Solar panels are produced through a multi-step process. It involves sourcing raw materials like silicon, manufacturing solar cells from silicon wafers, assembling the cells into modules, and finally testing and packaging the completed panels.
The primary material used in solar panel production is silicon. Silicon wafers are used to create solar cells, which are then combined with other components such as glass, metal frames, and wiring to form a complete solar panel.
Solar panels generally have a lifespan of 25 to 30 years. However, many panels can continue to produce electricity even beyond this period, albeit at a slightly reduced efficiency.
Solar panels convert sunlight into electricity through the photovoltaic effect. When sunlight hits the solar cells, it excites the electrons in the silicon, creating an electric current. This current is then captured and converted into usable electricity.
Yes, solar panels are recyclable. At the end of their lifespan, panels can be dismantled and the materials, such as glass, aluminum, and silicon, can be recycled and reused in the manufacturing of new panels or other products.
Technological advancements play a crucial role in improving solar panel production. They lead to increased efficiency, reduced manufacturing costs, and the development of new materials and manufacturing techniques, ultimately making solar panels more accessible and cost-effective.
Solar panel manufacturers ensure the reliability and durability of their products through rigorous testing and quality control processes. These include tests for temperature resistance, humidity exposure, mechanical stress, and electrical performance. Additionally, panels often undergo certification processes to meet industry standards and ensure their long-term performance in various weather conditions.
The production of electricity in photovoltaic plants depends on the degree of illumination. At night, even in the absence of sunlight, electricity can be generated from various light sources such as street lights or the moon, but the output is very small. During fog, electricity is also produced, but again in negligible amounts.
If the solar panels become dirty, they can be cleaned with distilled water and a soft microfiber cloth. It is not recommended to clean the hot panels under the sun. It is not necessary to clean the panels from the layer of snow because, in a short time, they will be covered with snow again. As a rule, the panel needs to be cleaned at most once a year.)
A 1kW photovoltaic plant occupies an average of 5-7 square meters. In the case of large plants, a certain distance between rows of photovoltaic panels is also planned, which should also be taken into account when choosing an area.
The work depends on the volume, the period is approximately 10-15 days
Actually, solar plants are absolutely safe, but they are electrical after all, and to avoid problems arising from outages, it is recommended that the plant be completely switched off.
Solar power offers numerous benefits, including reduced energy bills, potential revenue from excess energy generation (net metering), decreased reliance on traditional energy sources, a positive environmental impact, and enhanced corporate social responsibility.
Most businesses with available roof space or land can benefit from solar power. However, factors like location, available sunlight, energy consumption, and budget play a role in determining feasibility. A solar energy provider can conduct an assessment to determine suitability.
The cost of a solar power system varies depending on factors such as system size, location, panel quality, installation complexity, etc.
While upfront costs might be significant, businesses often experience long-term savings that outweigh the initial investment.
Solar panels are relatively low-maintenance, requiring occasional cleaning to remove dirt and debris. Inverter maintenance and monitoring system upkeep are also essential.
While achieving complete energy independence through solar power alone may be challenging, businesses can significantly reduce reliance on traditional energy sources. Combining solar power with energy-efficient practices, battery storage, and grid connectivity can help minimize dependence on external energy sources.
Traditional grid-tied solar power systems are designed to shut down during a power outage for safety reasons. However, businesses can integrate battery storage systems to provide backup power during outages, allowing critical operations to continue.
No, solar panels alone cannot provide power during a grid outage. They are interconnected with the grid and do not function independently in the absence of grid power.
Solar panels require an active grid connection to function because they feed excess electricity back into the grid when generating more power than needed. Without the grid, they cannot operate.
Yes, a battery backup system can allow solar panels to continue generating power during a grid outage. The energy captured and stored in the batteries can be used to power essential appliances and devices in your home.
Battery backup systems are not required for solar installations and are considered an optional add-on. While they provide uninterrupted power during outages, they can be expensive, which may deter some homeowners from investing in them.
Battery backup systems offer numerous advantages, such as providing power during grid outages, reducing dependency on the grid, and potentially saving money in the long run by optimizing energy consumption.
Yes, the intentional design of solar systems to shut down during grid outages is for the safety of utility workers. When they are called out to repair the grid, it is crucial to ensure there is no electricity flowing from solar panels to prevent potential accidents.
If they don’t have battery backup systems, they will experience a power outage similar to their neighbors. During such times, it’s essential to have alternative plans in place, such as using backup generators or relying on grid power once it’s restored.
Yes, having a solar system can still offer benefits even without a battery backup. While it won’t provide power during outages, it can significantly reduce electricity bills and promote sustainable energy consumption.
Deciding on a battery backup system depends on individual needs, budget, and location. They should assess the frequency of grid outages, their reliance on consistent power, and the long-term cost-benefit of investing in such a system.
Yes, Solaron was founded in 2016, becoming the first company producing solar panels in Armenia. Our assembly line completely meets all international quality standards.
Yes, all our products have ISO 45001, 9001, 14001, and many other International certificates.
All our products go through 4 stages of control. From the very first moment of the production process, the panels go through the stages of quality, strength, durability, and efficiency testing.
All panels manufactured at Solaron are tested using an artificial solar simulation, during which all their parameters are specified and checked.
Our solar panels have a 30-year warranty, but with proper operation and maintenance can last longer.
Our factory is located in Yerevan: You can find us at 25/1 Arshakunyats Street.