Solar power from the experts!
Energia a jövőnkért: Naperőművek tervezése és építése a fenntartható energiamegoldások előmozdításáért.
Phone:
+36 1 220 6149
1107 Budapest, Fogadó str. 4. (“A” building)
Email Address: ebhinvest@ebhinvest.com
If you have a question for us, see if we have answered it below.
You will find answers to some of the most frequently asked questions.
Monocrystalline solar panels: these panels are the most efficient because they are made of monocrystalline silicon. They perform excellently in good lighting conditions.
Polycrystalline solar cells: these solar cells are more economical than monocrystalline ones, but are generally less efficient. They can still be a good choice for solar power generation.
Amorft (or fibre bundled) silicon solar panels: these panels are flexible and can be easily applied to different surfaces. However, they are generally less efficient.
Zinc-oxide (CIGS) solar panels: these panels are environmentally friendly and cheap to manufacture, but still require increasing technological improvements to improve efficiency.
CdTe (cadmium-teluride) solar cells: these solar cells are becoming increasingly popular due to their low cost and high efficiency.
Hybrid solar panels: these systems combine different types of solar panels for maximum efficiency and production.
Combined solar panel and heat pump systems: these systems produce electricity and heat at the same time, so they are a combination of two energy production methods.
The ideal type of solar panel depends on the purpose for which you want to use it, the space and budget available, and the climate conditions.
Batteries can usually be added to solar panel systems according to the following steps:
Selection and sizing: first, you need to decide what size of battery you want to use with the solar panel system. This should take into account the maximum energy production of the solar panels, the daily energy consumption and any reserve for rainy or cloudy days.
Inverter: the direct current (DC) generated by the solar panels needs to be converted into alternating current (AC), which is used by your home's electrical system. This requires an inverter. The inverter must support operation with batteries.
Battery installation: the battery must be properly installed and connected to the solar panel system and the inverter. It is important that the cables and connections are done professionally.
Charging regulator: batteries should often be used with a charging regulator to prevent overcharging or over-discharging, which can damage the batteries. The charging regulator setting depends on the type of battery used.
Operation and maintenance: it is important to regularly check the condition of the batteries, the charge and discharge cycles, and to carry out maintenance such as cleaning or replacing batteries when necessary.
Monitoring: it may be useful to install a monitoring system that allows performance and status monitoring of the solar system and batteries. This will help to optimise system performance and detect any problems in time.
It's important to note that adding batteries to a solar PV system involves additional costs, and the design and installation of the system requires expertise. Nevertheless, batteries allow for energy storage, which can help to create self-sustaining systems and increase the availability of electricity during periods when solar panels are not producing enough energy.
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