Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD
In this research the methodology for the simulation by computational fluid dynamics (CFD- Computational Fluid Dynamics) of an incompressible flow is proposed by using Solidworks® Flow Simulation, measuring the behavior of pressure and velocity in reductions of the cross-sectional area of the pipe, m...
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UNIVERSIDAD DE SONORA
2021
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| অনলাইন ব্যবহার করুন: | https://revistainvestigacionacademicasinfrontera.unison.mx/index.php/RDIASF/article/view/403 |
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oai:https:--revistainvestigacionacademicasinfrontera.unison.mx:article-4032021-06-25T17:26:24Z Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD Comportamiento de la presión y la velocidad de un flujo incompresible a través de la reducción de una tubería utilizando CFD MONTIJO-VALENZUELA, ELIEL EDUARDO ESPINOZA ZALLAS , FRANCISCO ALAN ACEDO RUIZ, ROGELIO COVARRUBIAS BURGOS, ELVIS OSIEL GÓMEZ VEGA, PEDRO Fluid dynamics pressure energy conservation principle Dinámica de fluidos presión principio de conservación de la energía In this research the methodology for the simulation by computational fluid dynamics (CFD- Computational Fluid Dynamics) of an incompressible flow is proposed by using Solidworks® Flow Simulation, measuring the behavior of pressure and velocity in reductions of the cross-sectional area of the pipe, making decrements of 0.02 m in the input area of five different models. There are three main parts to this methodology; two-dimensional computer-aided CAD (Computer-Aided Design) design of the pipeline, pipeline modeling, and CFD simulation. The simulation results showed an increase of between 10 and 14% of the fluid velocity, and a pressure loss of 13 to 75% in the area with the smallest area of the pipe for each 0.02 m reduction in diameter, derived from the energy conservation principle of ideal fluids. En esta investigación se plantea la metodología para la simulación mediante fluidodinámica computacional (del inglés CFD- Computational Fluid Dynamics) de un flujo incompresible mediante Solidworks® Flow Simulation, con la finalidad de medir el comportamiento de la presión y la velocidad en reducciones del área transversal de la tubería, haciendo decrementos de 0.02 m en el área de entrada de cinco modelos diferentes. La metodología está planteada en tres partes principales; el diseño bidimensional asistido por computadora CAD (del inglés Computer-Aided Design) de la tubería, el modelado de la tubería y la simulación con CFD. Los resultados de simulación, arrojaron un incremento de entre el 10 y el 14% de la velocidad del fluido, y una pérdida de presión de 13 a 75% en la zona de menor área de la tubería por cada 0.02 m de reducción en el diámetro, derivado del principio de conservación de la energía de los fluidos ideales. UNIVERSIDAD DE SONORA 2021-06-25 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revistainvestigacionacademicasinfrontera.unison.mx/index.php/RDIASF/article/view/403 10.46589/rdiasf.vi35.403 Revista de Investigación Académica Sin Frontera: División de Ciencias Económicas y Sociales; Núm. 35 (14): Enero - Junio 2021; 36 2007-8870 10.46589/rdiasf.vi35 spa https://revistainvestigacionacademicasinfrontera.unison.mx/index.php/RDIASF/article/view/403/374 Derechos de autor 2021 ELIEL EDUARDO MONTIJO-VALENZUELA, FRANCISCO ALAN ESPINOZA ZALLAS , ROGELIO ACEDO RUIZ; ELVIS OSIEL COVARRUBIAS BURGOS |
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Revista de Investigación Académica sin Frontera |
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OJS |
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spa |
| format |
Online |
| author |
MONTIJO-VALENZUELA, ELIEL EDUARDO ESPINOZA ZALLAS , FRANCISCO ALAN ACEDO RUIZ, ROGELIO COVARRUBIAS BURGOS, ELVIS OSIEL GÓMEZ VEGA, PEDRO |
| spellingShingle |
MONTIJO-VALENZUELA, ELIEL EDUARDO ESPINOZA ZALLAS , FRANCISCO ALAN ACEDO RUIZ, ROGELIO COVARRUBIAS BURGOS, ELVIS OSIEL GÓMEZ VEGA, PEDRO Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| author_facet |
MONTIJO-VALENZUELA, ELIEL EDUARDO ESPINOZA ZALLAS , FRANCISCO ALAN ACEDO RUIZ, ROGELIO COVARRUBIAS BURGOS, ELVIS OSIEL GÓMEZ VEGA, PEDRO |
| author_sort |
MONTIJO-VALENZUELA, ELIEL EDUARDO |
| title |
Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| title_short |
Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| title_full |
Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| title_fullStr |
Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| title_full_unstemmed |
Pressure and velocity behavior of an incompressible flow through the reduction of a pipe using CFD |
| title_sort |
pressure and velocity behavior of an incompressible flow through the reduction of a pipe using cfd |
| description |
In this research the methodology for the simulation by computational fluid dynamics (CFD- Computational Fluid Dynamics) of an incompressible flow is proposed by using Solidworks® Flow Simulation, measuring the behavior of pressure and velocity in reductions of the cross-sectional area of the pipe, making decrements of 0.02 m in the input area of five different models. There are three main parts to this methodology; two-dimensional computer-aided CAD (Computer-Aided Design) design of the pipeline, pipeline modeling, and CFD simulation. The simulation results showed an increase of between 10 and 14% of the fluid velocity, and a pressure loss of 13 to 75% in the area with the smallest area of the pipe for each 0.02 m reduction in diameter, derived from the energy conservation principle of ideal fluids. |
| publisher |
UNIVERSIDAD DE SONORA |
| publishDate |
2021 |
| url |
https://revistainvestigacionacademicasinfrontera.unison.mx/index.php/RDIASF/article/view/403 |
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