Wholesale Solar Panels For Sale
Homeowners and all types of businesses these days are seeking ways to cut down on their power consumption bill and reduce the overall operational cost. For this purpose, solar energy is the best alternative for them to be cost-effective and energy-efficient. In the upcoming decade, energy costs are estimated to become double. Solar panels offer a smart energy solution for home and business owners and allow them to buy electricity at a set price per unit. This means homes and commercial properties of consumers will never be exposed to increased energy prices again, which will financial forecasting a lot easier. As a solar installer, it is a lucrative opportunity for your business to convey your message to both residential and commercial consumers that the longer they wait, the more costs they will have to pay for electricity. In the current scenario, for example, commercial prices for solar have dropped by 58% since 2012. However, the latest policy changes suggest that it will not be the case in the future anymore. In the US, the federal investment tax credit (ITC) for solar is currently equal to 30% of the amount of an eligible installation. It means if you invest $40,000 in solar, you could receive a $12,000 tax credit. However, the rate of ITC rate will go down to 26% in 2020, 22% in 2021, and 10% after 2021. Meanwhile, electricity prices will continue to increase year-over-year. So, the sooner consumers adopt solar energy, the more they can save.
The Major Types of Solar Modules
Most solar modules are currently produced from crystalline silicon (c-Si) solar cells that are made of multi-crystalline and monocrystalline silicon. In 2013, crystalline silicon accounted for more than 90% of worldwide PV production. Meanwhile, the rest of the overall market is made up of thin-film technologies that are using cadmium telluride, CIGS, and amorphous silicon. An emerging third generation of solar technologies makes use of advanced thin-film cells. They produce a relatively high-efficiency conversion for the low cost compared to other solar technologies. Additionally, high-cost, high-efficiency, and close-packed rectangular multi-junction (MJ) cells are preferably used in solar panels on spacecraft since they offer the highest ratio of generated power per kilogram lifted into space. MJ cells are compound semiconductors and are made of gallium arsenide (GaAs) and other semiconductor materials. Another emerging PV technology using MJ cells is concentrator photovoltaics (CPV). CPV also generates electricity from sunlight, but unlike conventional photovoltaic systems, it uses lenses or curved mirrors to focus sunlight onto small, highly efficient, MJ solar cells. Additionally, CPV systems often use solar trackers and sometimes a cooling system to further increase their efficiency.
A thin-film solar cell is a second-generation solar cell that is made by depositing one or more thin layers or thin-film (TF) of photovoltaic material on a substrate, such as glass, plastic, or metal. Thin-film solar cells are commercially used in several technologies, including cadmium telluride (CdTe), copper indium gallium diselenide (CIGS), and amorphous thin-film silicon (a-Si, TF-Si). In rigid thin-film modules, the cell and the module are manufactured in the same production line. The cell is created on a glass substrate or superstate, and the electrical connections are created in situ, a so-called “monolithic integration.” The substrate or superstate is laminated with an encapsulant to a front or back sheet, usually another sheet of glass. The main cell technologies in this category are CdTe, a-Si, a-Si+uc-Si tandem, or CIGS (or variant). Amorphous silicon has a sunlight conversion rate of 6-12%. Flexible thin-film cells and modules are created on the same production line by depositing the photoactive layer and other necessary layers on a flexible substrate. If the substrate is an insulator, like polyester or polyimide film, then monolithic integration can be used. But if it is a conductor, then another technique for electrical connection must be used. The cells are assembled into modules by laminating them to a transparent colorless fluoropolymer on the front side (usually ETFE or FEP) and a polymer suitable for bonding to the final substrate on the other side.
Crystalline silicon (c-Si) is the crystalline forms of silicon, either multi-crystalline silicon (multi-Si) that consists of small crystals or monocrystalline silicon (mono-Si) which is a continuous crystal. Crystalline silicon is the dominant semiconducting material that is used in photovoltaic technology for the production of solar cells. These cells are then assembled into solar panels as part of a photovoltaic system to generate solar power from sunlight. Solar cells that are made of crystalline silicon are usually called conventional, traditional, or first-generation solar cells. This is because they were developed in the 1950s and remained the most common type up to the present time. Because of the fact that solar cells made of crystalline silicon are produced from 160-190 micrometer thick solar wafers, they are oftentimes called wafer-based solar cells. Furthermore, solar cells that are made from c-Si are single-junction cells and are generally more efficient than their rival technologies, which are the second-generation thin-film solar cells, such as CdTe, CIGS, and amorphous silicon. In particular, amorphous silicon is an allotropic variant of silicon, and amorphous means “without shape” to describe its non-crystalline form.
Organic Solar Cell
An organic solar cell (OSC), also known as a plastic solar cell, is a type of photovoltaic that makes use of organic electronics, which is a branch of electronics that deals with conductive organic polymers or small organic molecules, for light absorption and charge transport to produce electricity from sunlight by the photovoltaic effect. Most organic photovoltaic cells are polymer solar cells. The molecules used in organic solar cells are solution-processable at high throughput and are cheap, thus resulting in low production costs to fabricate a large volume. Combined with the flexibility of organic molecules, organic solar cells are potentially cost-effective for photovoltaic applications. In addition to that, the optical absorption coefficient of organic molecules is high, so a large amount of light can be absorbed with a small number of materials, usually on the order of hundreds of nanometers. The primary disadvantages that are associated with organic photovoltaic cells are low efficiency, low stability, and low strength compared to inorganic photovoltaic cells such as silicon solar cells. Additionally, when compared to silicon-based devices, polymer solar cells are lightweight (which is important for small autonomous sensors), potentially disposable and inexpensive to fabricate, flexible, customizable on the molecular level, and potentially have a less adverse environmental impact. Polymer solar cells also have the potential to exhibit transparency, thus suggesting applications in windows, walls, and flexible electronics. The inefficiency and stability problems that polymer solar cells have, along with their promise low costs, actually made them a popular field in solar cell research. As of 2015, polymer solar cells were able to achieve over 10% efficiency via a tandem structure. In 2018, a record-breaking efficiency for organic photovoltaics of 17.3% was reached via a tandem structure.
Monocrystalline vs. Polycrystalline
As the name suggests, both monocrystalline and polycrystalline are types of solar cells that are made from crystalline silicon. To start with, monocrystalline is the oldest and most developed of the current solar cell technologies. Monocrystalline panels are created from a single continuous crystal structure. As such, they can be identified as the solar cells that all appear as a single flat color. On the other hand, polycrystalline solar panels are made from silicon as well. However, instead of using a single crystal of silicon, manufacturers melt many fragments of silicon together to form the wafers for the panel. Because of this, polycrystalline solar panels are also sometimes referred to as “multi-crystalline” or many-crystal silicon. Additionally, polycrystalline solar panels tend to have a blue hue instead of the black hue of monocrystalline panels. Between the two, monocrystalline solar panels are generally thought of as the premium solar product. This is because the cells are composed of a single crystal, thus allowing the electrons that generate a flow of electricity to have more room to move. In other words, monocrystalline panels have higher efficiencies, and they also have sleeker aesthetics. Meanwhile, since polycrystalline have many crystals in each cell, there is less freedom for the electrons to move. As a result, they have lower efficiency ratings than monocrystalline panels. That said, however, polycrystalline solar panels have the main advantage of a lower price point. That is why they are still popular in the solar industry as of right now.
Transparent Solar Panel
As the name suggests, a transparent solar panel is a solar panel that is either partially or completely transparent. Conventional solar panels absorb sunlight and convert photons into usable energy. The difficulty with making transparent solar panels is that the sunlight passes through the transparent material. This means that the process that generates the electricity in the solar cell cannot be started because no light is absorbed. As of right now, there is still a long way to go before transparent solar panels become a reality. But there have already been innovations that will definitely lead to the progress of this particular technology.
Nanoparticle Solar Panels
Silicon nanoparticles exhibit many useful properties — some of which include an active surface state, low bulk density as well as unique photoluminescent and biocompatible properties. As a result, these nanoparticles are usually incorporated into lithium-ion batteries, solar energy cells, micro, and integrated semiconductors, and luminescent display devices. When applied for solar energy products, the size and microstructure of silicon nanoparticles, including their luminescence and quantum efficiency properties, are highly specific. Nanotechnology offers a lot of benefits for the manufacturing of solar panels. In particular, it reduces manufacturing costs as a result of using a low-temperature process instead of the high-temperature vacuum deposition process that is typically used to produce conventional cells made with crystalline semiconductor materials. Additionally, it also reduces installation costs, achieved by producing flexible rolls instead of rigid crystalline panels. As of right now, available nanotechnology solar cells are not as efficient as traditional ones, but the lower cost offsets this. In the long run, nanotechnology versions should both be lower cost and, using quantum dots, should be able to reach higher efficiency levels than conventional ones.
Infrared Plastic Solar Cell
Researchers at Idaho National Laboratory, along with partners at Lightwave Power Inc. in Cambridge, MA and Patrick Pinhero of the University of Missouri, have devised an inexpensive way to produce plastic sheets containing billions of nanoantennas that collect heat energy generated by the sun and other sources. These nanoantennas target mid-infrared rays, which the Earth continuously radiates as heat after absorbing energy from the sun during the day. Aside from that, double-sided nanoantenna sheets can also harvest energy from different parts of the sun’s spectrum. This is an advantage considering that traditional solar cells can only use visible light, thus rendering them idle after dark. With this, the next generation of solar cells could be produced using a new semiconductor alloy that can capture the near-infrared light on the leading edge of the visible light spectrum. In other words, this infrared plastic solar cell can turn the sun’s power into electric energy even on a cloudy day. Just like the nanoparticle solar cells, infrared plastic solar cells also make use of nanotechnology.
UV Solar Cell
Japan’s National Institute of Advanced Industrial Science and Technology (AIST) has succeeded in developing a transparent solar cell that utilizes ultraviolet (UV) light to generate electricity but allows visible light to pass through it. This transparent, UV-absorbing system was achieved by using an organic-inorganic heterostructure made of the p-type semiconducting polymer PEDOT: PSS film deposited on a Nb-doped strontium titanate substrate. These solar cells are only activated in the UV region and result in a relatively high quantum yield of 16% electron/photon. Future work in this technology involves replacing the strontium titanate substrate with a strontium titanate film deposited on a glass substrate in order to achieve low-cost, large-area manufacturing.
Main features of Monocrystalline, Polycrystalline, and Thin-Film solar panels:
- Highly efficient in terms of quality of panels and output
- Has an aesthetic appeal.
- Low cost
- Less efficient
- Thin-film Solar
- Easy to move and flexible
- Aesthetic appeal
- Features of Quality Wholesale Solar Panels:
- High silicon mix in the panels
- Deliver high energy output and durable
- Consistent performance
- Best for installing on roofs
If you have thought about buying quality and branded solar panels but their high prices in the retail market are forcing you to back off, do not worry. Check out our website for various wholesale solar panel manufacturers, and buy panels in bulk at low cost.
How Supplying Quality Solar Panels Can Expand Your Business?
Solar energy saves money for residential and commercial consumers that they would otherwise spend on electricity bills. In fact, the savings on energy bills are substantial. According to a survey carried out by SunPower a couple of years back, nearly 87% of businesses said that saving money is one of the major reasons for initiating solar projects. Some of the projects forecasted to save thousands of dollars in electricity costs during the lifespan of their solar system. That kind of saving surely leaves a positive impact on a business’s bottom line. This is why opting for solar is not just a financial decision, it is a major environmental aspect as well. Both residential and commercial consumers look for saving their costs of electricity in the long run. The only difference is businesses that have a focus on sustainability are likely to experience powerful brand effects and customer loyalty. The reason is using solar panel systems and promoting renewable and sustainable energy make a strong statement to customers.
The Cost Factor of Solar Business
You are required to shell out substantial prices if you are looking to buy solar panels from the retail market and supply them to your customers. Also, the profit margin will be narrow due to the prevalent high prices in the market. On the other hand, to obtain shipments of wholesale solar panels in bulk quantity, the cost will be significantly lower. If you seek franchise opportunities, for that too, you need to pay a large sum just to gain access to the process. This is why getting into partnerships with one or multiple solar panel manufacturers will provide you more options to obtain panels of various brands.
How to Make Your Solar Business more Profitable?
Your biggest costs to run your solar installation business are purchasing solar panels from the distributor and paying your staff. You can control bring down costs by purchasing panels in bulk and using them for different installation jobs. This way you can lower your per-unit cost and increase profit.
Why Buy Wholesale Solar Cells on SolarFeeds?
Wholesale suppliers supply a wide range of panels, including Rooftop Solar Panels and Utility-Scale Solar Panels. The manufacturers listed on our website supply wholesale solar panels that can help you cut down on your buying cost and provide you with the scope to earn more revenues. You can get the service of bulk shipping solar panels to supply and meet your customers’ needs. You will find a vast range of solar panels from reputable brands. The range includes Monocrystalline and Polycrystalline silicon panels that are of the best quality. In addition, the costs of products the manufacturers are much lower than available in the market. All these esteemed solar panel manufacturers have been doing business for years, We and supplying various monocrystalline and polycrystalline silicon solar panels that are acclaimed worldwide. You will find solar panels of various capacities starting from 3 watts to 250 watts. We can help you and show how you can yield long-term benefits from buying wholesale solar panels from our website. Send an email to us with your questions at firstname.lastname@example.org In 2010, a total of 15.9 GW of solar PV system installations were completed. During the same year, the solar PV pricing survey and market research company PVinsights reported that there was a growth of 117.8% in solar PV installation on a year-on-year basis. Because of the over 100% year-on-year growth in PV system installation, PV module manufacturers dramatically increased their shipments of solar modules in 2010. They actively expanded their capacity and turned themselves into GW players. According to PVinsights, five of the top ten PV module companies in 2010 are GW players. The basis of producing solar panels revolves around the use of silicon cells. These silicon cells are usually 10-20% efficient at converting sunlight into electricity, with newer production models now exceeding 22%. So as to make solar panels more efficient, researchers all over the world have been trying to develop new technologies to make solar panels more effective at turning sunlight into energy. As of right now, there are thousands of solar panel manufacturers all over the world. The following are only some of them.
Top Solar Panel Manufacturers in China
- Trina Solar. Founded in 1997, Trina Solar Ltd. delivers PV products, applications, and services to promote global sustainable development.
- China Sunergy. Founded in 2006, China Sunergy specializes in creating solar cells from silicon wafers, and they both use monocrystalline and multi-crystalline silicon solar cells for this.
- DelSolar Co., Ltd. is a solar company that engages in the research, design, manufacture, and distribution of solar cells, solar modules, as well as the development of the photovoltaic system.
- JA Solar Holdings. Founded in 2005, JA Solar Holdings covers the design, development, manufacturing, and sale of silicon wafers, batteries, modules, and photovoltaic power plants.
- Motech Industries. Founded in 1981, Motech Industries Inc., also known as Motech Solar, is dedicated to the research, development, and manufacture of high-quality solar products and services, ranging from photovoltaic (PV) cells, PV modules, to PV systems.
- Suntech Power. Founded in 2001, Suntech Power Holdings Co., Ltd. is engaged in the research, development, and production of crystalline silicon solar cells and modules.
- Yingli Solar. Yingli Solar, formerly known as Yingli Green Energy Holding Company Limited, covers the manufacturing of the photovoltaic value chain from ingot casting and wafering through solar production and solar panel assembly.
- Jinko Solar. Jinko Solar is a solar panel manufacturer headquartered in Shanghai. Founded in 2006, the company started out as a wafer manufacturer and went public on the New York Stock Exchange in 2010.
- Shunfeng International Clean Energy. Shunfeng International Clean Energy Limited, commonly known as SFCE Solar, aims to create a low-carbon environment through its integrated photovoltaic services and solar power stations constructions and operations, and manufacturing of solar power products as well as solar energy storage.
- Hanwha Q CELLS. Founded in 2012, Hanwha Q CELLS company is known for its high-quality, high-efficiency solar cells and solar modules, and it offers a wide variety of photovoltaic products, applications and solutions, solar modules, solar kits, and also large-scale solar power plants.
Top Solar Panel Manufacturers in the Middle East and North Africa (MENA) Region
- A.R.E. Group. The A.R.E. Group was established in October 2014 with the primary goal of bringing state-of-the-art solar solutions and silicon technologies to Egypt.
- SARL Algerian PV Company. Established in 2010 in Algeria, SARL Algerian PV Company, or ALPV for short, is a company that is engaged primarily in the manufacturing of solar PV panels.
- Atom Enerji. Since the company’s establishment in 2012, Atom Enerji has manufactured primarily solar panels and off-grid solar system equipment.
- Aures Solaire. Aures Solaire is a solar panel manufacturer that is based in Algeria.
- Aurasol. Established in April 2011, Aurasol is a company based in Tunisia that engages primarily in the renewable energy sector.
- Copex Solar Energy Systems and Trading. Copex Solar Energy Systems and Trading is a renowned manufacturer of power backup and power conditioning systems that was established in 2012 at Dubai, U.A.E.
- Cleanergy Morocco. Established in 2010, Cleanergy Morocco is a company created by engineers with long experience in the high technology industrial field as well as practical experience for the preservation of the environment.
- DuSol Industries. DuSol Industries is the first PV module manufacturing company that is based in Dubai, U.A.E.
- Egyptian German Co. Trading and Supply. Egyptian German Co. Trading and Supply (EGTS) is a company that aims to introduce the solar energy system to the Egyptian market.
- Emirates Insolaire. Established in 2013 in Dubai, U.A.E., Emirates Insolaire LLC is a joint venture of Dubai Investments PJSC and SwissINSO Inc. that specializes in the manufacturing of solar products.
Top Solar Panel Manufacturers in India
- Vikram Solar. Formerly known as Vikram Solar Pvt. Ltd. is a company that specializes in high-efficiency PV module manufacturing comprehensive solutions.
- Waaree Energies. Founded in 1989 in Mumbai, India, Waaree Energies Ltd. is a solar manufacturing company that focuses on providing EPC services, project development, rooftop solutions, solar water pumps, as well as an Independent Power Producer.
- Goldi Green Technologies. Goldi Green Technologies only began in 2011 with a 10 MW production capacity, but despite its humble beginnings, the company has become one of the fastest-growing solar PV module manufacturers.
- Tata Power Solar. Tata Group was established by Jamsetji Tata in the second half of the 19th century, thus making it one of the biggest and most respected business organizations in the world.
- Loom Solar. Loom Solar is an Indian solar brand store that sells solar systems, solar panels, solar inverters, and solar chargers.
- Moser Baer Solar. Established in 1983 in New Delhi, Moser Baer India Ltd. (MIBL) is one of the leading technology companies in India.
- XL Energy. Formerly known as XL Telecom and Energy Limited, XL Energy Limited aims to provide end-to-end solutions in the field of solar power with expertise in the field of production of solar PV modules.
- Emmvee Photovoltaics. Since its founding in 1992, Emmvee Photovoltaics Private Limited has been developing various centers of excellence in solar water heating systems, photovoltaics, and other industrial products.
- Navitas Green Solutions. Navitas Solar is the latest venture into renewable energy by a group of companies that have a rich history of over four decades in engineering and manufacturing activities.
- Saatvik Green Energy. Saatvik Green Energy actively supports the global effort to energize the world through alternate and greener sources of energy.
Top Solar Panel Manufacturers in Europe
- SolarWorld. SolarWorld is a German company that is dedicated to the manufacturing and marketing of photovoltaic products all over the world.
- REC Group. Based in Norway, REC Group was founded in 1996 and has since become one of the world’s leading providers of solar energy solutions.
- Kioto Solar. Founded in 2007, Kioto Solar is an Austria-based provider of solar thermal and PV systems.
- Photowatt. Photowatt is a manufacturer of photovoltaic panels from France.
- Victron Energy. Victron Energy is a solar manufacturing company that was founded in 1975 in the Netherlands.
- Lorentz. Founded in Germany in 1993, Lorentz is a company that has pioneered, innovated, and excelled in the engineering and manufacturing of solar-powered water pumping.
- ATERSA Group. From the company’s establishment, ATERSA has developed, manufactured, and commercialized all the components needed for the configuration of a solar PV system.
- Megasol Energy. Founded by Markus Gisler when he was only 12, Megasol Energy has transformed from being a garage company to becoming one of the leading solar manufacturing companies in all of Europe.
- AE Solar. Founded by Dr. Alexander Maier and his brothers Waldemar Maier and Victor Maier, AE Solar GmbH is a German renewable energy manufacturing company.
- Luxor Solar. Luxor Solar is a premium manufacturer for solar modules since 2004.
Top Solar Panel Manufacturers in the United States of America
- SolarTech Universal. SolarTech Universal is an American solar panel manufacturing company that is based in Riviera Beach, Florida.
- SunSpark Technology. SunSpark Technology is relatively new to the solar panel manufacturing business, but the company is still considered as a globally recognized brand for solar panel manufacturers.
- SolarWorld Americas. Founded in 1975 as Solar Technology International, SolarWorld Americas is the longest operating solar manufacturer in the Earth’s western hemisphere.
- Tesla Energy/Panasonic. In 2018, Tesla Energy has partnered with Panasonic to manufacture solar panels in the United States.
- CertainTeed Solar. Founded in 1904 as General Roofing Manufacturing Company, CertainTeed is one of the leading brands of exterior and interior building products in North America.
- First Solar. First Solar has developed, financed, engineered, constructed, and operated many of the world’s largest grid-connected PV power plants.
- Global Solar Energy. Founded in 1996, Global Solar Energy has evolved into a leading manufacturer of thin-film Copper Indium Gallium diSelenide (CIGS) solar solutions.
- GreenBrilliance. GreenBrilliance is a vertically integrated, end-to-end alternate energy services provider.
- LG Solar U.S.A. LG manufactures and sells a wide variety of electronic products, and as of right now, they have started to manufacture and sell solar panels as well.
- Lumos Solar. Founded in 2006, Lumos Solar is committed to facilitating the widespread adoption of solar energy as they believe that this is the way to ensure the future health of our planet.
An Analysis of Bulgaria’s budding solar market
During the forecast period, the Bulgarian solar energy market is expected to grow by more than 2%. Clean and alternative energy sources are believed to reduce carbon emissions primarily as a result of government initiatives. Market growth is expected to be hindered by factors, such as delays in projects, during the forecast period.
In addition, Bulgaria has received EUR 15 million from the European Investment Bank to support climate action projects, which should aid in the growth of the solar power market.
According to estimates, solar installed capacity will increase from 1065 megawatts (MW) in 2019 to 1,180 MW in 2025 with this investment. Moreover, by 2025, the electricity generation is projected to increase to about 1,340 gigawatts hour (GWh).
Bulgaria is expected to grow at a significant rate due to the government’s ongoing efforts and plans for the future.
Bulgaria’s solar equipment production and supply capacity
There are several suppliers and manufacturers of solar equipment operating within the Bulgarian market. If you want to purchase solar equipment, SolarFeeds is the best option. Our online marketplace gives you access to the top solar equipment brands in the world. We are your go-to partner if you’re looking for quality equipment at an affordable price.
Major ports and logistics services in Bulgaria
There are several seaports in Bulgaria, including:
- Stara Zagora
If the need arises, you will not have a problem importing quality solar equipment. After arriving at the port, the equipment can be safely transported to the project site using any of Bulgaria’s leading logistics companies, including:
- Rhenus Logistics Bulgaria
- VIA Logistics