Affiliation:
1. Universidad Veracruzana
Abstract
The contribution of this research is to determine the change in the heat flow by the axial torsion in a tube of square cross section. The tube studied is part of a prototype heat exchanger designed and built by the research group in "Engineering and simulation of energy processes" of the Universidad Veracruzana, Coatzacoalcos region, Veracruz. The experimental prototype was designed and constructed with PVC pipe and the test section with aluminum tubes. The heat transfer of equipment was from 5 to 60 kJ with volumetric flows from 3 to 20 l/min and water as a working fluid. The tube without axial torsion (0°) is compared with three other tubes with 180°, 360° and 540° torsion. The experimental results reported in this study show the preliminary experimental tests where four levels of water flow are configured, using flow and temperature measurement instruments. The preliminary experimental results reveal an increase in the heat transfer in the equipment as the degree of axial torsion in the square section tubes is increased.
Reference16 articles.
1. Akpinar EK, Koçyiğit F. Energy and exergy analysis of a new flat-plate solar air heater having different obstacles on absorber plates. Appl Energy 2010; 87:34 38–50
2. Alam Tabish, Kim Man-Hoe* (2017) A comprehesive reviw on single pase heat transfer enchancement techniques in heat exchanger applications. Renewable and Sustainable Energy Reviews 81 2018; 813–839
3. Bekele A, Mishra M, Dutta S. Performance characteristics of solar air heater with surface mounted obstacles. Energy Convers Manag 2014; 85:603–11.
4. Dewan A, Mahanta P, Sumithra Raju K and Suresh Kumar P 2004 Review of passive heat transfer augmentation techniques. Proc. Instn Mech. Engrs Vol. 218 Part A: J. Power and Energy.
5. García-Carrera, Diana, Lupian-Ugalde, Valeria, Marroquin-De Jesus, Ángel y Hernández-Rivera, Jaime. Caracterización de una cocina solar dúplex de tubos evacuados. Revista de Prototipos Tecnológicos 2016; 6: 52-60.