High Impact Factor : 4.396 icon | Submit Manuscript Online icon |

Design, CFD Analysis and Fabrication of Solar Flat Plate Collector


Kumawat Mukesh M , SND COE & RC Yeola, Maharashtra, India; Dipak Wadavane, SND COE & RC Yeola, Maharashtra, India; Naik Ankit, SND COE & RC Yeola, Maharashtra, India; Vidhate Dipak, SND COE & RC Yeola, Maharashtra, India; Ghuge Chandrakant, SND COE & RC Yeola, Maharashtra, India


Absorber Plates, Collector, CFD Analysis, Drying Temperature, ANSYS, and So Forth


This proposition endeavours to show numerical reproduction of sun powered authority grew only for grape drying. Sun oriented drying of grapes is much attainable actually and monetarily. There has been an astounding accomplishment in sun oriented drying of grapes because of maintained innovative work related with the reception of cutting edge advancements. Recreation is an essential apparatus for plan and operation control. For the architect of a drying framework, re-enactment makes it conceivable to locate the ideal outline and working parameters. For the originator of the control framework, recreation gives a way to gadget control techniques and to examine the impacts of aggravations. In the present postulation the computational liquid elements (CFD) instrument has been utilized to reproduce the sunlight based authority for better understanding the warmth exchange ability. 3D model of the authority including air channel, wavy organized safeguard plate, glass cover plate, and stone piece is displayed by ANSYS Workbench and the unstructured network was made in ANSYS ICEM. The outcomes were gotten by utilizing ANSYS FLUENT programming. The target of this work is to contrast hypothetically and tentatively work done and the work done by utilizing computational liquid progression (CFD) apparatus as for stream and temperature appropriation inside the sun oriented authority. The outlet temperature of air is contrasted and trial comes about and there is a decent understanding in the middle of them.

Other Details

Paper ID: IJSRDV5I120089
Published in: Volume : 5, Issue : 12
Publication Date: 01/03/2018
Page(s): 156-159

Article Preview

Download Article