The Republic of Lithuania Law on Energy from Renewable Sources stipulates that the Government of the Republic of Lithuania or its delegated authority – the Ministry of Energy of the Republic of Lithuania – shall organise the performance of marine surveys and other actions necessary for the development of wind power plants in the territorial waters of the Republic of Lithuania.

The public institution Lithuanian Energy Agency, in exercising the powers granted by the Ministry of Energy of the Republic of Lithuania, has assessed the need for mandatory marine surveys and The public institution Lithuanian Energy Agency, in fulfillment of the powers granted by the Ministry of Energy of the Republic of Lithuania, assessed the need for mandatory marine research and actions in the territory of the territorial sea of the Republic of Lithuania and/or the exclusive economic zone of the Republic of Lithuania in the Baltic Sea, where it is appropriate to organize a tender for the development and operation of power plants using renewable energy resources .development and operation of power plants using renewable energy sources is expedient.

After clarifying the need and preparing the necessary documents needed to organize the procurement of research and services, the public institution Lithuanian Energy Agency initiated international public procurement related to this project in order to identify service providers who will perform the planned research and services.

The development of wind power plants in the territorial waters of the Republic of Lithuania in the Baltic Sea is intrinsically linked to both the characteristics of the seabed and the geological structure of the subsurface. The seabed topography and its geological structure have a special impact on the selection of wind power plant construction and foundations, as well as the layout of the infrastructure. 

In order to rationally plan the installation of a wind farm, all potential geological risks must be assessed, and any objects on the seabed, such as dangerous debris, unexploded ordnance and so on, must be analysed. 

Taking this into account, complex geological and geophysical surveys of varying detail must be carried out in two stages, using complex engineering and geological research methods. 

The Lithuanian Energy Agency has selected Geobaltic, UAB and Garant Diving, UAB as suppliers for geophysical surveys of the seabed through an international public procurement procedure. Representatives of the jointly contracted group of service providers presented the second seabed survey report. The report presents the results and conclusions of deep geophysical-seismic surveys in the Lithuanian offshore area, where it is appropriate to organise tenders for the development and operation of wind farms. 

Deep geophysical and seismic surveys of the seabed in the Baltic Sea have confirmed that the area envisaged for the first offshore wind farm is suitable for the development of such activities. 

Lithuanian Energy Agency has launched an international procurement for seabed survey services for the first wind farm in the Baltic Sea to connect to land. The procurement documents are available on the Central Public Procurement Portal. 

The Baltic Sea offers favourable conditions for the development of offshore wind farms, according to Spanish studies on wind speed and other hydrometeorological parameters. Spanish company EOLOS Floating Lidar Solutions SL has been carrying out a one-year study in the Lithuanian offshore area, where a 700 megawatt (MW) offshore wind farm is planned.

The economic efficiency of wind energy in the Baltic Sea also depends on favourable wind conditions at sea, which is why measurements of wind and other hydrometeorological parameters in the park area are crucial for assessing the wind potential and the capacity of the park's future power plants. For a potential park developer, this data will also help to select wind turbine models, calculate the required investment, model the layout and lifetime of the turbines and assess other important aspects.

The experts' analysis of the data confirmed that the annual wind capacity and other hydrometeorological parameters are in line with previously modelled estimates of the projected wind potential in the Baltic Sea. The results confirm that Lithuania has sufficient offshore wind resources and can successfully and efficiently develop offshore wind energy in the Baltic Sea.

Two buoys with specialised equipment were moored at two predefined locations in the Baltic Sea. Wind speed and direction were measured throughout the year at different altitudes from 10 to 280 metres. Atmospheric pressure, air temperature, relative humidity, wave height, current strength and direction and water level were also recorded.

The data analysis shows that the average wind speed at 100-200 m is between 9.0 and 9.6 m/s. The highest wind speeds were recorded during the cold season, in October and December-March (average 10-13 m/s), and the maximum average 10-minute wind speed over the whole measurement period at 150 m was 28.6 m/s.

The recorded higher winds during the cold season reaffirm the importance of offshore energy in the overall annual balance of electricity generation from renewable sources. It is during the cold season that the production of solar parks in Lithuania drops to its lowest level. Higher offshore wind speeds are a direct function of the amount of electricity generation and the more powerful turbine models chosen by developers.

Based on the available data, the prevailing wind direction in the area of the first offshore wind park was also assessed, which is important for the selection of the orientation of the wind turbines. Westerly and south-westerly winds were found to be more common.