Indagation methodology applied to the teaching of design of heat exchangers type shell and tubes using a VLO
DOI:
https://doi.org/10.26507/rei.v13n25.853Keywords:
Indagation methodology, thermal design, virtual learning object, heat exchangerAbstract
The heat exchangers are commonly used in many thermal processes in the Colombian industry, the mechanical engineer must learn the basic concepts about these devices in the subject heat transfer. Thus, the authors of the present document suggested a new teaching-learning method based on three key concepts, indagation methodology, shell-tube heat exchangers design and the application of a virtual learning object. The aim of this new methodology was that the student acquires an active role in his formation and the teacher could be a guide on this process. In the first part of the article, it was defined the proposed new methodology, then was explain the products obtained, namely, two teaching guides, one for the student, the other for the teacher, and a program of heat exchangers design. In the discussion section, it was explained the importance of the new methodology and the computational tool.Downloads
References
CODELCO, Aprender y enseñar ciencias a través de la indagación, en: 2do Encuentro Educación y Minería, 2008.
Harlen, W., Evaluación y educación en ciencias basada en la indagación: Aspectos de la política y la práctica, 2013.
The Global Network of Science Academies, Report of the IAP Science Education Program Taking Inquiry-Based Science Education into Secondary Education A global conference, 2010.
National Research Council (NRC), National Science Education Standards. Washington DC, 1996.
National Science Foundation (NSF), The Challenge and Promise of K-8 Science Education Reform. Arlington, 1997.
Cengel, Y.A. and Ghajar, A., Heat and mass transfer. Fundamentals and Applications. 2014.
Sukhatme, S.P., A textbook on heat transfer, 4th ed. 2005.
Serth, R.W., Process heat transfer. Principles and applications, 2 ed.2007.
Aguilar, R. and Rafael, F., Metodología para el diseño de un intercambiador de calor de tubo de coraza, Rev. Inst. Politécnico Nac., 2, pp. 56-75, 2010.
Fonseca, L. and Riveros, L., Diseño térmico y mecánico de intercambiadores de calor de casco y tubo, Tesis de grado, Universidad Industrial de Santander, Bucaramanga, Colombia, 2009.
Parra-Castrillón, E., Propuesta de metodología de desarrollo de software para objetos virtuales de aprendizaje -MESOVA, Rev. Virtual Univ. Católica del Norte, 2011.
Ortega-Barba, C.F., Tecnologías de la información y la comunicación para la innovación educativa. En: Ruiz-Velasco E., (coordinador). México, CONAC y T/UNAM -Posgrado Pedagogía/Díaz de Santos Colección Estudios, 2012. Perfiles Educativos [en linea] 2014, XXXVI. Disponible en: http://www.redalyc.org/articulo.oa?id=13230751014.
Jiménez-García, F.N., Márquez-Narváez, C., Agudelo-Calle, J.D.J. and Beleño, L., Una experiencia didáctica en el diseño e implementación de objetos de aprendizaje para la enseñanza de la física, Revista Educación en Ingeniería, 11(22), pp. 13–-20, 2016.
Jara, C., Real-time collaboration of virtual laboratories through the Internet, Comput. Educ., 52(1), pp. 126-140, 2009.
Universidad Nacional Abierta y a Distancia UNAD, Proyecto Académico Pedagógico Solidario. 2011.
Rojas, F., Ingeniero de inclusión social, madres cabeza de hogar, LACCEI. Guayaquil - Ecuador, 2014.
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- 2023-08-29 (2)
- 2018-02-01 (1)
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