Investigation of wind characteristics and wind energy potential in Kirklareli, Turkey

Utilization of wind energy as an energy source has been growing rapidly in the whole world due to environmental pollution, consumption of the limited fossil fuels and global warming. Although Turkey has fairly high wind energy potential, exploitation of the wind energy is still in the crawling level. In the current study, wind characteristics and wind energy potential of Kırklareli province in the Marmara Region, Turkey were analyzed taking into account the wind data measured as hourly time series. The wind data used in the study were taken from Electrical Power Resources Survey and Development Administration (EIEI) for the year 2004. The measured wind data were processed as annual, seasonal and monthly. Weibull and Rayleigh probability density functions of the location are calculated in the light of observed data and Weibull shape parameter k and scale parameter c are found as 1.75 and 5.25 m/s for the year 2004. According to the power calculations done for the site, annual mean power density based on Weibull function is 138.85 W/m². The results indicate that investigated site has fairly wind energy potential for the utilization.     

Investigation of wind power potential at Bozcaada, Turkey

Thirteen years of wind data from Bozcaada Meteo-station have been used to evaluate the potential of wind power on Bozcaada Island, in the North-eastern part of the Aegean Sea. Investigations show that Bozcaada has a considerable wind potential (average wind speed M = 6.4 ms⁻¹ and a mean energy density E = 324 W/m⁻² at the location of the meteo-station, at 10 m above ground level which could cover its yearly electricity demand by utilizing only one 250 kW wind turbine. The wind atlas analysis and application program, WAsP, has been used to evaluate the wind atlas statistics and energy densities of Bozcaada. The yearly power production of the 250 kW wind turbine, assumed to be installed has been calculated. Then an environmental and techno-economic analysis of wind power has been carried out.     

Wind energy and assessment of wind energy potential in Turkey

In this study, the potential of wind energy and assessment of wind energy systems in Turkey were studied. The main purpose of this study is to investigate the wind energy potential and future wind conversion systems project in Turkey. The wind energy potential of various regions was investigated; and the exploitation of the wind energy in Turkey was discussed. Various regions were analyzed taking into account the wind data measured as hourly time series in the windy locations. The wind data used in this study were taken from Electrical Power Resources Survey and Development Administration (EIEI) for the year 2010. This paper reviews the assessment of wind energy in Turkey as of the end of May 2010 including wind energy applications. Turkey's total theoretically available potential for wind power is around 131,756.40 MW and sea wind power 17,393.20 MW annually, according to TUREB (TWEA). When Turkey has 1.5 MW nominal installed wind energy capacity in 1998, then this capacity has increased to 1522.20 MW in 2010. Wind power plant with a total capacity of 1522.20 MW will be commissioned 2166.65 MW in December 2011.     

Energy sector and wind energy potential in Turkey

Turkey has very limited indigenous energy resources and has to import around 65% of primary energy to meet her needs. It is a large importer of primary energy despite having ample renewable energy sources.Turkey’s vibrant economy has led to increased energy demand in recent years. This situation is expected to continue in the near future because its economy is dependent mainly on imported oil, natural gas and electricity.This paper presents the prevailing and the expected energy situation and energy demand. Wind energy potential in Turkey is also discussed.     

Analysis of wind climate and wind energy potential of regions in Turkey

Investments in wind plants have increased rapidly as a result of changes to legal regulations in Turkey over the last five years. This has also led to an increase in the number of wind potential analyses in various regions of the country. This study analyzes the wind climate features of three regions in Turkey and their energy potential. In order to determine the features of wind in these regions, a five-layer Sugeno-type ANFIS model established under the MATLAB-Simulink software was used and the relationship between wind speed and other climate variables determined. In the second phase, WASP software was used to complete the wind energy potential analyses using wind speed data. The final phase includes calculations of the amount of electricity to be obtained technically and capacity usage rates of the installed turbines if wind farms are established in the selected areas. The comparative tables and graphics of the said areas were obtained. In conclusion, the selected areas are well located for the installation of parallel-connected wind plants to the national network in terms of the reliability of wind, the dispersion of wind potential and capacity usage rates.     

Determination and utilization of wind energy potential for Turkey

In this study, potential and development of wind energy systems in Turkey were studied. The potential and current usage was reviewed. The objective of the study is to investigate the wind energy plants and projects in Turkey. The wind energy potential of various regions and the exploitation of the wind energy were investigated by analyzing wind data measured as hourly time series in the windy locations. The wind data used in this study were taken from Electrical Power Resources Survey and Development Administration (EIEI) for the year 2004. Nurda??, Karabiga, Datça, Band?rma, Antakya, Mardin, and Kumköy areas were found to be the most suitable areas for wind energy systems by their wind densities; Sinop, Gökçeada, and Siverek are following these areas. The results indicate that the investigated sites have fairly satisfactory wind energy potential for the utilization.     

On the wind energy in Turkey

Increase in negative effects of fossil fuels on the environment has forced many countries, including Turkey, to use renewable energy sources. Today, clean, domestic and renewable energy is commonly accepted as the key for future life, not only for Turkey but also for the world. As wind energy is an alternative clean energy source compared to the fossil fuels that pollute the atmosphere, systems that convert wind energy to electricity have developed rapidly. Turkey is an energy importing country, more than half of the energy requirement has been supplied by imports. Turkey's domestic fossil fuel resources are extremely limited. In addition, Turkey's geographical location has several advantages for extensive use of wind power. In this context, renewable energy resources appear to be one of the most efficient and effective solutions for sustainable energy development and environmental pollution prevention in Turkey. Since wind energy will be used more and more in the future, its current potential, usage, and assessment in Turkey is the focus of the present study. The paper not only presents a review of the potential and utilization of the wind power in Turkey but also provides some guidelines for policy makers.     

Investigation of wind characteristics and assessment of wind energy potential for Waterloo region,Canada

Wind energy becomes more and more attractive as one of the clean renewable energy resources. Knowledge of the wind characteristics is of great importance in the exploitation of wind energy resources for a site. It is essential in designing or selecting a wind energy conversion system for any application. This study examines the wind characteristics for the Waterloo region in Canada based on a data source measured at an elevation 10 m above the ground level over a 5-year period (1999–2003) with the emphasis on the suitability for wind energy technology applications. Characteristics such as annual, seasonal, monthly and diurnal wind speed variations and wind direction variations are examined. Wind speed data reveal that the windy months in Waterloo are from November to April, defined as the Cold Season in this study, with February being the windiest month. It is helpful that the high heating demand in the Cold Season coincides with the windy season. Analysis shows that the day time is the windy time, with 2 p.m. in the afternoon being the windiest moment. Moreover, a model derived from the maximum entropy principle (MEP) is applied to determine the diurnal, monthly, seasonal and yearly wind speed frequency distributions, and the corresponding Lagrangian parameters are determined. Based on these wind speed distributions, this study quantifies the available wind energy potential to provide practical information for the application of wind energy in this area. The yearly average wind power density is 105 W/m². The day and night time wind power density in the Cold Season is 180 and 111 W/m², respectively.     

Evaluation of wind energy potential and electricity generation at six locations in Turkey

In this study, wind characteristics were analyzed using the wind speed data collected of the six meteorological stations in Turkey during the period 2000–2006. The annual mean wind speed of the six stations (Erzurum, Elaz??, Bingöl, Kars, Manisa and Ni?de) is obtained as 8.7, 8.5, 5.9, 6.9, 7.4 and 8.0 m/s at 10 m height, respectively. The mean annual value of Weibull shape parameter k is between 1.71 and 1.96 while the annual value of scale parameter c is between 6.81 and 9.71 m/s. A technical assessment has been made of electricity generation from four wind turbines having capacity of (600 kW, 1000 kW, 1500 kW and 2000 kW). The yearly energy output and capacity factor for the four different turbines were calculated.     

Biomass energy potential in Turkey

Biomass energy includes fuelwood, agricultural residues, animal wastes, charcoal and other fuels derived from biological sources. It currently accounts for about 14% of world energy consumption. Biomass is the main source of energy for many developed and developing countries. In Turkey energy wood is available in the form of forest chips, fuelwood, wood waste, wood pellets, and it is also produced to a very limited extent from willow crops in short rotation forestry. The major part of wood harvested in the forest area (approximately 10 million ha) ends up as energy wood directly or indirectly after having been used for other purposes first. An overview of biomass potential and utilization in Turkey is presented. In 1999, the biomass share of the total energy consumption of the country is 10 percent. The level of fuelwood use together with that of other agricultural and animal wastes is compared with the commercial energy use within the country's global energy balance. The possibilities of increasing fuelwood production through afforestation programmes and substitution for commercial fuels are discussed. Biogas utilization in the rural regions is also reviewed, emphasizing its possible contribution.     

Petrography of Feed Coals in the Soma Power Plant,Manisa, Turkey

The coal-bearing Soma basin is one of the most productive lacustrine coal basins of western Anatolia-Turkey. This study mainly focuses on petrography of the feed coals (FCs) in the Soma power plant. A total of 16 feed coal samples were systematically collected once a week over an eight-week period from both group boiler units, B1–4 with 660 MW and B5–6 with 330 MW capacity. The most abundant maceral group of FCs is huminite, in which texto-ulminite, eu-ulminite, attrinite, densinite are rich. Liptinite group macerals in FCs include mainly sporinite, resinite, and liptodetrinite, which are considerably higher than the other identified liptinite macerals. In the inertinite group, fusinite and inertodetrinite are more abundant. Identifiable minerals with petrographical studies are pyrite, siderite, other minerals (e.g., carbonates, clay minerals, quartz, feldspar, etc.), and fossil shells. This study shows that FCs used are subbituminous in rank with mean random ulminite reflectance of 0.43%Rr oil from B1–4 units and 0.39%Rr oil from B5–6 units. This indicates that coal rank is slightly higher in the central mines (southern Soma) than in the Denis mines (northern Soma).     

Investigation of wind energy application possibilities for a specific island (Bozcaada) in Turkey

1975–1984 wind data and other parameters such as obstacle information were taken for a specific inhabited island (Bozacaada) on the west coast of Turkey and used for calculation of wind energy usage possibilities on this island. Calculations were made by using appropriate computer programs which were prepared by the authors and also a computer program WAsP (Wind Atlas Analysis and Application Program, Mortensen, 1993) was used. Conclusions were classified according to the height above ground level and were discussed with the performances of some available commercial wind turbine systems in these conditions.     

Technoeconomic analysis of electricity generation from wind energy in Kutahya,Turkey

Conventional energy usage has various environmental effects that cause global warming. Renewable energy sources are thus more favorable because they have nearly zero emission. Wind energy, among the various renewable sources, finds increasing usage, concurrent with developing technology. In addition, wind is an infinite energy source. In this study, the electricity-generation ability of Kutahya has been investigated. With this aim, wind data, from the measurement station located on Bunelek Hill, Kutahya, have been collected for a period of 36 months (July 2001–June 2004). From the collected data, the electricity generated has been calculated for different types of wind turbines. The calculations have been based on the electricity requirement of the main campus of the Dumlupinar University. Finally, the economic evaluation has been analyzed using life-cycle cost analysis. For the analysis of the economical aspects, the social and CO₂ costs have also been taken into account.     

Wind energy potential in Antakya and skenderun regions, Turkey

The aim of this study is to establish the potential and the feasibility basis for the wind energy resources in some locations of East Mediterranean region of Turkey and provide suitable data for evaluating the potential wind power. For this purpose, hourly wind data, which were observed between the years 1997 and 2001 at the meteorological stations of Antakya and skenderun regions, were used. The dominant wind directions, the mean values, wind speeds, wind potential and the frequency distributions were determined. The results were classified according to the height above the ground level. Finally, the wind atlas of these regions in the form of contours of constant wind speed and wind potential was produced.     

Geothermal energy potential and utilization in Turkey

The regional distribution of the geothermal energy potential in Turkey, recent surveys, and utilization areas are described. The present and future roles of geothermal energy and their economic aspects are discussed. The implications of geothermal energy exploration and utilization are noted. Recommendations are made to expand geothermal-energy development.     

California offshore wind energy potential

This study combines multi-year mesoscale modeling results, validated using offshore buoys with high-resolution bathymetry to create a wind energy resource assessment for offshore California (CA). The siting of an offshore wind farm is limited by water depth, with shallow water being generally preferable economically. Acceptable depths for offshore wind farms are divided into three categories: ≤20 m depth for monopile turbine foundations, ≤50 m depth for multi-leg turbine foundations, and ≤200 m depth for deep water floating turbines. The CA coast was further divided into three logical areas for analysis: Northern, Central, and Southern CA. A mesoscale meteorological model was then used at high horizontal resolution (5 and 1.67 km) to calculate annual 80 m wind speeds (turbine hub height) for each area, based on the average of the seasonal months January, April, July, and October of 2005/2006 and the entirety of 2007 (12 months). A 5 MW offshore wind turbine was used to create a preliminary resource assessment for offshore CA. Each geographical region was then characterized by its coastal transmission access, water depth, wind turbine development potential, and average 80 m wind speed. Initial estimates show that 1.4–2.3 GW, 4.4–8.3 GW, and 52.8–64.9 GW of deliverable power could be harnessed from offshore CA using monopile, multi-leg, and floating turbine foundations, respectively. A single proposed wind farm near Cape Mendocino could deliver an average 800 MW of gross renewable power and reduce CA's current carbon emitting electricity generation 4% on an energy basis. Unlike most of California's land based wind farms which peak at night, the offshore winds near Cape Mendocino are consistently fast throughout the day and night during all four seasons.     

Assessment of wind energy potential in croatia

In this work, the eolian potential of Croatia (one of the Yugoslav republics) is investigated on the basis of 32 anemograph stations. Mean hourly values were used for calculation of Weibull's distribution parameter c and k, and mean annual and seasonal wind power densities. The vertical extrapolation of wind speeds was based on Justus expression. Mean annual wind energies were calculated for two types of aerogenerators. Analysis of these data showed that in the interior of Croatia, at 10 m above ground, low naturally available wind power densities exist: less than 50 W/m². On the Adriatic basin, in some area along the coast, a wind power of over 300 W/m² may be gained.

The annual natural wind energies at 50 m above ground lie in the continental part between 250 and 1300 kWh/m² and on the eastern part of Adriatic basin between 500 and 8100 kWh/m².     

The wind energy potential of Malaysia

Wind data collected at ten stations in Malaysia were analysed for wind energy potential. The data were collected over a ten-year period (1982–1991). The results were presented as a Weibull distribution and analysis indicated that the station at Mersing has the greatest potential, with a mean power density of 85.61 W/m² at 10 m above sea level.     

The wind energy potential of Thailand

Routine wind data from meteorological stations have been used to determine seasonal wind speed distributions and mean power densities at the surface over Thailand. Analyses of hourly wind speeds at two stations show that Weibull distributions fit the data well, provided that observations of calm are excluded. The diurnal variation of the wind at these stations has also been found. Estimates of mean power densities of surface winds over the whole country are typically in the range 10–20 Wm^?2. Upper level climatic charts indicate that mean free-stream wind power densities above the surface boundary layer are typically in the range 100–600 Wm^?2. Similar power densities would be accessible to wind machines on high ground in many places, depending on mountain topography and machine siting.     

The wind energy potential of Malaysia

Routine observations have been used to determine the diurnal and seasonal variations of the wind at 20 meteorological stations in Malaysia. The wind speed distributions, with calms omitted, are represented by Weibull functions. Seasonal mean wind power densities at the surface exceed 20 W m⁻² only at stations on the east coast and in the south of West Malaysia during the northeast monsoon from November to March. Estimates of seasonal power densities at 600 m above the surface range from below 100 W m⁻² to over 300 W m⁻², with the highest values over the south of West Malaysia and the east coasts of East and West Malaysia during the northeast monsoon.