Indian Journal of Innovations and Developments

Open Access Open Access  Restricted Access Subscription Access

A Novel Approach for Energy Generation from Wind Power


Affiliations
1 Department of Chemical Engineering, Sri Venkateswara college of Engineering, Pennalur, Chennai-602105, Tamil Nadu, India
 

The objective of this work is to obtain energy from gust produced near the ground surface of a moving object based on the `Boundary layer theory'. According to Boundary layer theory, from the point of contact of the body, there will be a decreasing velocity profile. By placing an Omni-directional wind mill (helix windmill) at an optimum point in this velocity profile, maximum output (electrical energy) is obtained. This highly feasible method is applicable to energy generation using the movement of train or any fast moving objects. This method is highly advantageous because it provides high rotational or mechanical power to the wind blades, which in turn can be converted to electrical power. At places where normal wind mills are installed, the minimum wind speed required is 15km/hr. However, at the places where the gusts are produced by fast moving objects, the minimum wind speed is 25 to 35 km/hr. The proposed method is a better and efficient way to support the government's plans in the promotion of wind energy sector.

Keywords

Boundary Layer, Gust, Omni-directional, Helix
User
Notifications

  • Al Shaera A, Duhamela D, Saba K, Foreta G and Schmitt L (2008) Experimental settlement and dynamic behavior of a portion of ballasted railway track under high speed trains. J. of Sound Vib., 316, 211–233.

  • Bakera CJ, Jonesb J, Lopez-Callejac F and Munday J (2004) Measurements of the cross wind forces on trains. J. of Wind Eng. and Ind. Aerodyn., 92, 547–563.

  • Dong HY, Kim GW and Nyung C (2010) A Numerical study of the train-induced unsteady airflow in a subway tunnel with natural ventilation ducts using the dynamic layering method. J. of Hydrodyn., 22(2), 164-172.

  • Gerhardt HJ and Kruger O (1998) Wind and train driven air movements in train stations, Ind. Aerodyn., 74-76, 589-597.

  • Lee CB and Lee R (2001) On the dynamics in a transitional boundary layer. Commun. in Nonlinear Sci.& Num. Simul., 6(3), 112-171.

  • Raghunathan RS, Kimb HD and Setoguchic T (2002) Aerodynamics of high-speed railway train. Prog. in Aero. Sci., 38, 469–514.


Abstract Views: 607

PDF Views: 69




  • A Novel Approach for Energy Generation from Wind Power

Abstract Views: 607  |  PDF Views: 69

Authors

R. A. Prasaanth
Department of Chemical Engineering, Sri Venkateswara college of Engineering, Pennalur, Chennai-602105, Tamil Nadu, India
S. Siddharth
Department of Chemical Engineering, Sri Venkateswara college of Engineering, Pennalur, Chennai-602105, Tamil Nadu, India
Naveenji Arun
Department of Chemical Engineering, Sri Venkateswara college of Engineering, Pennalur, Chennai-602105, Tamil Nadu, India

Abstract


The objective of this work is to obtain energy from gust produced near the ground surface of a moving object based on the `Boundary layer theory'. According to Boundary layer theory, from the point of contact of the body, there will be a decreasing velocity profile. By placing an Omni-directional wind mill (helix windmill) at an optimum point in this velocity profile, maximum output (electrical energy) is obtained. This highly feasible method is applicable to energy generation using the movement of train or any fast moving objects. This method is highly advantageous because it provides high rotational or mechanical power to the wind blades, which in turn can be converted to electrical power. At places where normal wind mills are installed, the minimum wind speed required is 15km/hr. However, at the places where the gusts are produced by fast moving objects, the minimum wind speed is 25 to 35 km/hr. The proposed method is a better and efficient way to support the government's plans in the promotion of wind energy sector.

Keywords


Boundary Layer, Gust, Omni-directional, Helix

References