Design of a machine for the removal process of starchy green corn kernels https://doi.org/10.15332/24222399.2947
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Published:
Mar 11, 2024
Keywords:
Shelling, removal, green corn, design
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Abstract
The purpose of this article is to expose or show the design of a machine for the removal of green corn kernels with the objective of improving the activity of the shelling process of starchy green corn. To achieve this objective, recognized methods in the field of engineering, the creation of concepts and the compilation of data on the mechanical properties of each component of the machine and/or the specific materials to be removed have been applied. Multiple models of previously generated ideas are highlighted, which have been submitted to evaluation criteria, with a view to developing a patentable and viable solution
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How to Cite
Toro Coronado, D. S., Hernández Moreno, S. A., & Vives Garnique, J. (2024). Design of a machine for the removal process of starchy green corn kernels: https://doi.org/10.15332/24222399.2947 . Ingenio Magno, 14(2), 53 - 64. Retrieved from http://revistas.ustatunja.edu.co/index.php/ingeniomagno/article/view/2947
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Articulos
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With this document, I/We certify that the article submitted for possible publication in the institutional journal INGENIO MAGNO of the Research Center Alberto Magno CIIAM of the University Santo Tomás, Tunja campus, is entirely of my(our) own writing, and is a product of my(our) direct intellectual contribution to knowledge.
All data and references to completed publications are duly identified with their respective bibliographical entries and in the citations thus highlighted. If any adjustment or correction is needed, I(we) will contact the journal authorities in advance.
Due to that stated above, I(we) declare that the entirety of the submitted material is in accordance with applicable laws regarding intellectual and industrial property, and therefore, I(we) hold myself(ourselves) responsible for any complaint related to it.
If the submitted article is published, I(we) declare that I(we) fully relinquish publishing rights of the article to the University Santo Tomás, Tunja campus. As remuneration for this relinquishment of rights, I(we) declare my(our) agreement to receive two (2) copies of the edition of the journal in which my(our) article appears.
References
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2. K. Cuba, F. Pucuhuayla, J. Contreras, E. Rondon and S. Martínez, "Design and implementation of an automatic processor to increase the production of shelled fresh corn," Boca Raton, 2022.
3. Cuervo-Barahona, E. L., Cely-Reyes, G. E., & Moreno-Perez, D. F. (2016). Determinación de las fracciones de carbono orgánico en el suelo del páramo La Cortadera, Boyacá. Ingenio Magno, 7, 139-149.
4. n. Yahumri, T. Hidayat, Miswarti, H. Iswadi, M. Rahman, S. Yuliasari and W. Mikasari, "IOP Conference Series: Earth and Environmental Science," Serang, 2021.
5. B. Ezurike, J. Osazuwa and C. Okoronkwo, "Performance evaluation of an electric corn shelling machine for small scale indigenous industries in Nigeria," African Journal of Science, Technology, Innovation and Development, vol. 12, no. 4, pp. 355 - 364, 2020.
6. G. Amarillo, Ángela, Granados Comba, A., Ramírez Alvarado, R., Rúa Ramírez, E., & Higuera Pérez, A. (2020). Sistemas de irrigación por bombeo para cultivos de durazno en el municipio de Sotaquira departamento de Boyacá. Ingenio Magno, 11(1), 75-87. Recuperado a partir de http://revistas.ustatunja.edu.co/index.php/ingeniomagno/article/view/2050
7. J. O. Pérez, L. C. C. Cacuango and G. A. Mantilla, "DESIGN AND CONSTRUCTION OF A CORN," Ingenius, Revista Ciencia y Tecnología, pp. 21-29, 2017.
8. A. Samudre, A. Thubrikar, H. Vaidya and R. Pohane, "Design and Fabrication of Corn Peeling and Cutter Machine," International Journal of Scientific Research & Engineering Trends, vol. 6, no. 3, pp. 1320-1322, 2020.
9. G. Sianturi y T. Wijaya, «Fuzzy Analytic Hierarchy Process Method for Selecting the Best Design Concept of Corn Shelling Machine, » Materials Science and Engineering, vol. 662, nº 5, p. 052014, 2019.
10. T. Payoma, F., Vega Velásquez, B., Ramírez Alvarado, R., Hernández Aldana, F., & García Guarín, J. (2022). Diseño y validación de una clasificadora mecánica para residuos orgánicos municipales. Ingenio Magno, 13(1), 113 - 124. Recuperado a partir de http://revistas.ustatunja.edu.co/index.php/ingeniomagno/article/view/2576
11. K. Patil, S. Pandit, G. Pol, S. Kadam y A. Jadhav, «Design and Fabrication of Corn Shelling and Threshing Machine, » International Journal of Innovative Research in Science, Engineering and Technology, vol. 5, nº 7, 2016.
12. I. Castelán y O. Vázquez, «Prototipo de desgranadora de maíz que mejora el proceso de desgranado en la Región de Influencia del Instituto Tecnológico Superior de Zacapoaxtla,» TEPEXIC, vol. 4, nº 8, 2017.
13. J. F. Ureña y J. M. Villavicencio, «DISEÑO Y CONSTRUCCIÓN DE UNA MÁQUINA PARA EL PROCESO DE DESGRANADO DE MAÍZ DE LA COSTA,» Ecuador, 2013.
14. AQP Soluciones, «Máquina Desgranadora de Maiz,» 2 Noviembre 2020. [En línea]. Available: http://larevista.aqpsoluciones.com/2020/11/02/maquina-desgranadora-de-maiz/. [Último acceso: 15 Julio 2023].
15. Magri.cl, «Ralladora maiz choclo tierno fresco modelo BM 04NR,» 15 Marzo 2022. [En línea]. Available: https://www.magri.cl/desgranadora-rallador-choclo-tierno-fresco-humedo-hogar-r599?similar_product=true. [Último acceso: 15 Julio 2023].
16. G. Sianturi y T. Wijaya, «Fuzzy Analytic Hierarchy Process Method for Selecting the Best Design Concept of Corn Shelling Machine,» Materials Science and Engineering, vol. 662, nº 5, 2019.
17. L. C. Colcha Cacuango y G. A. Mantilla Valencia, «Diseño y construcción de una desgranadora de maíz con capacidad de 15qq/hora,» Quito, 2015.