TY - JOUR 
A1 - Martínez Hernández, David Sebastián
AU - Solano Fernández, Juan Pedro
AU - Pérez García, José
AU - Viedma Robles, Antonio
T1 - Numerical simulation of non-newtonian flow and heat transfer in tubes of heat exchangers with reciprocating insert devices
Y1 - 2010
UR - http://hdl.handle.net/10317/4472
AB - Non-Newtonian flow and heat transfer in tubes of heat exchangers with reciprocating insert devices have been numerically investigated. The heat exchanger is mechanically assisted by a reciprocating cylinder, which moves the scraping
rods inserted in the tubes. An array of semi-circular elements is mounted on each rod, with a pitch p=5D. These elements fit the internal diameter of the tubes. During the reciprocating motion, they scrape the inner tube wall, avoiding fouling. Additionally, the movement of the inserted device generates macroscopic displacements of the flow, which continuously mix core regions with peripheral flow. A power law model with temperature dependent properties
is implemented in FLUENT, for a Carboxymethil cellulose (CMC) solution in water with concentration of 2%. Flow pattern and pressure drop mechanisms are analyzed in static and dynamic conditions, and heat transfer enhancement features are discussed.
KW - Mecánica de Fluidos
KW - Heat transfer
KW - Heat exchanger
KW - Numerical simulation
KW - Non-newtonian flow
KW - Insert devices
LA - eng
PB - American Society of Mechanical Engineers (ASME)
ER -