Publications_Chetan
2
School of Energy & Environment Management, Rajiv Gandhi ProudyogikiVishwavidya laya, Bhopal (M.P.) 150 PUBLICATIONS 1. ChetanAwasthi, AnuragGour, MukeshPandey (2013) . Observed Wind Climate and Weibul l D istributi on at RGPV Energy Park , Bhopal (I ndia) using WAs P . International Journal of Emerging Technology and Advanced Engineering (IJETAE), ISSN: 2250-2459, Vol. 3, Issue 8, August 2013, PP. 710-715. Abstract — The characteristics and reliability of wind energy depends on how it can be measured, quantified and harnessed. The aim of an observed wind climate measurement is to provide information to allow the best possible estimate of the energy on the site. Wind rose and wind speed frequency distribution variability is also important factor in assessing the uncertainty in the annual energy production of a wind farm. A high-quality wind speed measurement from a site is therefore of crucial importance in calculating wind atlas reducing the uncertainty in the predicted energy production. The purpose of this paper is to calculate wind climate and weibull distribution based on the data measured from an anemometer mast at RGPV Energy Park, Bhopal (India) using WAsP wind software. Keywords — Histogram, Observed Wind Climate, WAsP, Weibull distribution, Wind Rose 2. ChetanAwasthi, AnuragGour, Pankaj Jain, MukeshPandey (2013). M icr o-S cale M ode ll in g for Wind Atlas and Wind Climate Prediction at RGPV Hill Top, Bhopal (India) .International Journal of Engineering Research & Technology (IJERT),ISSN: 2278-0181, Vol. 2 Issue 9, September – 2013, PP. 1589-1594. Abstract — In the micro-scale modelling for wind resource, details of elevation contour map, roughness of the site and its surroundings, obstacles near the measurement site is used for WAsP software to increase accuracy in the output. The micro-scale modelling is crucial for the understanding the wind potential of the area, options available for the planning and development of wind energy plants and installation of wind turbines at the place of maximum power density to generate electricity from wind. The purpose of this paper is to provide generalized wind climate (GWC) or wind atlas, power density, wind climate prediction of wind turbines and resource grid with power density and mean wind speed for RGPV Hill Top based on the data measured from an anemometer mast at RGPV Energy Park, Bhopal (India) using WAsP wind software for micro-scale modelling. Index Terms — Generalized wind climate, micro-scale modelling, wind power density, resource grid, WAsP.
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School of Energy & Environment Management, Rajiv Gandhi ProudyogikiVishwavidyalaya, Bhopal (M.P.) 150
PUBLICATIONS
1. ChetanAwasthi, AnuragGour, MukeshPandey (2013). Observed Wind Climate and
Weibul l D istributi on at RGPV Energy Park , Bhopal (I ndia) using WAsP . International
Journal of Emerging Technology and Advanced Engineering (IJETAE), ISSN: 2250-2459,
Vol. 3, Issue 8, August 2013, PP. 710-715.
Abstract — The characteristics and reliability of wind energy depends on how it can be
measured, quantified and harnessed. The aim of an observed wind climate measurement is
to provide information to allow the best possible estimate of the energy on the site. Wind
rose and wind speed frequency distribution variability is also important factor in assessing
the uncertainty in the annual energy production of a wind farm. A high-quality wind speed
measurement from a site is therefore of crucial importance in calculating wind atlas
reducing the uncertainty in the predicted energy production. The purpose of this paper is to
calculate wind climate and weibull distribution based on the data measured from an
anemometer mast at RGPV Energy Park, Bhopal (India) using WAsP wind software.
Keywords — Histogram, Observed Wind Climate, WAsP, Weibull distribution, Wind Rose
2. ChetanAwasthi, AnuragGour, Pankaj Jain, MukeshPandey (2013). Micro-Scale Modell ing
for Wind Atlas and Wind Climate Prediction at RGPV Hill Top, Bhopal
(India) .International Journal of Engineering Research & Technology (IJERT),ISSN:
2278-0181, Vol. 2 Issue 9, September – 2013, PP. 1589-1594.
Abstract — In the micro-scale modelling for wind resource, details of elevation contour
map, roughness of the site and its surroundings, obstacles near the measurement site is
used for WAsP software to increase accuracy in the output. The micro-scale modelling is
crucial for the understanding the wind potential of the area, options available for the
planning and development of wind energy plants and installation of wind turbines at the
place of maximum power density to generate electricity from wind. The purpose of this
paper is to provide generalized wind climate (GWC) or wind atlas, power density, wind
climate prediction of wind turbines and resource grid with power density and mean wind
speed for RGPV Hill Top based on the data measured from an anemometer mast at RGPV
Energy Park, Bhopal (India) using WAsP wind software for micro-scale modelling.
Index Terms — Generalized wind climate, micro-scale modelling, wind power density,
resource grid, WAsP.
