Solar Market Outlook in Slovenia
There is a solar power boom in Slovenia and it mirrors the rapid growth of the renewable energy sector in most parts of Europe. In 2019, there were 2,496 solar PV systems that were installed in Slovenia generating a total solar capacity of 31.2 MW. Majority of these PV systems were for residential installations. This was a huge increase from the previous year (2018) bringing an increase of up to 233%.
The significant drop in the price of solar components can be attributed to this growth in the Slovenian solar market. In addition, the support models and lower administrative barriers are also a factor.
The continued effort to push the growth of the country’s solar energy sector has resulted in the generation of 268 GWh of solar energy production or 1.8% of the country’s total energy output. The solar industry in Slovenia is made up of 20 companies that generate an annual income of 100 Million Euros. The solar energy sector is forecasted to continue its growth in the next few years especially with the development of a 6 MW solar park in 2020.
Solar Energy Equipment Supply Capacity in Slovenia
There are a few local suppliers and manufacturers of solar power equipment in Slovenia. However, most of the solar panels and components that are used for solar installations in the country are exported from global and online suppliers.
Top Major Seaports & Logistics in Slovenia
There are several ports in Slovenia providing access to commercial, logistics, and trade activity. These ports are
- the Port of Koper,
- Port of Piran,
- the Port of Izola.
Solar Water Pump
Solar water pump definition
A solar water pump is a mechanical pump powered by electricity generated using photovoltaic panels. It is popularly referred to as a solar water pumping system because it requires several key components to work. The critical constituents of a functional water pump include;
- A solar panel array
- A mechanical DC water pump
- Photovoltaic cables
- A fuse box
- A solar charger control
You can employ a solar water pump in various applications, including crop irrigation and drinking water supply. Currently, it is the most suitable option for all your pumping needs because it has several benefits. It is essentially more efficient to operate and less costly to maintain than traditional fossil fuel-powered pumps. More importantly, it is environmentally friendly primarily because it runs on renewable solar energy. How exactly does it work?
The solar water pump’s working principle
When most of us hear of a solar water pump, we assume it is pretty challenging to use. I can confidently tell you that its usage is pretty straightforward once you install all the necessary components. Figure 1 below offers an outline of the main things you need to have in place for your solar water pump to work efficiently;
Figure 1: Components of a functional solar water pump system
The solar array absorbs solar energy and converts it into electric energy. The solar water pump’s inverter converts the DC electric current output generated by the photovoltaic system into AC. The AC electric current powers the pump and propels water from the source to the intended destination.
It is also crucial to note that the inverters regulate the electricity output frequency and voltage instantaneously. These regulatory actions correspond to variations in sunlight intensity. In simple terms, the system switches to supplementary energy automatically when sunlight intensity weakens. Is this not enough to convince you that a solar water pumping system is worth its investment?
Classifications of solar water pumps
There are several classifications of solar water pumps that you can choose from depending on your specific needs. The main varieties of solar water pumps include;
- The submersible solar water pump
This type of pump is ideal for deep water sources such as wells. It can lift up to 650 feet of water provided the sunlight energy can generate sufficient electricity to power the pump. Consequently, it is advisable to pump and store water when the sun’s intensity is at its best.
- The surface solar water pump
This pumping system is suitable for shallow water sources, including streams, storage tanks, and ponds. They can comfortably lift water with a depth of not more than 20 feet. If you intend to draw water beyond this depth, it would be best to settle for submersible pumps.