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Solar Tracker Demonstration for High School and Undergraduate Students: Energy, Arduino, Coding, 3D Printing and Automation

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Conference

2025 ASEE Annual Conference & Exposition

Location

Montreal, Quebec, Canada

Publication Date

June 22, 2025

Start Date

June 22, 2025

End Date

August 15, 2025

Conference Session

Hands-on Learning and Industry-Relevant in ECE Curriculum Development

Tagged Division

Electrical and Computer Engineering Division (ECE)

Tagged Topic

Diversity

Page Count

17

DOI

10.18260/1-2--57662

Permanent URL

https://peer.asee.org/57662

Download Count

4

Paper Authors

biography

Harlan John Peterson University of Minnesota - Twin Cities

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Harlan Peterson participated in the Engineering Summer Academy at Penn (ESAP) in 2023 and is currently a student at the University of Minnesota Twin Cities studying Computer Science. With a background in cybersecurity and penetration testing, he is currently interested in authentication and application security.

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biography

Yanzhe Li University of Oxford

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Yanzhe Li participated in Engineering Summer Academy at Penn (ESAP) Nanotechnology in 2023 and is currently an undergraduate student in Materials Science at the University of Oxford. His research interests lie in nanofabrication and characterization. Previously, he contributed to research on artificial synapses utilizing electrolyte-gated transistors. He is currently focused on the surface passivation of solar cells to improve their efficiency and durability.

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biography

Gyuseok L. Kim University of Pennsylvania Orcid 16x16 orcid.org/0000-0001-5943-0628

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Gyuseok Kim is a Lecturer in the Department of Electrical and Systems Engineering and the Director of Workforce Development at the Singh Center for Nanotechnology at the University of Pennsylvania. He manages the graduate student fellow (GSF) program that is designed to give Penn Master’s students hands-on processing experiences through the fabrication of devices in the cleanroom. He manages Nanotechnology Master’s degree program. He also runs various education and outreach programs for K-12, undergraduates, graduates, and underrepresented minorities (URM), such as the internship for the Community College of Philadelphia, NanoDay, Engineering Summer Academy at Penn (ESAP) Nanotechnology, and Semiconductor and Nanotechnology Initiatives at Penn (SNIP).

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Abstract

As global energy demands grow, solar energy plays an increasingly vital role in achieving a sustainable future. The efficiency of solar energy harvesting can be improved with solar tracking systems. Developing solar tracking systems is an excellent project for students to develop, expand, and deepen their engineering skills while working on a project with real-world significance. This study demonstrates a low-cost, dual-axis solar tracker using an Arduino, 3D printed components, mathematical modeling, coding, and readily available electrical parts, including light-dependent resistors, a servo motor, and a stepper motor.

We report on a 15-month-long learning journey: participation in the Engineering Summer Academy at Penn (ESAP) Nanotechnology course for 3 weeks, followed by 14 months of subsequent abstract conceptualization, design, building, and testing the solar tracking systems, and reflections. Students led this project as part of a Project-based Learning framework grounded in Kolb’s Experiential Learning Theory. Students gained foundational knowledge about principles of the solar cell, semiconductors and pn junction in lectures, then learned characterization method of the solar cell efficiency with Arduino, current sensor, potentiometer, and multimeter in a lab session of ESAP Nanotechnology course. After the course, students were further motivated to make a prototype solar tracking system for renewable energy technology. Through the iterative process of building, testing, and troubleshooting, the solar tracker demonstrated a 16.5% improvement in energy generation compared to the fixed solar panel.

Reflection highlights substantial learning outcomes, including interdisciplinary learning, automation, coding, problem-solving skills, self-efficacy, and collaborative experiences. This project allows high school and undergraduate students to replicate their experiences in an affordable, efficient, and educational manner.

Peterson, H. J., & Li, Y., & Kim, G. L. (2025, June), Solar Tracker Demonstration for High School and Undergraduate Students: Energy, Arduino, Coding, 3D Printing and Automation Paper presented at 2025 ASEE Annual Conference & Exposition , Montreal, Quebec, Canada . 10.18260/1-2--57662

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