Description
Description of individual products (e.g. solar panels) that are directly from the European manufacturer. An environmentally friendly solar panel made in Europe offers you the best quality, performance and price. Discover the complete range of solar panels with us. A solar panel allows you to save on your electricity bill by self-consumption or supply to the grid. Connect your solar panel directly to your house and become a self-producer.
Solar panels produce a form of electricity that most households cannot use. This energy is direct current (DC). The form of energy that almost all households use is alternating current (AC). But how does the DC energy produced by the solar panels get converted to AC? This is where solar inverters come into play.
Ecology allows you to manage your energy, do not hesitate and go to our panels for your photovoltaic projects.
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Advantages of our panels
Easy and fast installation
All our solar panels easily adapt to many types of mounting. Perfect for all types of roofs: tiles, steel, aluminum or copper sheet, or garden shed. .
Reliability and robustness
Our solar panel combines reliability and resistance to mechanical stress and harsh environmental conditions. If you opt for our panel, you are guaranteed to get the product tested in the most extreme conditions.
Warranties and durability
- 30 year product warranty, the quality of this panel is excellent
- 100% European quality. All our products rely on TÜV certifications and put quality and performance in our main goals
- Solar panels are designed in Europe, which guarantees flawless products and better services. Our European service ensures quality management at every stage of your order.
- The service life of the double-encapsulated panel is estimated on the basis of tests at 50 years.
Our strategy
Solar Panels
Green energy is becoming increasingly popular because it is one of the best green energy solutions for homeowners. A solar panel is a group of electrically interconnected solar cells enclosed in a frame that converts sunlight into electricity. There are many benefits to switching to solar energy.
The solar panel converts sunlight into electricity or heat. Solar energy can be used to power a house or building. The solar panel is made of many small solar cells, which are combined to cover a large area to produce enough electricity. The larger the light source the cell is exposed to, the more electricity or heat it produces.
The efficiency, simply put, of a solar panel (in percent) quantifies the ability of a solar panel to convert sunlight into electricity. If two solar panels with different efficiency indices are exposed to the same amount of sunlight for the same time, a more efficient panel will produce more electricity than the other. Consider two solar panels of the same size. One has an efficiency of 21% and the other 14%. Panel number 1 produces 50% more kilowatt hours (kWh) of electricity under panel conditions compared to panel number 2. So choose the most efficient solar panel to maximize energy production and save more money on your electricity bill. For many solar energy users, efficiency is a key quality aspect when choosing solar panels. Although this is an important criterion, it is not the only one that needs to be considered when considering purchasing a solar panel.
You may be surprised that the cold weather in winter can actually improve the performance of solar panels. Production losses caused by snow or low daylight are usually minimal. With photovoltaic (PV) technology, it is easier to convert solar radiation into energy. The solar panel can also capture additional sunlight that is reflected from the snow.
Snowfall is another problem that can affect the efficiency of solar panels. However, this is not as serious a problem as you might think. Snow is light and therefore has little effect on solar panels. It usually melts before it causes real problems. Solar panels are generally designed to allow as much snow to slide. Even heavy snow is unlikely to block your solar panels if properly installed. Paradoxically, snow can also help the solar panel produce more electricity. How? White snow reflects sunlight like a mirror. This is also why skiers are prone to sunburn. This can improve the efficiency of your solar panels.
The solar energy produced must be used immediately or stored in large batteries. These batteries, used in off-grid solar systems, can be charged during the day, so energy can be used at night. This is a good solution if you want to use solar energy throughout the day, but we have to reckon with the price of batteries. In most cases, it makes more sense to use solar energy only during the day and draw energy from the grid at night (you can only do this if your system is connected to the grid). Fortunately, your energy consumption is generally higher during the day, so you can cover most of your energy needs with solar energy, even if you use mains power at night.
Remember that the world is gradually moving towards the “Go Green” revolution due to growing awareness of environmental needs and scarcity of natural resources. In response to these environmental concerns, we offer highly efficient solar panels that allow us to provide our customers with clean, reliable and inexpensive energy throughout the year.
Our strategy
Inverters and converters
Solar panels produce a form of electricity that most households cannot use. This energy is direct current (DC). The form of energy that almost all households use is alternating current (AC). But how is the DC energy produced by solar panels converted to AC? Solar inverters come here. The purpose of solar inverters is to convert all the energy produced by solar panels into usable power. It does this by converting direct current, which flows in one direction, to alternating current, which flows back and forth very quickly. This AC current is then sent through your electrical / fuse / circuit breaker box and can be used by all electrical appliances and lighting fixtures in your home.
Homeowners have three types of solar inverters available.
These types are chain (or central) converters, power optimizers + converter and micrometers. Each type of solar inverter has its advantages and disadvantages. It is important to understand these differences, as well as the advantages and disadvantages of each type of solar inverter, before choosing the right one for your solar panel system.
What type of solar inverter is right for you? Depending on your situation, one type of solar panel may be better for you than another. If you are looking for a wallet-friendly solar inverter, a chain inverter can be a good choice. However, if you have the option of shielding on your solar panels, power optimizers or microinverters may be a better choice.
Contact us and find out which solar inverter is right for you. Our solar experts can explain all the pros and cons and also provide solar analysis.
Chain (central) converters (inverters):
Pros and cons of string inverters, also known as central inverters, are the oldest and most common type of solar inverter in use today. They work by connecting a string of solar panels to a single inverter, which converts the total DC input to an AC output.
Pros: Because string inverters are the oldest type of solar inverter, they are also the most reliable. After decades of operation on the market, most errors in chain inverters have been resolved. They are also the cheapest variant of solar inverters. Chain inverters are also centrally located on the side of your house or near a ground point. This allows easier access to monitor, repair or replace the drive.
Disadvantages: Although chain inverters are reliable, they are also less efficient in optimizing solar energy output. Because the chain inverters are connected to the entire chain of solar panels, shielding on one solar panel will reduce the performance of the entire chain. String inverters also only offer system-wide monitoring as opposed to panel-level monitoring. This can be a disadvantage in diagnosing problems with solar production and can also be unfortunate for those solar homeowners who want a more detailed level of monitoring.
Chain converter + Performance optimizers:
Solar panels produce a form of electricity that most households cannot use. This energy is direct current (DC). The form of energy that almost all households use is alternating current (AC). But how is the DC energy produced by solar panels converted to AC? Solar inverters come here. The purpose of solar inverters is to convert all the energy produced by solar panels into usable power. It does this by converting direct current, which flows in one direction, to alternating current, which flows back and forth very quickly. This AC current is then sent through your electrical / fuse / circuit breaker box and can be used by all electrical appliances and lighting fixtures in your home.
Microinverters:
Microinverters are the latest technology in solar inverters and work by converting direct current to alternating current directly from the back of each solar panel. No chain inverter is needed because each microinverter takes care of the DC conversion on site.
Pros: Because each microinverter handles DC to AC conversion on each panel, this allows for minimal system impact by shading the individual panels. If the shield covers one panel, only that panel will produce less output power, as opposed to reducing the power of the entire system, as in the case of a chain inverter setup. Microinverters can also be easily expanded with your solar system in the future. Any solar panel that is added to the system must have a microinverter installed on the back of the panel. Like the performance optimizers, the microinverters also allow panel-level monitoring of the solar system, making it easier and more accurate to diagnose any solar system output problems.
Disadvantages: Microinverters are the most expensive of solar inverter options. However, their benefits can easily outweigh the costs in certain situations, especially if shielding is an issue. And because microinverters are installed on the back of each solar panel, it is more difficult to repair or replace any microinverter that might have problems.
Installation elements
