Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Mansour Zenouzi, Wentworth Institute of Technology; John Peter Voccio, Wentworth Institute of Technology

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

should be covered in the curriculum. 3.3 Hydrogen Technology Green hydrogen production and applications in fuel cells or other power generation devices should be integrated in engineering curricula. 3.4 Small Modular Nuclear energy is an integral part of the decarbonization strategy and should be included in the engineering curriculum, Nuclear Reactor Currently, most of the mechanical engineering programs are not offering nuclear energy even as an elective course. 3.5 Additional Topics Topics like chemical potentials, solutions, and flow through membranes should be covered in the curriculum. Innovative technologies such as flow

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Mohammad Abu Rafe Biswas, The University of Texas at Tyler; Aaditya Khanal, The University of Texas at Tyler; Prabha Sundaravadivel, The University of Texas at Tyler

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

, Texas 75701 mbiswas@uttyler.edu1 aadityakhanal@utyler.edu2, psundaravadivel@uttyler.edu3AbstractCourses based on experiential learning provide an excellent avenue to promote problem-solving andcollaborative skills among the students in STEM. However, the current engineering curriculum does nothave sufficient project-based learning emphasizing collaborative research on renewable energy to supportthe government’s goal of Net Zero emissions by 2050. So, this work-in-progress presents the results fromour recent implementation of project-based learning assignments to existing courses to model and analyzerenewable energy systems while introducing machine learning methods. We used assignments and selectedprojects to introduce concepts related

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Technical Session 3

Collection

2024 ASEE Annual Conference & Exposition

Authors

Hua Chai, University of New South Wales ; Jayashri Ravishankar, University of New South Wales; Inmaculada Tomeo-Reyes, University of New South Wales

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

that facilitate the integration andalignment of the “3P” components toward achieving an adaptable, industry-relevantengineering curriculum. Enablers help overcome obstacles during curriculum development andpromote effective communication and collaboration responsive to industry needs and policychanges. For example, in the dynamic interplay between Policy and Pedagogy, “Policy-informed curriculum design” emerges as one of the crucial enablers. This concept refers to thedeliberate shaping of the curriculum to incorporate competencies, skills, and knowledge areasemphasized within the latest energy policies. If national energy policies increasingly prioritizethe role of energy storage in renewable energy integration, a policy-informed curriculum

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Technical Session 2

Collection

2024 ASEE Annual Conference & Exposition

Authors

Reg Recayi Pecen, Sam Houston State University; Paul Aden Paschal, Sam Houston State University

Tagged Topics

Diversity

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

energy and promoting diversity and international education between 1998-2012. He served on multiple U.S. Department of Energy (DOE) FOAs merit project proposal committees since 2013.Paul Aden Paschal, Sam Houston State University ©American Society for Engineering Education, 2024 Design and Construction of a Solar Powered Automated Chicken Coop1. IntroductionThe senior design project is a capstone project course taken in the final year of the Electronics andComputer Engineering Technology (ECET) program at Sam Houston State University (SHSU).Introduction of renewable energy applications to engineering technology curriculum at SHSU hasimpacted students, faculty, and university community very positively and

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Technical Session 1

Collection

2024 ASEE Annual Conference & Exposition

Authors

Matthew Aldeman, Illinois State University; James Mathias, Southern Illinois University, Carbondale; Daniel Austin Darcy, Illinois State University; Cheron James Elms; Kaitlyn Marie Quinn; Douglas Andracki

Tagged Topics

Diversity

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

with Renewable Energy TechnologiesAbstract The DESSERT (Designing Equitable and Sustainable STEM Education with RenewableTechnologies) project focuses on designing equitable STEM education modules centered onrenewable energy technologies to engage middle and high school students from underrepresentedgroups in STEM fields. Led by an interdisciplinary team of faculty and undergraduate studentsfrom two universities, the project aims to inspire interest in sustainable energy-related careersamong students from diverse backgrounds. The activities emphasize hands-on learning, empathy,and STEM literacy integration. Two sets of lab activities were developed. The first set of labactivities focuses on energy storage with a classroom set of pumped

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Technical Session 2

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jason Andrew Roney, University of Denver

Tagged Topics

Diversity

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

theycan meet the energy demand of a growing population for both the short-term (5 years) andlong-term (100 years). In their analysis, the students first consider providing power throughlocally available natural gas and coal which has an expected finite lifetime based on the Hubbertcurve for coal and natural gas extraction. The first plan then for energy is to potentially use thesefossil fuel resources in conventional combustion power plants that follow thermodynamicscycles such as the Rankine, Brayton and Combined Cycles. The students are given specificationsfor existing power plants and are allowed to refurbish and or retrofit the components to predictenergy production. Their simulation analysis is done with a series of MATLAB® codes that

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Technical Session 1

Collection

2024 ASEE Annual Conference & Exposition

Authors

Antony Kinyua, Morgan State University

Tagged Topics

Diversity

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

classes met on Saturdays for 2 or 3 hours of instruction for 5 weeks over the wintersemester. The emphasis was on hands-on experiential learning in a fun and relaxing environment. Wedrew activities from the ANS ‘Navigating Nuclear” curriculum as well as other related STEAM sites suchas NASA and DOE. Students who successfully complete d the classes were awarded certificates ofcompletion (Fig. 16). Instructors for these classes came from our STEAM faculty at our campus plus ourcollaborating universities as well as the nuclear industry and our local K-12 teachers. As pertains to ourcollege students, we had them participating in the outreach (Fig. 7), conferences (Figs. 8 & 9) and hopingfor rigorous summer internships to be identified with the

Conference Session

Energy Conversion, Conservation and Nuclear Engineering Division (ECCNE) Poster Session

Collection

2024 ASEE Annual Conference & Exposition

Authors

Jin Ho Jo, Illinois State University; Gabrielle Grace Hershey, Illinois State University; Daniel Patrick Gibson

Tagged Divisions

Conservation and Nuclear Engineering Division (ECCNE), Energy Conversion

Paper ID #42107Board 99: Utilizing the Solar District Cup Competition as a Case Study for aRenewable Energy Capstone to Enhance Students’ Learning ExperienceDr. Jin Ho Jo, Illinois State University Dr. Jin Ho Jo is a Professor of Technology at Illinois State University, teaching in the Sustainable and Renewable Energy program. Dr. Jo also leads the Sustainable Energy Consortium at the university. Dr. Jo is an honors graduate of Purdue University, where he earned a B.S. in Building Construction Management. He earned his M.S. in Urban Planning from Columbia University, where he investigated critical environmental