In this paper, energy and exergy characteristics of wind energy are investigated. The effects of wind speed and air temperature and pressure at the inlet of a wind turbine on windchill temperature are examined. We also investigate energy and exergy efficiencies of the wind energy generating system and verify the models through a case study on a 100 kW wind generating system for 21 climatic stations in the province of Ontario, Canada. New energy and exergy efficiency maps of the wind energy generating system are introduced to provide a common basis for regional assessments and interpretations. These efficiency maps are plotted for 4 months of the year (January, April, July, October), which are taken to be representative months of the seasons. The results show that aerial differences between energy and exergy efficiencies are approximately 20%–24% at low wind speeds and approximately 10%–15% at high wind speeds.

1.
Schlatter
,
T. W.
, 1988, “
Past and Present Trends in the Objective Analysis of Meteorological Data for Nowcasting and Numerical Forecasting
,”
Eighth Conference on Numerical Weather Prediction
,
American Meteorological Society
, pp.
9
25
.
2.
Cressman
,
G. P.
, 1959, “
An Operational Objective Analysis System
,”
Mon. Weather Rev.
0027-0644,
87
(
10
), pp.
367
374
.
3.
Barnes
,
S. L.
, 1964, “
A Technique for Maximizing Details in Numerical Weather Map Analysis
,”
J. Appl. Meteorol.
0021-8952,
3
, pp.
396
409
.
4.
Gandin
,
L. S.
, 1963, “
Objective Analysis of Meteorological Fields
,”
Gidrometeorologicheskoe Izdatel’stvo
, Leningrad, translated from Russian in 1965 by Israel Program for Scientific Translations, Jerusalem,
242
pp.
5.
Şen
,
Z.
, 1989, “
Cumulative Semivariogram Model of Regionalized Variables
,”
Int. J. Math.
0129-167X,
21
, pp.
891
903
.
6.
Şen
,
Z.
, and
Şahin
,
A. D.
, 1998, “
Regional Wind Energy Evaluation in Some Parts of Turkey
,”
J. Wind. Eng. Ind. Aerodyn.
0167-6105,
37
(
7
), pp.
740
741
.
7.
Şahin
,
A. D.
, 2001, “
Spatio-Temporal Modelling Winds of Turkey
,” PhD Dissertation (in Turkish), Istanbul Technical University, Istanbul, Turkey.
8.
Krige
,
D. G.
, 1951, “
A Statistical Approach to Some Basic Mine Evaluation Problems on the Witwateround
,”
J. Chem. Metall Mining Soc. South Africa
,
52
, pp.
119
139
.
9.
Matheron
,
G.
, 1963, “
Principles of Geostatistics
,”
Econ. Geol.
0361-0128,
58
, pp.
1246
1266
.
10.
Davis
,
J. C.
, 1986,
Statistics and Data Analysis in Geology
,
Wiley
,
New York
.
11.
Troen
,
I.
, and
Petersen
,
E. L.
, 1989,
European Wind Atlas
,
Riso National Laboratory
,
Denmark: Roskilde
.
12.
Agbossou
,
K.
,
Chahine
,
R.
,
Hamelin
,
J.
,
Laurencelle
,
F.
,
Anouar
,
A.
,
St-Arnaud
,
J.-M.
,
Bose
,
T. K.
, 2001, “
Renewable Energy Systems Based on Hydrogen for Remote Applications
,”
J. Power Sources
0378-7753,
96
, pp.
168
172
.
13.
K’elouwani
,
S.
,
Agbossou
,
K.
,
Chahine
,
R.
, 2005, “
Model for Energy Conversion in Renewable Energy System With Hydrogen Storage
,”
J. Power Sources
0378-7753,
140
(
2
), pp.
392
399
.
14.
Fernandez
,
M.
,
Ruddell
,
A. J.
,
Vast
,
N.
,
Esteban
,
J.
,
Estela
,
F.
, 2001, “
Development of a VRLA Battery With Improved Separators, and a Charge Controller, for Low Cost Photovoltaic and Wind Powered Installations
,”
J. Power Sources
0378-7753,
95
, pp.
135
140
.
15.
Petersen
,
E. L.
,
Mortensen
,
N. G.
,
Landberg
,
L.
,
Hojstrup
,
J.
, and
Frank
,
H. P.
, 1998, “
Wind Power Meteorology—Part I: Climate and Turbulence
,”
Wind Energy
1095-4244,
1
, pp.
25
45
.
17.
Şahin
,
A. D.
, 2004, “
Progress and Recent Trends in Wind Energy
,”
Prog. Energy Combust. Sci.
0360-1285,
30
, pp.
501
543
.
18.
Koroneos
,
C.
,
Spachos
,
N.
, and
Moussiopoulos
,
N.
, 2003, “
Exergy Analysis of Renewable Energy Sources
,”
Renewable Energy
0960-1481,
28
, pp.
295
310
.
19.
Jia
,
G. Z.
,
Wang
,
X. Y.
, and
Wu
,
G. M.
, 2004, “
Investigation on Wind Energy-Compressed Air Power System
,”
COMSAT Tech. Rev.
0095-9669,
5
(
3
), pp.
290
295
.
20.
Dincer
,
I.
, and
Rosen
,
M. A.
, 2005, “
Thermodynamic Aspects of Renewables and Sustainable Development
,”
Renewable Sustainable Energy Rev.
1364-0321,
9
, pp.
169
189
.
21.
Goff
,
L. H.
,
Hasert
,
U. F.
, and
Goff
,
P. L.
, 1999, “
A ‘New’ Source of Renewable Energy: The Coldness of the Wind
,”
Int. J. Therm. Sci.
1290-0729,
38
, pp.
916
924
.
22.
Stull
,
R.
, 2000,
Meteorology for Scientists and Engineers
, 2nd ed.,
Brooks/Cole Thomson Learning
.
23.
Osczevski
,
R. J.
, 2000, “
Windward Cooling: An Overlooked Factor in the Calculation of Wind Chill
,”
Bull. Am. Meteorol. Soc.
0003-0007,
81
(
12
), pp.
2975
2978
.
24.
Zecher
,
J. B. M.
, 1999, “
A New Approach to an Accurate Wind Chill Factor
,”
Bull. Am. Meteorol. Soc.
0003-0007,
80
(
9
), pp.
1893
1899
.
25.
JAG/TI., 2001, New wind chill equation. Presentation at Joint Action Group for Temperature Indices Meeting, August, Toronto, Canada.
26.
Betz
,
A.
, 1946, “
Windenergie und ihre Ausnutzung Durch Windmühlen
,”
Gttingen: Vandenhoek and Ruprecht
,
Göttingen
.
27.
Froude
,
R. E.
, 1889, “
On the Part Played in Propulsion by Differences of Fluid Pressure
,”
Trans. RINA
1479-8751,
30
, p.
390
.
28.
Golding
,
E. W.
, 1955, “
The Generation of Electricity by Wind Power
,”
E.&F. N. Spon
,
London
.
29.
Spera
,
D. A.
, 1998,
Wind Turbine Technology
,
ASME
,
New York
.
30.
Cengel
,
Y. A.
, and
Boles
,
M. A.
, 2006,
Thermodynamics-An Engineering Approach
, 5th ed.,
McGraw-Hill
,
New York
.
31.
Pedersen
,
T. F.
,
Petersen
,
S. M.
,
Paulsen
,
U. S.
,
Fabian
,
O.
,
Pedersen
,
B. M.
,
Velk
,
P.
,
Brink
,
M.
,
Gjerding
,
J.
,
Frandsen
,
S.
,
Olesen
,
J.
,
Budtz
,
L.
,
Nielsen
,
M. A.
,
Stiesdal
,
H.
,
Petersen
,
K. Ø.
,
Danwin
,
P. L.
,
Danwin
,
L. J.
, and
Friis
,
P.
, 1992, “
Recommendation for Wind Turbine Power Curve Measurements to be Used for Type Approval of Wind Turbines in Relation to Technical Requirements for Type Approval and Certification of Wind Turbines in Denmark
,” Danish Energy Agency.
You do not currently have access to this content.