be most effectively taught as a separate course integrated into the core curriculum, with a special emphasis on chemistry and engineering. Research investments are focused on fundamental chemical engineering research and materials development applications, accelerating the transition to a low-carbon energy system, improving the sustainability of food production, water management, and manufacturing, and increasing access to healthcare. Furthermore, it is recommended that new methods be explored to enable the delivery of basic sciences, engineering, and supporting subject areas of the curriculum across the entire academic continuum.

Keywords

Ethical Statement

This study did not use any negative language targeting individuals or institutions. The research was conducted by classifying, categorizing, and schematizing informations obtained from the websites of higher education institutions and the Council of Higher Education.

Thanks

I would like to express my endless gratitude to my wife, Belgin Büyükakıllı, who helped me tremendously during the research and writing of this article.

References

Academic Catalog. (n.d.). Retrieved 22 September 2025, from https://catalog.metu.edu.tr/ program.php?fac_prog=563
Armstrong, R. C. (2006). A vision of the chemical engineering curriculum of the future. Chemical Engineering Education, 40(2), 104–109.
Brown, P. (1980). The half‐life of the chemical literature. Journal of the American Society for Information Science, 31(1), 61–63. https://doi.org/10.1002/asi.4630310108
Chemical Engineering Major | College of Chemistry. (n.d.). Retrieved 21 September 2025, from https://chemistry.berkeley.edu/ugrad/degrees/cheme
Council, N. R. (n.d.). Beyond the Molecular Frontier: Challenges for Chemistry and Chemical Engineering; 2003. National Academies Press, Washington.
Ders Planı—Kimya ve Biyoloji Mühendisliği. (2019, December 2). https://cb.ku.edu.tr/tr/lisans-programi/ders-plani/
EFCE Bologna implementation report 2020—Google’da Ara. (n.d.). Retrieved 20 September 2025, from https://efce.info/Scientific+groups/Education/Publications/_/EFCE_Bologna_Recommendations_2020.pdf
Eğitim Kataloğu. (n.d.). Retrieved 22 September 2025, from https://ubys.ibu.edu.tr/AIS/ OutcomeBasedLearning/Home/Index?id=vlY8!xBBx!ULKNelWGejxjyqNkw!xGGx!!xGGx!&apIdStr=vlY8!xBBx!ULKNelWGejxjyqNkw!xGGx!!xGGx!&culture=tr-TR

Elmacı, İ. (2016). Değişen müfredat ve Turkey’de kimya mühendisliğinin tarihi. Osmanlı Bilimi Araştırmaları, 17(2), 115–130.
Engine.um.edu.my/ug/2025/Handbook Feb Intake_JKK2024_2025.pdf. (n.d.). Retrieved 21 September 2025, from https://engine.um.edu.my/ug/2025/Handbook%20Feb%20Intake_ JKK2024_2025.pdf
Fisk, P. (2017). Education 4.0… the future of learning will be dramatically different, in school and throughout life.
Gillett, J. E. (2001). Chemical Engineering Education in the Next Century. Chemical Engineering & Technology, 24(6), 561–570. https://doi.org/10.1002/1521-4125(200106)24:6%253C561:: AID-CEAT561%253E3.0.CO;2-X
IndustryARCTM—Market Research Reports, Business Consulting Services & Analytics. (n.d.). Retrieved 20 September 2025, from https://www.industryarc.com/
Kimya Mühendisliği Bölümü. (n.d.). Retrieved 22 September 2025, from https://che.bogazici.edu.tr/tr/curriculum
Le Goff, P. (1976). A Mathematical Model of Continuing Education. Chemical Engineering in a Changing World" Proc. First World Congress on Chemical Engineering: Amsterdam. Elsevier Scientific Publishing Co. Oxford ISBN 0, 444(41543), 2.
Lisans. (n.d.). Kimya Mühendisliği. Retrieved 22 September 2025, from https://che.itu.edu.tr/ egitim/lisans
National Academies of Sciences & Medicine. (2022a). New directions for chemical engineering. National Academy of Sciences, Washington, DC (United States). https://www.osti.gov/ biblio/1871195
National Academies of Sciences & Medicine. (2022b). New directions for chemical engineering. National Academy of Sciences, Washington, DC (United States). https://www.osti.gov/ biblio/1871195
Obs.mersin.edu.tr/oibs/bologna/index.aspx?lang=tr&curOp=showPac&curUnit=22&curSunit=320#. (n.d.). Retrieved 22 September 2025, from https://obs.mersin.edu.tr/ oibs/bologna/index.aspx?lang=tr&curOp=showPac&curUnit=22&curSunit=320#
QS World University Rankings for Chemical Engineering 2025. (2025, September 18). Top Universities.https://www.topuniversities.com/university-subject-rankings/chemical-engineering
Schaer, E., Abildskov, J., Feise, H., Glassey, J., Liauw, M., Ó’Súilleabháin, C., & Wilk, M. (2022). The importance/role of education in chemical engineering. Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers Part A, 187. https://search.ebscohost.com/login.aspx?direct=true&profile=ehost&scope=site&authtype=crawler&jrnl=02638762&AN=159572075&h=YcutfGqiItupVOWzKQA7BRBOqUeomGVaRuccL3HDhhgc6TDKGqZCC%2BYg0MGrVRYigpboxcD%2BUWpVu94c9eURhw%3D%3D&crl=c
Schaer, É., & André, J.-C. (2020). Process Engineering Renewal 2. John Wiley & Sons. https://books.google.com/books?hl=tr&lr=&id=zIxCEQAAQBAJ&oi=fnd&pg=PA1&dq=Schaer+ve+Andr%C3%A9,+Process+Engineering+Renewal+2,+2020&ots=TqHpi6eRyn&sig=qSp2uH_3GQWx15gXYOIrCBCIIHU
The Massachusetts Institute of Technology (MIT). (n.d.). Massachusetts Institute of Technology. Retrieved 21 September 2025, from http://web.mit.edu
Uhlemann, J., Costa, R., & Charpentier, J.-C. (2019). Product Design and Engineering in Chemical Engineering: Past, Present State, and Future. Chemical Engineering & Technology, 42(11), 2258–2274. https://doi.org/10.1002/ceat.201900236
Üniversitesi-Cerrahpaşa, İ. (n.d.). Ders Planı. Retrieved 22 September 2025, from https://www.iuc.edu.tr/tr/_
University of Toronto. (n.d.). Retrieved 21 September 2025, from https://www.utoronto.ca/

Details

Primary Language

English

Subjects

Chemical Engineering (Other)

Journal Section

Research Article

Authors

Kuddis Büyükakıllı ^*
0000-0002-0905-7586
Türkiye

Publication Date

March 12, 2026

Submission Date

October 8, 2025

Acceptance Date

January 16, 2026

Published in Issue

Year 2026 Volume: 2026

DOI

https://doi.org/10.58692/jotcsb.1796426

IZ

https://izlik.org/JA75TX53UE

Cite

RIS / Bibtex

APA

Büyükakıllı, K. (2026). NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION. Journal of the Turkish Chemical Society Section B: Chemical Engineering, 2026, 1-24. https://doi.org/10.58692/jotcsb.1796426

AMA

1.Büyükakıllı K. NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION. JOTCSB. 2026;2026:1-24. doi:10.58692/jotcsb.1796426

Chicago

Büyükakıllı, Kuddis. 2026. “NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION”. Journal of the Turkish Chemical Society Section B: Chemical Engineering 2026 (March): 1-24. https://doi.org/10.58692/jotcsb.1796426.

EndNote

Büyükakıllı K (March 1, 2026) NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION. Journal of the Turkish Chemical Society Section B: Chemical Engineering 2026 1–24.

IEEE

[1]K. Büyükakıllı, “NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION”, JOTCSB, vol. 2026, pp. 1–24, Mar. 2026, doi: 10.58692/jotcsb.1796426.

ISNAD

Büyükakıllı, Kuddis. “NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION”. Journal of the Turkish Chemical Society Section B: Chemical Engineering 2026 (March 1, 2026): 1-24. https://doi.org/10.58692/jotcsb.1796426.

JAMA

1.Büyükakıllı K. NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION. JOTCSB. 2026;2026:1–24.

MLA

Büyükakıllı, Kuddis. “NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION”. Journal of the Turkish Chemical Society Section B: Chemical Engineering, vol. 2026, Mar. 2026, pp. 1-24, doi:10.58692/jotcsb.1796426.

Vancouver

1.Kuddis Büyükakıllı. NEW APPROACHES IN CHEMICAL ENGINEERING AND EDUCATION. JOTCSB. 2026 Mar. 1;2026:1-24. doi:10.58692/jotcsb.1796426