Everything You Need To Know About Polycrystalline Solar Panels

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Solar energy extraction is getting more popular day by day. New applications are being designed to optimize energy extraction. One such model is the polycrystalline solar panel model.

A polycrystalline solar panels is a model in which a photovoltaic model is induced to generate electricity from solar energy. As the polycrystalline solar panel is installed with multiple crystals or grains of silicon crystals, it is termed a polycrystalline solar panel.

How Are Polycrystalline Solar Panels Manufactured?

Manufacturing such polycrystalline solar panels usually involves technical procedures to extract silicon crystals. Molten silicon is first put into large blocks wherein it gets cool-downed and then solidifies. This results in the silicon grains forming a crystal-like structure forming a mosaic pattern with the appearance of a texture.

Bluebird is one of the best manufacturers of polycrystalline solar panels in the market. The 300-watt solar panel of 24 volts is a high-selling model. Itis designed in an efficient manner that helps generate maximum electricity from sunlight. This solar panel has a glass shield coated with AR. This helps in absorbing maximum sunlight, resulting in maximum electricity generation.

Features and characteristics of Polycrystalline Solar Panels

The polycrystalline solar panel manufactured by Bluebird has certain outstanding and unique features that have enhanced its market demand. The features of this 300-watt solar panelcomprise the following-

● The technology infused in the processing of the solar panel is highly cost-effective. Modern polycrystalline technology has been followed in the manufacturing of such solar panels, which makes them efficient as well as affordable.

● The solar panels are built with the highest quality solar cells. A-grade 5BB solar cells are installed in the solar panel, making the panel work more efficiently.

● The base structure of the panel is anodized with silver. The presence of silver makes the process more coherent. Silver is an excellent conductor of electricity. So mounting the holes and frames with silver anodized aluminum makes its installation faster and easier.

● Such silver anodized aluminum sheets make conducting and extracting electricity possible even during low sunlight or cloudy days.

● This 300-watt solar panel has been tested through double EL for major hot spots and microcrack-free solar modules.

● The junction box installed in the system is IP68 rated, which makes it resistant to water and dust. The junction box also contains a 4mm cable and 2 MC4 connectors.

● To make the most out of this efficient solar panel, it is designed in a way such that it can work even on minimum voltage level inverters. This solar panel works best with a 24V inverter and a 24V battery set-up. It will give the most efficient output.

● This solar panel model is manufactured per every listed complies of IEC and ALMM. This product is also certified by the BIS.

The 300-watt solar panels areone of the most cost-efficient models available. The solar panel 300-watt priceis much more affordable, effective workflow, and easy installation.

Application of Polycrystalline Solar Panels

Polycrystalline solar panels have multi-purpose usage. They can perform numerous tasks only with a single installation. The applications of polycrystalline solar panels are listed below-

● Residential Solar Power Generation

The 300-watt solar panelshave an easy installation process, so individual homes install them on their rooftops. The solar panel 300-watt price, being an affordable option for house-owners, helps them reduce the usage of grid power energy, reducing the electricity bills generated.

● Commercial and Industrial Solar Power Generation

Polycrystalline solar panels have the capacity to generate and regulate electricity in commercial and industrial sectors. These solar panels are installed on the rooftops of commercial buildings, factories and warehouses, and other industrial structures to generate electricity and utilize the same for various purposes.

● Solar Farms

Polycrystalline solar panels have a huge implementation in solar power plants. These solar panels are arranged in arrays in solar farms, making it efficient to generate tons of electricity in one go.

● Solar Street Lights

Polycrystalline solar panels are used in charging street lights. The lights get charged throughout the day and save solar energy, which then gets used at night to light up the street lights.

● Water Pumping System

Polycrystalline solar panels can charge water pumps installed in factories or farms. This process enables the process of extracting water from water bodies like wells, rivers, etc., without using any grid electricity.

These are some of the many implementations and applications of the 300-watt solar panel. The versatility and cost-friendly structure of such polycrystalline panels makes them more popular among commoners. This, in turn, is making the planet more sustainable.

Some Other Uses of Polycrystalline Solar Panels

Polycrystalline solar panels are also used to power filling stations, large-scale solar projects, cold storage, etc. The solar panels are undergoing and are controlling maximum electric-centric tasks. Being one of the most cost-effective choices, its popularity is increasing.

Specifications of A 300-Watt Solar Panel

A 300-watt solar panel is installed with the below-mentioned specifications-

SPECIFICATIONDESCRIPTION
Power output300 watts
Cell typePolycrystalline Silicon
Number of cellsUsually 66-5BB full cells(varies accordingly)
Cell efficiency15%-18%
Module efficiency14%-16%
Frame materialAluminum alloy
Glass materialTempered Glass
Junction box1000V DC
Performance Warranty25 years
CertificationsALMM Listed, IEC Certified, BIS Certified

These are some of the common specifications of polycrystalline solar panel that you must know before you buy one.

Conclusion

The utility and effectiveness of such solar panels are increasing day by day. The installation procedures have been technically simplified, which makes its wide availability and easy accessibility. Polycrystalline solar panels have the capacity to provide electricity to even an entire city. The utilization of such solar panels has been cost-cutting the high-maintenance grid-generated electricity. Solar panels can be used in every household chore, starting from electricity generation, water pumping, water heating, cooking, etc. Similarly, it has a large-scale implementation in commercial and industrial sectors. Solar panels are in high demand with their versatile features and optimized and effective workflow.