Determination of Solar Power Plant Locations
The installation of solar power plants is more efficient in regions with abundant sunlight and long sunshine hours.
Here are the factors that need to be taken into account to determine the optimal solar plant locations for renewable energy production around the world:
Solar irradiance: Solar radiation is the most important factor for solar power generation. The amount of solar radiation can vary depending on factors such as the geographical location of the region, height above sea level and cloudiness.
Sunshine duration: The sunshine duration is the time that the sun’s rays are available in a region throughout the day. Sunshine duration varies depending on the geographical location and season of the region.
Land use: Solar power plants require installation on large areas of land. The intended use and current use of the land where the solar power plant will be built should be taken into account.
Infrastructure: Infrastructure and transportation facilities are also important for the installation and operation of solar power plants.
Taking these factors into consideration, the most ideal solar power plant locations for renewable energy production around the world are as follows:
Tropical and subtropical regions: Tropical and subtropical regions are areas that receive abundant sunlight throughout the year. These regions are ideal for solar power generation.
Low latitude regions: Low latitude regions are regions where sunlight comes more steeply. The sunshine duration is also longer in these regions. Low latitude regions are also ideal for solar energy production.
Flat and open lands: Solar fields are built on flat and open land. It is important that the land where the solar power plant will be built is flat and open.
Around the world, the most ideal solar plant locations for renewable energy production are located in the following regions:
Africa: The Sahara Desert is the largest and driest desert on the African continent. The region has an average of 2,000 hours of sunshine per year.
Middle East Middle Eastern countries generally have arid and hot climates. Countries in the region have significant potential for solar energy production.
Australia: Australia is the largest continent in the world. The north of this continent has a tropical climate. In the south, a subtropical climate prevails. Australia has significant potential for solar energy production.
United States of America: The southeast of the United States has a tropical climate. The region has significant potential for solar power plant installation.
South America: The northeast of the South American continent has a tropical climate. This region has a significant potential for solar power generation.
In Turkey, the most ideal solar power plant locations for renewable energy production are in the Central Anatolia Region, the Mediterranean Region and the Aegean Region. These regions receive plenty of sunlight throughout the year and have long sunshine hours. It is also known that flat and open lands are abundant in these regions.
Identifying Suitable Land with Drone and MapperX 3D Solar Energy Design Software
The selection of the land where solar power plants will be installed is an important factor in terms of the efficiency and cost of the power plant.
Solar Power Plant Land Detection with Drone
Drone is an effective tool for solar power plant land surveying. High resolution images and 3D models of the terrain can be obtained with the drone. The images and models can be used to analyze factors such as solar radiation, sunshine duration, land use and infrastructure.
The following steps are followed for solar power plant land identification with a drone:
High-resolution images and 3D models of the terrain are obtained with the drone.
Artificial intelligence software is used to analyze factors such as the amount of solar radiation, sunshine duration, land use and infrastructure. According to the results of the analysis, suitable land for the solar field is identified.
Solar Power Plant Land Identification with MapperX 3D Solar Energy Design Software
MapperX 3D Solar Energy Design Software offers a comprehensive analysis for solar power plant site identification using drone-acquired images and models. The software stands out with the following features:
Calculates the amount of solar radiation and sunshine duration.
Analyzes land use and infrastructure.
MapperX 3D Solar Energy Design Software offers a professional solution for solar power plant land identification. The software saves time and cost and provides more accurate results.
Advantages of Land Surveying with Drone and MapperX Solar Site Design Software
Solar power plant land surveying with drone and MapperX 3D Solar Energy Design Software has the following advantages:
- Faster and more accurate results.
- Saves time and cost.
- Provides a professional solution.
Visit the website to learn more about “Drone Technology for Mapping Solar Panel Sites”