Computational Modeling of Design of Low Cost Windmills for Sustainable Energy Applications in the Rural Sector
Source
14th Asian Congress for Fluid Mechanics (14th ACFM)
Date Issued
2013-10-15
Author(s)
Prasad, Rachit
Shah, Tapan
Damodaran, Murali
Abstract
Computational modeling of flowfields in the vicinity of this low cost horizontal axis
wind turbine (HAWT) for supporting an efficient design, to assess its performance and to analyze the wake patterns in its vicinity owing to changing wind speed magnitudes and direction is presented in this study. In order to understand the flowfield and wake structures generated by the low cost horizontal axis wind mill and to lay the base for performance optimization of the windmill, a time accurate unsteady flow past a CAD model of the HAWT with a directional vane fitted to the turbine and mounted on a structural framework is computed using a finite volume Navier-Stokes solver. The model also lays the basis for future investigations on the optimal layout of a network of HAWTs in a wind farm to mitigate impact of the wind farm on the environment.
wind turbine (HAWT) for supporting an efficient design, to assess its performance and to analyze the wake patterns in its vicinity owing to changing wind speed magnitudes and direction is presented in this study. In order to understand the flowfield and wake structures generated by the low cost horizontal axis wind mill and to lay the base for performance optimization of the windmill, a time accurate unsteady flow past a CAD model of the HAWT with a directional vane fitted to the turbine and mounted on a structural framework is computed using a finite volume Navier-Stokes solver. The model also lays the basis for future investigations on the optimal layout of a network of HAWTs in a wind farm to mitigate impact of the wind farm on the environment.
Subjects
CFD
HAWT
Reciprocating Pump
Yawing of windmill