Green engineering is an important direction for engineering education, especially in the field of chemical engineering, where green chemical is a necessary guarantee for achieving sustainable development in the industry. How to practice the principles of green engineering in curriculum education is a problem that needs to be faced in engineering…

Raman spectroscopy, a powerful vibrational spectroscopic technique widely used in chemistry, materials science, and environmental analysis, provides critical molecular insights through spectral fingerprints. However, undergraduate students often lack proficiency in optimizing experimental parameters, interpreting vibrational modes, and applying…

Chemical engineering is a consolidated discipline in Spain with bachelor's degrees in 36 universities. An analysis of main indicators related to chemical engineering undergraduate enrolment has been performed, since the introduction of academic programs according to Bologna principles (2010-2011). Indicators present a wide variety of values across…

As understanding of STEM education pedagogy deepens, traditional lecture-based courses evolve to include new philosophies, such as active learning, project-based learning, and inquiry-based learning (IBL). Additionally, hands-on educational experiences at the early stages of an undergraduate program are seminal in propelling students into the…

The semiconductor industry offers ample employment opportunities for chemical engineers. The CHIPS Act prioritizes workforce training as a key contributor to the success and growth of semiconductor manufacturing. UF ChE teaches semiconductor processing lab modules to both undergraduate and graduate students. At the graduate level UF ChE offers…

This paper describes an innovative, new, laboratory experiment conceived as a Senior Capstone Project by the student authors to provide experience with heat pipes for students in our junior-year Process Laboratory course at the University of Utah. Heat pipes can transport energy over long distances with minimal temperature gradients and no moving…

A method is presented which can be used to obtain analytical solutions for boundary value problems (BVPs) using the matrix exponential and Maple. Systems of second order, linear differential equations are expressed as two or more first order equations in matrix form, and their solutions are obtained using the matrix exponential, matrix…

The bourbon production engineering course offers a comprehensive overview of chemical engineering to non-engineers. It emphasizes chemical engineering concepts such as material balances and mass transfer, making these concepts accessible and engaging. Students learn through targeted lessons on each unit operation and practical examples from grain…

Most core process control courses teach skills little used in industrial practice. In contrast, learning how process objectives translate to control objectives in the form of continuous feedback controls, continuous and discrete logic, and sequential logic for batch operations is more relevant to practicing chemical engineers. These design and…

STEM-to-public science communication is recognized as an important skill, but a pedagogical framework for teaching these skills is lacking. Collaborating with safety and science communication experts, an intervention was developed in a health and safety course for chemical engineering students. Students attended three science communication…

Strategies are proposed that promote use of an Integrated Applied Mathematics (IAM) approach to enhance teaching of advanced problem-solving and analysis skills. Three scenarios of 1-dimensional transport processes are presented that support using Error Function analyses when considering short time/small penetration depths in finite geometries.…

Students often struggle in calculating the Real Thermodynamic Properties (RTP) of pure substances, including enthalpy (H), entropy (S), specific volume (V), and internal energy (U). Project-Based Learning (PBL) offers an alternative instructional approach that integrates computational tools with inductive teaching methods. This study evaluates the…

Problem solving in chemical kinetics poses substantial challenges for university students since it often involves significant use of mathematics as a tool and language, with challenging translations and transitions between chemical phenomena and mathematical representations. In this paper, we present key findings from a study investigating…

While innovation commonly stems from the Entrepreneurial Mindset (EM), its integration within chemical engineering curricula has been notably limited. However, a shift is occurring as both private and public initiatives are now directing resources and attention toward equipping students for prosperous careers. This paper delineates the successful…

Chemical engineers must learn to connect concepts across vastly different scales, spanning from molecular structures to industrial processes. Here, we explore the use of a virtual-reality simulation with a companion video of an experiment to help undergraduate students connect nanoscale fundamentals to macroscale engineering observations.