Estudio de la incidencia de la velocidad de impacto de material particulado en acero AISI 1020

Colombia has an extended territory where some regions are far away from urban centers. The electrical connections in those areas are very scarce because the geographical conditions. Therefore, different initiatives are proposed to develop electrical solutions, such as: vertical axis wind turbines (V...

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Autores:
Pacheco Barragán, Hernan Camilo
Tipo de recurso:
Fecha de publicación:
2021
Institución:
Escuela Colombiana de Ingeniería Julio Garavito
Repositorio:
Repositorio Institucional ECI
Idioma:
spa
OAI Identifier:
oai:repositorio.escuelaing.edu.co:001/1354
Acceso en línea:
https://repositorio.escuelaing.edu.co/handle/001/1354
Palabra clave:
Turbinas eólicas
Erosión
Ángulo de impacto
Velocidad de Impacto
Partículas sólidas
Desgaste
Corrosión-erosión
Wind turbines
Erosion
Impact angle
Impact speed
Silod particles
Wear
Corrosion-erosion
Rights
License
http://purl.org/coar/access_right/c_abf2
Description
Summary:Colombia has an extended territory where some regions are far away from urban centers. The electrical connections in those areas are very scarce because the geographical conditions. Therefore, different initiatives are proposed to develop electrical solutions, such as: vertical axis wind turbines (VAWT). These devices require little space for installation, low costs and low wind speed regimes. VAWT are exposed to several environmental conditions which lead to degradation phenomena such as erosion and corrosion-erosion. The main factors that interfere and promote these phenomena are wind speed, impact speed, size, type and composition of particulate material, impact angle and salinity of the environment. This work identifies the behavior of a steel AISI 1020, which is commonly used in structures and devices exposed to the environment. In this study, experimental conditions similar to those of the Colombian Guajira were simulated. The variation of these conditions approaches the system to the phenomenon and check the results reported in literature. The impact angles of particles close to 30° increase the effect of surface deterioration and material loss , since under this inclination the surface decreases its capacity to absorb energy of the impact, which leads to higher material removal. In conclusion, the design of devices such as wind turbines (axes, blades) or structures exposed to aggressive environments should avoid designs where materials are under angles closer to 30° even more, where the regimes are around a speed wind rate of 15 m/s, because material loss under this conditions will be significant.

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