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U Plus Series Pitched Roof Mounting System

U Plus series is the new pitched roof mounting system products of Enerack.

1.Use the U type rail and Aluminum clamps combination make installation easier and faster than traditional installation methods,saving more time for installer;

2.Hidden rail connection will be more beautiful and integrated,completely avoiding mutual interference with mid clamp;

3.The U type design of R43 rail can store cables inside the U type rail,making it more neatly and beautiful;

4.U Plus series can be fully compatible with the existing standard products of Enerack,so for this not need to worry;

5.We offer two colors silver and black oxidation for your choose.

 

Click here for details U plus solar mounting systems.

Solar mounting systems

Solar mounting systems

Solar mounting systems

Solar mounting systems



 

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What are the advantages of solar carports?

 

Solar carports are a rapidly growing trend in the renewable energy and transportation sectors, offering numerous advantages for both individuals and businesses. Enerack is professional solar carport mounting system manufacturer, our PV carport mounting system offers a simplified and economical solutions that provides a perfect combination of shade parking and solar power generation as well as electric vehicle charging. It applied for family parking, commercial parking, awnings and even bus stops. A residential solar carport is more than just a car shelter with a PV system. Solar carports are highly versatile and provide many opportunities to reduce carbon footprint as well as energy costs.

 

Standard carport system

solar carport mounting system

 

 

Here are some key advantages of solar carports:

1. Clean, Renewable Energy Generation: Solar carports harness the power of the sun to generate clean, renewable energy. By installing solar panels on carports, ample energy can be produced while reducing reliance on fossil fuels and decreasing carbon emissions.

2. Shaded Parking and Weather Protection: Solar carports provide shade for parked vehicles, protecting them from direct sunlight, rain, hail, and other weather elements. This helps preserve the condition and lifespan of vehicles, minimizing the need for costly maintenance and repairs.

3. Cost Savings: Solar carports offer significant cost savings in multiple ways. Firstly, they generate electricity that can offset or even eliminate utility bills. By utilizing the solar energy generated, car owners can reduce their reliance on the grid and save money in the long run. Additionally, solar carports can also provide covered parking, which can save vehicle owners money on expensive indoor parking fees.

4. Increased Property Value: Installing a solar carport can enhance the overall value of a property. Solar-powered amenities are highly desirable among homebuyers and businesses alike, as they demonstrate a commitment to sustainability and reduced energy costs. This can lead to higher property resale values and attract environmentally conscious buyers.

5. Sustainable Branding and Marketing: For businesses, solar carports offer an opportunity to showcase their commitment to sustainability and environmental responsibility. By prominently displaying solar panels and promoting clean energy initiatives, companies can strengthen their brand image and attract environmentally conscious customers. This can enhance marketing efforts and differentiate businesses from competitors.

Solar carports provide a range of advantages, including clean energy generation, weather protection for vehicles, cost savings, increased property value, and sustainable branding opportunities. As the world continues to embrace renewable energy solutions, Enerack solar carports offer a practical and environmentally friendly option for both individuals and businesses.

 

Waterproof standard carport system

solar carports



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Exciting News! Construction Begins for 0.34MW Xiamen National Institute of Accounting Solar Power Project!

 

On March 27, 2024, C&D Inc (600153. SH) announced the official commencement of construction for the integrated project of the 0.34MW Xiamen National Institute of Accounting Distributed Photovoltaic Power Station and Charging Pile under C&D Emerging Energy Co., Ltd.

Located within the scenic Xiamen National Institute of Accounting, the project covers an area of 1650 square meters, including 450 square meters of roof area and 1200 square meters of carport area (BIPV). The project has a capacity of 0.34 megawatts. The power station consists of 586 pieces of 580W/panel high-efficiency monocrystalline silicon solar modules and 3 units of 125KW inverters, utilizing a 380V low-voltage grid connection distribution system. The project adopts the "self-generation for self-use" model, essentially achieving 100% self-consumption.

 

According to calculations, it is estimated that the average annual electricity generation after the completion of the project could reach 373,000 kWh, saving approximately 134 tons of standard coal per year and reducing carbon dioxide emissions by about 371 tons, thus demonstrating significant social, economic, and environmental benefits.

 

Xiamen National Institute of Accounting (a research institute directly under China's Ministry of Finance) is an important training base for high-level financial and accounting talents in China. It is the location of the "Belt and Road" Financial and Economic Development Research Center and ESG Research Center initiated by the Chinese government. It is a modern, intelligent, and landscaped training, teaching, and research institution with international standards, dedicated to promoting the concept of green energy and sustainable development.

 

By collaborating with Xiamen National Institute of Accounting, C&D Emerging Energy Co., Ltd responds to the national dual-carbon policy, fully utilizes roof resources and abundant solar energy resources for photovoltaic power generation, jointly undertaking the social responsibility of energy conservation and emission reduction, and establishing a positive corporate and university image.

 

The groundbreaking of the 0.34MW photovoltaic power station project at Xiamen National Institute of Accounting signifies C&D Emerging Energy Co., Ltd's firm step forward in the construction of distributed photovoltaic power stations. In the future, C&D Emerging Energy Co., Ltd will continue to delve into the investment and development of distributed photovoltaics and other new energy fields, making unremitting efforts to create a green living environment and contribute to the nation's goals of peak carbon emissions and carbon neutrality.

 

Located within the scenic Xiamen National Institute of Accounting, the project covers an area of 1650 square meters, including 450 square meters of roof area and 1200 square meters of carport area (BIPV). The project has a capacity of 0.34 megawatts. The power station consists of 586 pieces of 580W/panel high-efficiency monocrystalline silicon solar modules and 3 units of 125KW inverters, utilizing a 380V low-voltage grid connection distribution system. The project adopts the "self-generation for self-use" model, essentially achieving 100% self-consumption.

 

According to calculations, it is estimated that the average annual electricity generation after the completion of the project could reach 373,000 kWh, saving approximately 134 tons of standard coal per year and reducing carbon dioxide emissions by about 371 tons, thus demonstrating significant social, economic, and environmental benefits.

 

Xiamen National Institute of Accounting (a research institute directly under China's Ministry of Finance) is an important training base for high-level financial and accounting talents in China. It is the location of the "Belt and Road" Financial and Economic Development Research Center and ESG Research Center initiated by the Chinese government. It is a modern, intelligent, and landscaped training, teaching, and research institution with international standards, dedicated to promoting the concept of green energy and sustainable development.

 

By collaborating with Xiamen National Institute of Accounting, C&D Emerging Energy Co., Ltd responds to the national dual-carbon policy, fully utilizes roof resources and abundant solar energy resources for photovoltaic power generation, jointly undertaking the social responsibility of energy conservation and emission reduction and establishing a positive corporate and university image.

 

 

The groundbreaking of the 0.34MW photovoltaic power station project at Xiamen National Institute of Accounting signifies C&D Emerging Energy Co., Ltd.'s firm step forward in the construction of distributed photovoltaic power stations. In the future, C&D Emerging Energy Co., Ltd will continue to delve into the investment and development of distributed photovoltaics and other new energy fields, making unremitting efforts to create a green living environment and contribute to the nation's goals of peak carbon emissions and carbon neutrality. 

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Unveiling SpolarPV's S-Elite 495W Solar Panel Durability and Efficiency Redefined


Introduction:

 

SpolarPV proudly introduces the latest addition to our S-Elite series – the S-Elite 495W Solar Panel. In this blog, we delve into the exceptional durability and efficiency of this cutting-edge solar solution.

 

Durability Against Extreme Environmental Conditions:

 

The S-Elite 495W Solar Panel is engineered to withstand the harshest environmental conditions with ease. Its robust design ensures durability against extreme weather, high mechanical loads, and even potential-induced degradation (PID), guaranteeing optimal performance and longevity.

 

Efficiency Beyond Expectations:

 

Powered by TOPCon (Tunnel Oxide Passivated Contact) technology and featuring 182mm PERC solar cells utilizing half-cut cell technology, the S-Elite 495W panel achieves an outstanding 22.86% conversion efficiency. This remarkable efficiency ensures maximum power generation, even in challenging conditions, making it a reliable choice for both residential and commercial applications.

 

Anti-Reflection Coating for Enhanced Performance:

 

Equipped with anti-reflection coating, the S-Elite 495W Solar Panel minimizes light reflection, optimizing energy absorption and performance. This feature ensures consistent and efficient energy production throughout its operational life.

 

Conclusion:

 

SpolarPV's S-Elite 495W Solar Panel sets a new standard in durability and efficiency, providing a reliable and sustainable energy solution for various applications. With its robust construction, high conversion efficiency, and resistance to extreme environmental conditions, this solar panel is poised to redefine the future of solar energy generation. Experience unmatched durability and efficiency with SpolarPV's S-Elite 495W Solar Panel today.

495w solar panel

 

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Residential Solar System

A residential solar system is a device that converts solar energy into electricity, providing clean and renewable energy for households. With the emphasis on environmental protection and sustainable development, more and more households are starting to install residential solar system.                         

The residential solar system consists of solar panels, inverters, batteries, controllers, etc. The solar panel collects solar energy and converts it into direct current energy. The inverter converts direct current into commonly used alternating current. The battery is used to store excess energy for emergency use, and the controller monitors and regulates the system.                           

The advantages of koodsun residential solar system are self-evident. Firstly, it can reduce dependence on traditional energy, reduce carbon emissions, and thus reduce negative impacts on the environment. Secondly, as solar energy is a renewable energy source, residential solar system can be used for a long time, greatly reducing the long-term cost of household energy. In addition, the installation and maintenance of residential solar system are also very simple, as it is only necessary to regularly clean the solar panels to keep them in good working condition at all times.

 

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What is the difference between \"off-grid\" and \"grid-connected\" power generation systems?

According to the existing photovoltaic power generation projects on the market, combined with different application scenarios, solar photovoltaic power generation systems can be roughly divided into five types: grid-connected power generation systems, off-grid power generation systems, off-grid energy storage systems, and grid-connected energy storage systems and a variety of energy hybrid micro-grid systems.

And off-grid energy storage system

It is composed of photovoltaic modules, solar energy and off-grid integrated machine, battery (energy storage), load, etc. It is widely used in scenarios such as frequent power outages or photovoltaic self-use without surplus electricity, self-use electricity price is more expensive than on-grid electricity price, peak electricity price is more expensive than valley electricity price, etc.

The photovoltaic array converts solar energy into electrical energy under the condition of light, and supplies power to the load through the solar controller inverter integrated machine, and at the same time charges the battery; when there is no light, the battery supplies power to the solar controller inverter integrated machine. Then supply power to the AC load function. Dual mode switching to ensure power supply requirements.

Photovoltaic grid-connected energy storage system

It consists of photovoltaic modules, solar controllers, batteries, grid-connected inverters, current detection devices, loads, etc. It can increase the proportion of spontaneous self-use.

When the solar power is less than the load power, the system is powered by the solar power and the grid together. When the solar power is greater than the load power, the solar power supplies the load while storing the excess electricity through the inverter.

Microgrid system

A power distribution network composed of distributed power sources, loads, energy storage systems and control devices. The distributed energy can be converted into electrical energy on the spot, and then supplied to the local load nearby.

The microgrid system is an autonomous system capable of self-control, protection and management. It can not only be connected to the external power grid, but also can operate in isolation, which greatly solves the problem of distributed power grid connection and promotes the integration of distributed power The large-scale access of renewable energy is an efficient supply of multiple forms of energy for the load, and a smart grid system that realizes the active distribution network.

Secondly, let's talk about the difference between photovoltaic grid-connected and off-grid?

Photovoltaic grid-connected systems rely on the power grid and adopt the working mode of "spontaneous self-use, surplus electricity connected to the grid" or "full grid connection", while off-grid systems do not depend on the grid, relying on "storage while using" or "store first and use later". working mode.

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Learning about Common Defects of Photovoltaic Modules

Crystalline silicon photovoltaic modules are an important part of the photovoltaic power generation system. The quality of the modules directly affects the power generation performance of the power station. The main components are tempered glass, EVA, cells, ribbons, backplanes, frames, junction boxes, sealants, etc. Material properties and common appearance defects are as follows:

Learn to understand the composition and structure of photovoltaic modules

1. Cells

Crystalline silicon cells are mainly made of semiconductor silicon. After the light is irradiated on the semiconductor, the P-N junction of the cell receives light (the P-type junction is silicon doped with trivalent boron, the N-type junction is silicon doped with pentavalent phosphorus, the junction of the two is the P-N junction, and silicon is tetravalent Semiconductors) create a potential difference and thus a current flow. At present, the thickness of the cell is 200±20μm, and it is easy to be damaged by force during the production process. The common problems are shown in the figure below:

2. Ribbon

The soldering strips used in multibusbar solar photovoltaic modules are tin-coated copper strips, which are divided into interconnection strips and bus strips. The interconnection strips are used to connect battery sheets, and the bus strips are used to connect battery strings, which play the role of conducting electricity and collecting electricity; common defects at the welding strips include welding There are material problems and welding problems, as shown in the figure below:

3. Glass

The photovoltaic module adopts low-iron toughened suede glass (or coating), which has the protection of battery cells, waterproof, high light transmittance, reliable wind pressure resistance, and hail impact resistance. Common problems can be divided into glass material reasons and external force reasons, as shown in the following figure:

4. EVA

EVA is used to encapsulate spliced battery strings, which is a copolymer of ethylene and vinyl acetate. EVA is non-viscosity at room temperature and easy to operate. After certain process conditions, hot pressing will undergo fusion bonding and cross-linking curing, and become completely transparent. The cured EVA can withstand atmospheric changes and is elastic. In addition, after it is bonded to glass, it can increase the light transmittance of the glass, play the role of anti-reflection, and have a gain effect on the output of solar cell components. Common problems can be divided into material reasons and process reasons, as shown in the following figure:

5. Backplane

At present, the commonly used backplane structures include TPT, TPE, TPF, KPK, KPF, etc., which are used as packaging materials on the back of the module. It reflects sunlight, so the efficiency of the module is slightly improved, and because of its high infrared emissivity, it can also reduce the operating temperature of the module, which is also conducive to improving the efficiency of the module. It also needs to have properties such as aging resistance, corrosion resistance, water vapor penetration resistance, and insulation. Common problems can be divided into backplane material, process, and external force reasons, as shown in the following figure:

6. Border

The frame used by the PERC photovoltaic module is aluminum profile, and the surface of the aluminum profile is anodized, which has the properties of insulation and corrosion resistance, protects the component, increases the load-bearing capacity, and is convenient for transportation and installation. Common problems can be divided into material reasons and external force reasons, as shown in the figure below:

7. Junction box

The junction box used by photovoltaic modules is composed of a box cover, a box body, a pole tube, a connecting wire, and a connector; the sealing method usually includes potting glue sealing and sealing ring sealing, and its main functions are as follows:

(1) Connect the lead wire of the component to derive the current generated by the component.

(2) Protection: heat dissipation, prevent hot spot effect, seal anti-aging.

The common problems of junction boxes are mainly due to material and process reasons, as shown in the following figure:

8. Sealant

Photovoltaic modules are currently mainly sealed with silica gel or adhesive tape, which must have the characteristics of waterproof, UV resistance, and weather resistance, as shown in the figure below:

(1) Connect the lead wire of the component to derive the current generated by the component.

(2) Protection: heat dissipation, prevent hot spot effect, seal anti-aging.

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Introduction to Intelligent Control System of Solar Power Panel Internet of Things

Introduction to Intelligent Control System of Solar Power Panel Internet of Things

A solar panel is a device that uses solar energy to convert light energy into electrical energy, and is an important form of clean energy. The power generation efficiency and stability of solar power generation panels directly affect the feasibility and economy of solar power generation. With the development of the Internet of Things technology, the emergence of the solar power generation panel Internet of Things intelligent control system has brought new changes to the application of solar power generation.

1. The concept and composition of the solar panel IoT intelligent control system
the
The solar power panel IoT intelligent control system is a system that uses the Internet of Things technology to realize intelligent control of solar power panels. The system is composed of solar power panels, sensors, controllers, communication modules, data processing modules, etc., and realizes the monitoring, control and management of solar power panels through the Internet of Things technology.

1. Solar panels: Solar panels are the core components of solar power generation systems, responsible for converting solar energy into electrical energy.

2. Sensor: The sensor is an important part of the solar power panel IoT intelligent control system, which is responsible for monitoring the temperature, light intensity, voltage and other parameters of the solar power panel.

3. Controller: The controller is the core part of the solar power panel IoT intelligent control system, responsible for controlling and adjusting the solar power panel to ensure the normal operation of the solar power system.

4. Communication module: The communication module is an important part of the solar panel IoT intelligent control system, which is responsible for communicating with the Internet to realize remote control and management.

5. Data processing module: The data processing module is an important part of the solar panel IoT intelligent control system, which is responsible for processing and analyzing the data collected by the solar panel sensor and providing decision support.

2. Functions and advantages of the solar panel IoT intelligent control system

1. Remote monitoring and control: The solar power panel IoT intelligent control system can realize remote monitoring and control of solar power panels, which is convenient for users to perform remote management and control.

2. Intelligent adjustment: The intelligent control system of the solar power generation panel Internet of Things can perform intelligent adjustment and control according to the temperature, light intensity, voltage and other parameters of the solar power generation panel monitored in real time, so as to improve the efficiency and stability of the solar power generation system.

3. Fault diagnosis and early warning: The solar power panel IoT intelligent control system can monitor the operating status of the solar power panel, perform fault diagnosis and early warning in time, and reduce failure losses.

4. Energy saving and emission reduction: The solar power panel IoT intelligent control system can intelligently manage and control the solar power generation system, saving energy and reducing carbon emissions.

5. Improve economic benefits: The solar power panel IoT intelligent control system can improve the efficiency and stability of the solar power generation system, reduce operating costs, and improve economic benefits.

3. Application of solar power panel IoT intelligent control system

The solar panel IoT intelligent control system can be widely used in the field of solar power generation, including household solar power generation, commercial solar power generation, industrial solar power generation and other fields. Specific applications include:

1. Home solar power generation system: The solar power panel IoT intelligent control system can realize remote monitoring and control of the home solar power generation system, improving the efficiency and stability of the solar power generation system.

2. Commercial solar power generation system: The solar power panel IoT intelligent control system can realize intelligent management and control of commercial solar power generation systems and improve economic benefits.

3. Industrial solar power generation system: The intelligent control system of the solar power generation panel Internet of Things can realize the intelligent control and adjustment of the industrial solar power generation system, and improve the efficiency and stability of the solar power generation system.

4. Conclusion

The solar power panel IoT intelligent control system is a system that uses the Internet of Things technology to realize intelligent control of solar power panels. It has the advantages of remote monitoring and control, intelligent adjustment, fault diagnosis and early warning, energy saving and emission reduction, and improvement of economic benefits. The system can be widely used in the field of solar power generation, and has brought new changes to the application of solar power generation.

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Why N-type Solar Cells Is Becoming a New Trend?

Technology development trend of photovoltaic cells - P to N is imperative.

Photovoltaic solar cells technology iterations continue to focus on "efficiency enhancement" + "cost reduction" At present, the average mass production efficiency of PERC cells is 23.2%, and the theoretical conversion efficiency limit is 24.5%. The mass production efficiency has already approached the theoretical limit of efficiency, making it difficult to increase the efficiency of PERC cells significantly. N-type solar cells technology iteration is imperative.

Compared with traditional P-type solar cells, N-type solar cells have the advantages of high conversion efficiency, high bifaciality, low temperature coefficient, almost no light decay, and good weak light effect. Currently, mainstream N-type solar cells include TOPCon, HJT, IBC, etc. TOPCon has high limit efficiency and low cost of production line transformation; HJT has high mass production efficiency and a clear cost reduction route; IBC conversion upper limit is higher, but economical improvement still takes time. At present, the actual mass production yield rate of Topon is 24%-25.2%, and the actual mass production efficiency of HJT is about 25%, which is 1%-2% higher than that of P-type PERC cells.

 

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Welcome to the Future Introducing Solar Panel Roof Tiles and Innovations

Are you tired of the traditional image of solar panels mounted on top of your roof? Well, get ready to embrace the future with the introduction of solar panel roof tiles. This groundbreaking technology is revolutionizing the way we harness solar energy and beautify our homes.

Have you heard about Aluminum Solar Mounting Brackets?

If you’re wondering how these solar panel roof tiles are installed, let us introduce you to Aluminum Solar Mounting Brackets. These state-of-the-art brackets provide a sturdy and secure foundation for the solar tiles on your roof. Their lightweight yet durable aluminum construction ensures long-lasting performance while minimizing the structural impact on your roof.

Solar Roof System: Powering Your Home in Style

Gone are the days when solar panels were seen as an eyesore. With the innovative Solar Roof System, you can seamlessly integrate solar panel roof tiles into your home’s design, enhancing its aesthetic appeal. These tiles are available in a variety of shapes, sizes, and colors, allowing you to customize your energy efficiency while maintaining your home’s unique style.

Solar Mini Rail Mounting Solution: Small Design, Big Impact

For those looking for a discrete mounting solution, the Solar Mini Rail Mounting System is the perfect fit. This solution offers a sleek and low-profile design that blends seamlessly with your roof, making it almost invisible. Don’t let its size fool you, as it provides the necessary support and stability for your solar panel roof tiles without compromising on performance.

Solar Tin Roof Installation Bracket: The Perfect Fit for Tin Roofs

If you have a tin roof, worry not! The Solar Tin Roof Installation Bracket is specifically designed to accommodate the unique characteristics of tin roofs, ensuring a hassle-free installation process. Its adjustable design and compatibility with different tin roof types make it a versatile choice, allowing homeowners with tin roofs to embark on their solar energy journey.

Solar Trapezoidal Metal Roof Mounting System: Engineering Excellence

Metal roofs are gaining popularity for their durability and longevity. With the Solar Trapezoidal Metal Roof Mounting System, you can harness the power of the sun without compromising the integrity of your metal roof. Engineered to perfection, this mounting system provides easy installation and guarantees the stability needed for solar panel roof tiles on trapezoidal metal roofs.

In conclusion, the introduction of solar panel roof tiles and innovative mounting solutions is transforming the way we think about solar energy. With options like Aluminum Solar Mounting Brackets, Solar Mini Rail Mounting Solution, Solar Tin Roof Installation Bracket, and Solar Trapezoidal Metal Roof Mounting System, homeowners now have stylish and efficient means to harness the sun’s power while enhancing the visual appeal of their homes. Embrace the future, go solar, and take an active role in creating a sustainable world for generations to come.

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