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Simulated Laboratory-Based Learning In A Thermal Fluid Laboratory Course

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Conference

ASEE 2021 Gulf-Southwest Annual Conference

Location

Waco, Texas

Publication Date

March 24, 2021

Start Date

March 24, 2021

End Date

March 26, 2021

Page Count

10

DOI

10.18260/1-2--36401

Permanent URL

https://strategy.asee.org/36401

Download Count

395

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Paper Authors

biography

Mohammad Abu Rafe Biswas The University of Texas at Tyler Orcid 16x16 orcid.org/0000-0002-4077-7979

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Dr. Rafe Biswas is an Associate Professor at the University of Texas at Tyler in the Department of Mechanical Engineering. His expertise and interests include process dynamics and control, fuel cell systems and thermal fluid engineering education. He teaches courses in system dynamics and control, process control, energy conversion, and thermal fluids laboratory at the Houston Engineering Center. He also has been advisor and mentor to several senior design project groups.

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Benjamin Lee Stilwell The University of Texas at Tyler Orcid 16x16 orcid.org/0000-0002-2616-376X

biography

Edgar Reyes

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Edgar Reyes is an undergraduate Mechanical Engineering student at the University of Texas at Tyler. His interests include thermal fluid sciences and alternative energy systems.

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Abstract

The overwhelming and well documented success that stems directly from the integration of hands-on activities into the course core structure educates and develops competent and independent engineers. Most educators look for experiential learning elements to engage students through interactive concept practice, thus leading their students to reach new levels of comprehension. The coronavirus (Covid-19) created a unique challenge for instructors to adjust the remainder of their courses in order to adapt to a new educational medium. Traditionally hands-on courses, such as laboratory-based courses, also required adaptation. One such course employed a set of simulated thermal experiments as a replacement for the hands-on experiments for the remainder of the semester. The different experimental approach involved a remote demonstration of live simulations of a set of heat exchanger models through an interactive and user-friendly interface. The live simulation allowed for measurement of pressure and temperature differences across the heat exchanger as well as for adjustment of flow rates. This simulated based laboratory experiment was developed and conducted by a senior design group using software such as LabVIEW™ and MATLAB® & Simulink® for implementation and testing in future offering of the thermal laboratory course.

Biswas, M. A. R., & Stilwell, B. L., & Reyes, E. (2021, March), Simulated Laboratory-Based Learning In A Thermal Fluid Laboratory Course Paper presented at ASEE 2021 Gulf-Southwest Annual Conference, Waco, Texas. 10.18260/1-2--36401

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