New Bamboo-based Product: Offshore PV Platform
From:
Zhonglin International Group Date:02-21 1228 Belong to:Industry Related
As the new global energy revolution is developing, pv power station, as an important form of future new energy application, have developed rapidly. In 2018, the global installed capacity of new photovoltaic power stations increased by approximately 106 GW. Today, China has a 32,000 km coastline and nearly 3 million square kilometers of sea area. The superior marine environment, open sea surface, no obstructions, long sunshine duration, and high radiation amount are perfectly for offshore pv projects, and hence there is great potential for improving the power generation of offshore pv power stations. Vigorously developing marine new energy has become an important strategic support for China's energy structure transformation.
In May 2022, the Ministry of Science and Technology released a national key research and development plan, and the construction research of offshore floating photovoltaics was included in the key special project of "renewable energy technology", bringing offshore floating photovoltaics into the public's view. Developing offshore pv power stations can effectively alleviate land constraints, expand the application of solar power generation, and provide electricity support for economically developed areas along the route. Compared with traditional photovoltaic power stations, floating pv power stations install solar power generation modules on floating bodies on the water surface, which have the effects of not occupying land resources, reducing water evaporation, and blocking sunlight and inhibiting algae growth. At the same time, the cooling effect of water on photovoltaic modules and cables can significantly improve power generation efficiency. In recent years, compared to traditional bracket based waterborne solar power generation systems, floating waterborne solar power generation systems have become a new trend in the field of waterborne photovoltaics. As a cutting-edge branch, offshore photovoltaics have not yet entered large-scale commercial development globally, and are only in the embryonic stage of the industry.
The bamboo-based offshore pv platform is composed of steel nodes and bamboo-based marine engineering materials. Bamboo-based marine engineering materials and steel nodes are connected by socket joints, and the gaps in the socket joints are connected and filled with high-performance adhesives. Compared with traditional steel welding connections, this connection method has a lighter weight and better resistance to seawater corrosion; Secondly, bamboo based marine engineering materials use biomass materials as raw materials, and most countries have corresponding subsidy policies, making bamboo based offshore pv platforms more cost-effective.
Bamboo-based marine engineering materials used for platform construction not only provide buoyancy, but also have advantages such as high environmental friendliness, high strength, strong resistance to seawater corrosion, long service life, and low cost. They can replace high-density polyethylene floats and steel welded structures in current systems, while reducing the demand for plastic in traditional water photovoltaic systems and effectively saving costs, they also protect the marine ecological environment, Truly achieving "green electricity and green manufacturing" and leading global green and sustainable development.
In May 2022, the Ministry of Science and Technology released a national key research and development plan, and the construction research of offshore floating photovoltaics was included in the key special project of "renewable energy technology", bringing offshore floating photovoltaics into the public's view. Developing offshore pv power stations can effectively alleviate land constraints, expand the application of solar power generation, and provide electricity support for economically developed areas along the route. Compared with traditional photovoltaic power stations, floating pv power stations install solar power generation modules on floating bodies on the water surface, which have the effects of not occupying land resources, reducing water evaporation, and blocking sunlight and inhibiting algae growth. At the same time, the cooling effect of water on photovoltaic modules and cables can significantly improve power generation efficiency. In recent years, compared to traditional bracket based waterborne solar power generation systems, floating waterborne solar power generation systems have become a new trend in the field of waterborne photovoltaics. As a cutting-edge branch, offshore photovoltaics have not yet entered large-scale commercial development globally, and are only in the embryonic stage of the industry.
The bamboo-based offshore pv platform is composed of steel nodes and bamboo-based marine engineering materials. Bamboo-based marine engineering materials and steel nodes are connected by socket joints, and the gaps in the socket joints are connected and filled with high-performance adhesives. Compared with traditional steel welding connections, this connection method has a lighter weight and better resistance to seawater corrosion; Secondly, bamboo based marine engineering materials use biomass materials as raw materials, and most countries have corresponding subsidy policies, making bamboo based offshore pv platforms more cost-effective.
Bamboo-based marine engineering materials used for platform construction not only provide buoyancy, but also have advantages such as high environmental friendliness, high strength, strong resistance to seawater corrosion, long service life, and low cost. They can replace high-density polyethylene floats and steel welded structures in current systems, while reducing the demand for plastic in traditional water photovoltaic systems and effectively saving costs, they also protect the marine ecological environment, Truly achieving "green electricity and green manufacturing" and leading global green and sustainable development.