Abstract
Renewable energy sources have begun to arouse interest worldwide. The UN Sustainable Development Agenda has defined access to affordable, reliable, sustainable and modern energy as one of its main goals. This paper contains a description of the research on the assessment of the validity of employing surveying methods to capture topographic data in order to select locations suitable for small hydropower plants. For the purpose of this study, a section of a natural watercourse with the surrounding area was measured by means of the photogrammetric method using unmanned aerial vehicles (UAVs) and, for comparison, by means of the precise positioning method using the GNSS system with the RTN kinematic technique (GNSS RTN). Publicly available measurement data from airborne laser scanning (LIDAR) were also used for the analyses. In order to assess the accuracy of the methods employed, the discrete data describing the relief were analysed, and then continuous data in raster form were analysed. The analyses were performed with the use of an automatic method of height comparison and analysis of cross-sections on DEM and DSM. In the last stage of the work, the hydrological parameters were analysed, i.e., the slope of the land and the watercourse flow values determined based on the DEM captured from various surveying methods. What is unique about this work is: (1) the use of spatial data with a high resolution acquired from UAVs to search for locations for the construction of small hydroelectric power plants and assessment of their usefulness in this regard; (2) assessment of the accuracy and quality of the hydrological and morphological parameters of the area important for the selection of the location for the construction of small hydropower plants, performed based on spatial data depicting the actual area of the land measured in the field; (3) assessment of the quality of the hydrological modelling necessary to find the location. The performed surveys and analyses allowed for the identification of the advantages and disadvantages of the surveying methods employed to capture data on the topography of land as well as indications of the optimal data source.
Highlights
The results and analysis of the differences in the calculated parameters of hydrological modelling used in the search for potential locations for the construction of small hydropower plants are presented
Columns 9 and 5 (Table 2) summarise the calculated differences in heights between the point measured in the field using the Global Navigation Satellite Systems (GNSS) Real Time Network (RTN) technique, and the height of the nearest point from the LIDAR and unmanned aerial vehicles (UAVs) clouds (Figure 5A)
Based on the conducted research, it can be concluded that modern surveying methods are useful for spatial data acquisition for the purpose of selecting the location for the construction of small hydropower plants
Summary
Increasing environmental pollution and climate change have led to the development of renewable energy sources [1,2,3]. One of these is water, which currently provides 19% of the planet’s electricity [4,5,6]. In Poland, a hydroelectric power plant with a capacity of less than 5 MW is defined as a small hydropower plant, whereas in most European Union countries, power plants with a capacity of up to 10 MW are considered to be small [11,12,13]. According to [4], Poland has a very large potential for the development of hydropower, which it will use in the future
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