Thermal transfer analysis of tubes with extended surface with fractal design

Thermal transfer analysis of tubes with extended surface with fractal design

Mostrar outras versões (1)

Heat exchangers are formed by tubes with extended surfaces that improve the transfer of heat between two media (e.g., a solid and a liquid in motion). This paper presents the design of an extended surface tube with fractal geometry, corresponding to the Koch snowflake and the Cesaro curve. For the d...

ver descrição completa

Detalhes bibliográficos
Principais autores: Llano-Sánchez, Luis Eduardo, Domínguez-Cajeli, Darío Manuel, Ruiz-Cárdenas, Luis Carlos
Formato: Online
Idioma:eng
Publicado em: Universidad Pedagógica y Tecnológica de Colombia 2018
Assuntos:
boilers
Cesaro curve
finite elements
fractal design
heat transfer
Koch Snowflake
tubes with extended surface
calderas
copo de Koch
curva de Cesaro
diseño fractal
elementos finitos
transferencia de calor
tubos de superficie extendida
Acesso em linha:https://revistas.uptc.edu.co/index.php/ingenieria/article/view/7749
Descrição
Resumo:Heat exchangers are formed by tubes with extended surfaces that improve the transfer of heat between two media (e.g., a solid and a liquid in motion). This paper presents the design of an extended surface tube with fractal geometry, corresponding to the Koch snowflake and the Cesaro curve. For the design, we used the CAD computational tool, and afterwards we performed the CAE finite element analysis and verified the thermal behavior of the designed tube. We were able to reduce the heat transfer time and increase the heat flow in the system in the following manner: for smooth tube, 250 W/m2; for Koch surface, 500 W/m2; for six fins, 1450 W/m2; and for Cesaro curve, 3600 W/m2. These results demonstrate the limits of the design and the advantages of its implementation in machinery such as condensers, heat exchangers, and boilers.