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Shanghai MK Aluminum Co. , Ltd.

Shanghai MK Aluminum Co., Ltd. Dongtai factory, occupying more than 210 hectares, includes 8 production buildings, 2 office buildings, and 1 apartment building, which is more than 200,000 square meters of building area in total. Since 2006 MK has specialized in aluminium extrusion design and production.

As China Aluminium Carport Solar Racking Products Manufacturers and Aluminium Carport Solar Racking Products Factory, MK aluminum profiles are widely applied in modular assembly products, modular conveyors, machine frames, fences, workstations, linear motion products, stair and platform products, commercial complexes, resort hotels, apartment buildings, villa and office buildings, solar frames, solar racking products across the world. The annual output of aluminum profiles is over 60,000 tons.

We have a professional R&D team with rich technical experience and innovation ability. The company focuses on technological innovation, constantly promotes the development of the field of intelligent equipment, and cooperates with customers to customize solutions that meet their needs. We offer Custom Aluminium Carport Solar Racking Products.

With quality as the core, we strictly control the product manufacturing process to ensure product quality and reliability. The company's products comply with relevant international and domestic standards and have passed corresponding certifications and testing.

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Carport Solar Racking Products Industry knowledge

The influence of solar panel installation angle and orientation on power generation efficiency in carport solar racking products design

When designing carport solar bracket products, the installation angle and orientation of the solar panels have a significant impact on power generation efficiency. Here is a detailed analysis of this impact:
The influence of installation angle on power generation efficiency
Determination of the best installation angle:The optimal installation angle of solar panels is usually closely related to factors such as local latitude, season and climate conditions. In the Northern Hemisphere, generally speaking, the installation angle of solar panels should be close to or equal to the local latitude to ensure that sunlight can reach the maximum direct exposure to the solar panel. For example, if the latitude of a certain place is 30 degrees, the solar panel installation angle should also be close to 30 degrees.
However, the optimal installation angle is not fixed and is also affected by seasonal changes. In summer, due to the high altitude angle of the sun, the installation angle of the solar panels can be appropriately adjusted to better utilize the intensity of summer sunlight; while in winter, the angle can be appropriately adjusted to better utilize low-angle sunlight.
The effect of angle on solar radiation reception:Proper installation angle allows solar panels to receive solar radiation to a greater extent throughout the day, thereby improving power generation efficiency. If the installation angle is too large or too small, the solar panel may not be able to fully receive solar radiation, thereby reducing power generation efficiency.
Effect of angle on temperature:As the installation angle increases, the heat dissipation conditions on the surface of the solar panel will be improved, helping to reduce the panel temperature. Lower temperature can reduce the internal resistance of the battery and the decrease in electron migration speed, thereby improving the photoelectric conversion efficiency.
The impact of orientation on power generation efficiency:Determination of the best orientation:In the Northern Hemisphere, since the sun mainly rises and sets in the south, the best orientation for solar panels is due south. In this way, the sun can shine directly on the solar panels for most of the day, thereby improving power generation efficiency.
The effect of orientation on the amount of solar radiation received:
Correct orientation ensures that solar panels receive the most solar radiation throughout the day. If the orientation is improperly selected, such as facing north or east, the amount of solar radiation received by the solar panel may be significantly reduced, thereby reducing the power generation efficiency.
Comprehensive Impact Analysis:When designing carport solar bracket products, it is necessary to comprehensively consider the impact of installation angle and orientation on power generation efficiency. Through simulation and actual testing, the best combination of installation angles and orientations in specific regions and seasons can be determined.
In addition, attention needs to be paid to avoid the impact of surrounding buildings, trees and other obstructions on the solar radiation received by the solar panel. When choosing an installation location, ensure that the solar panels can be fully exposed to the sun and avoid being blocked by obstructions.
The installation angle and orientation of solar panels have an important impact on the power generation efficiency of carport solar bracket products. During the design process, local climate conditions, seasonal changes, and surrounding environmental factors need to be fully considered to ensure that solar panels can receive maximum solar radiation and convert it into electrical energy.

Methods to ensure the stability and safety of carport solar rack products under extreme weather conditions

In order to ensure the stability and safety of carport solar bracket products under extreme weather conditions, the following methods can be adopted:
Structural design optimization
Enhance structural stability:Use high-strength, corrosion-resistant materials such as aluminum alloy, stainless steel or special steel to improve the bearing capacity and stability of the bracket.Design reasonable support structure and fixing method, such as steel frame or aluminum alloy frame, and strengthen the strength of key connection points.
Ensure that the bracket structure can withstand extreme weather conditions such as strong wind and heavy snow, usually need to consider local meteorological data such as wind speed, wind direction, snow pressure.
Wind-resistant design:Consider wind direction and wind force during design, reasonably set windproof vents to reduce the direct impact of wind on the bracket.Adopt flexible bracket design, use prestressed suspension cables and edge components to form a spatial geometric stability system, and improve the wind resistance and stability of the bracket in strong winds.Install wind-resistant cables or wind dampers on the bracket to absorb and disperse wind force and reduce the vibration and displacement of the bracket.
Electrical safety guarantee:Electrical system protection:Ensure that the connection between solar panels and electrical equipment is stable and reliable, and use waterproof and dustproof electrical connectors.Install electrical protection devices, such as overcurrent protectors, lightning arresters, etc., to prevent electrical faults and lightning strikes from damaging the system.Regularly inspect and maintain the electrical system to ensure the normal operation and safety of electrical equipment.
Regular maintenance and inspection:Daily maintenance:Regularly check the stability of the bracket and the tightness of the connection points, and repair loose or damaged parts in time.Clean the dust and dirt on the surface of the solar panel to maintain its good photoelectric conversion efficiency.Check the wiring and insulation of the electrical system to prevent electrical faults.
Inspection after extreme weather:After extreme weather (such as typhoons, heavy rains, blizzards, etc.), conduct a comprehensive inspection of the bracket in time, assess its damage and make necessary repairs.
Environmental monitoring and early warning:Environmental monitoring:Conduct environmental monitoring of the area where the carport solar bracket system is located, including real-time monitoring of parameters such as wind speed, wind direction, temperature, and humidity.Evaluate the impact of extreme weather on the bracket system based on monitoring data, and take corresponding preventive measures.
Early warning system:Establish an early warning system, and when it is detected that extreme weather is approaching, issue early warning signals in time and take corresponding emergency measures.
Professional technical support and training:Technical support:Work with a professional technical support team to ensure timely and professional solutions when problems arise.Train and assess technical personnel regularly to improve their professional skills and ability to respond to emergencies.
User training:Train users on product use and maintenance to make them understand the performance, characteristics and precautions of the product.Encourage users to actively participate in the daily maintenance and safety inspection of the product.
The stability and safety of carport solar bracket products under extreme weather conditions can be ensured through a variety of methods such as optimizing structural design, strengthening electrical safety assurance, regular maintenance and inspection, environmental monitoring and early warning, and providing professional technical support and training.

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