Utvärdering av svensk vindkraft : Skillnaden mellan skogs- och traditionella placeringar

Lindahl, Andreas

January 2009

<p>During the last years commercial Wind Power Turbines (WPT) has become larger regardingto the generator sizes and hub heights. Available hub heights around 100 meters is nowcommon, which has led to profitability for WPT located in forests where there normally are tolow wind speeds. The current knowledgement regarding turbulence and the variation in thewind profile for the outcome of the power production for the WPT in forests is limited.In this Master of Science thesis an investigation concerning forest located wind power plantshas been made. The purpose has been to investigate if plants located in forest perform lesscompared to wind power turbines located at more common locations.The analyses are based on statically material for determining the availability,production/generator size, production/hub height, production/swept area and how thetopography affect the production results.The analyses show that the variation in production result for WPT located in forest comparedto turbines located at other locations is small. The availability is high and the productionresults are good.</p>

Wind power

turbulence

production result

hub height

rotor diameter

Utvärdering av svensk vindkraft : Skillnaden mellan skogs- och traditionella placeringar

Lindahl, Andreas

January 2009

During the last years commercial Wind Power Turbines (WPT) has become larger regardingto the generator sizes and hub heights. Available hub heights around 100 meters is nowcommon, which has led to profitability for WPT located in forests where there normally are tolow wind speeds. The current knowledgement regarding turbulence and the variation in thewind profile for the outcome of the power production for the WPT in forests is limited.In this Master of Science thesis an investigation concerning forest located wind power plantshas been made. The purpose has been to investigate if plants located in forest perform lesscompared to wind power turbines located at more common locations.The analyses are based on statically material for determining the availability,production/generator size, production/hub height, production/swept area and how thetopography affect the production results.The analyses show that the variation in production result for WPT located in forest comparedto turbines located at other locations is small. The availability is high and the productionresults are good.

Wind power

turbulence

production result

hub height

rotor diameter

Comparison between wind turbines in forestall and flat areas of Sweden

Rathinasamy, Sethupathy

January 2018

The renewable energy sources are the primary solution for energy demand in all the countries because it’s being harmless to the environment. In the short term, wind energy has the most potential among all the renewable energy technologies. In the European Union, Sweden is largely based on renewable energy for their energy demand. Sweden is one of the leading country in the EU where wind power has been growing rapidly. As wind turbines in recent time have been more and more commonly placed in forestal terrain in Sweden, it is of interest to know the difference in annual output compared to the flat terrain which was the earlier dominant terrain type for wind turbines. In this thesis, the difference between the two terrain types is investigated for a number of wind turbine models. This paper presents the study from the annual Vindstat report of the year 2015 and 2016. The data were accumulated in the Excel file and the terrain for turbine locations was classified using Google Earth. Finally, the power generation in both areas are compared by graphs and tables. The results indicate the difference in production according to the terrain and turbine rating. And it was a surprising finding that the difference between them is not more as we expected. Even more, further study is required to find the difference between in forest and flat wind turbines in all the aspects.

Availability

flat land

forest

hub height

power generation

wind turbine

Energy Systems

Energisystem

Wind power resource assessment, design of grid - connected wind farm and hybrid power system

Rehman, Shafiqur

18 May 2012

An exponentially growing global population, power demands, pollution levels and, on the other hand, rapid advances in means of communication have made the public aware of the complex energy situation. The Kingdom of Saudi Arabia has vast open land, an abundance of fossil fuel, a small population but has always been among the front-runners where the development and utilisation of clean sources of energy are concerned. Several studies on wind, solar and geothermal sources of energy have been conducted in Saudi Arabia. Solar photovoltaic (pv) has been used for a long time in many applications such as cathodic protection, communication towers and remotely located oil field installations. Recently, a 2MW grid-connected pv power plant has been put online and much larger solar desalination plants are in planning stage. Wind resource assessment, hub height optimisation, grid-connected wind farm and hybrid power system design were conducted in this study using existing methods. Historical daily mean wind speed data measured at 8 to 12metres above ground level at national and international airports in the kingdom over a period of 37 years was used to obtain long-term annual and monthly mean wind speeds, annual mean wind speed trends, frequency distribution, Weibull parameters, wind speed maps, hub height optimisation and energy yield using an efficient modern wind turbine of 2.75MW rated power. A further detailed analysis (such as estimation of wind shear exponent, Weibull parameters at different heights, frequency distribution at different heights, energy yield and plant capacity factor and wind speed variation with height) was conducted using wind speed measurements made at 20, 30 and 40metres above ground level. As a first attempt, an empirical correlation was developed for the estimation of near-optimal hub height (HH = 142.035 * (α) + 40.33) as a function of local wind shear exponent (α) with a correlation coefficient of 97%. This correlation was developed using the energy yield from a wind turbine of 1 000kW rated power and wind speed and local exponent for seven locations in Saudi Arabia. A wind-pv-diesel hybrid power system was designed and specifications were made for a remotely located village, which is being fed 100% by diesel power generating units. The proposed system, if developed, will offset around 35% of the diesel load and therefore will result in decreased air pollution by almost the same amount. The developed wind speed maps, the frequency distributions and estimated local wind shear exponents for seven locations and energy yield will be of great help in defining the further line of action and policy-building towards wind power development and utilisation in the kingdom. The study also recommends conducting a wind measurement campaign using tall towers with wind measurements at more than one height and estimating the local wind shear exponents and developing a wind atlas for the kingdom. The study further states that a grid-connected wind farm of moderate capacity of 40MW should be developed using turbines of varying rated powers. The wind speed data was also analysed using wavelet transform and Fast Fourier Transform (FFT) to understand the fluctuation in wind speed time series for some of the stations. It is also recommended that policy-makers should take firm decision on the development of hybrid power systems for remotely located populations which are not yet connected with the grid. There are two challenges which need research: one is the effect of dust on the moving and structural elements of the wind turbines and the second is the effect of high prevailing temperatures on the performance and efficiency of the same. / Thesis (PhD)--University of Pretoria, 2012. / Mechanical and Aeronautical Engineering / PhD / Unrestricted

Wind frequency distribution

Plant capacity factor

Grid-connected wind farms

Hybrid power system

Wind shear exponent

Wind rose diagram

Hub height

Resource assessment

Wind power

Wind maps

Clean energy

UCTD