1. Introduce industry and integrate resource development
Agricultural solar panels complementary construction model
This model combines solar power generation with agricultural planting. By arranging photovoltaic panels outside the shed and planting vegetables inside the shed, the three-dimensional value-added utilization of land is realized. This model is not only environmentally friendly but also does not require additional land occupation.
Forest solar panels complementary construction model
Use the height difference between the photovoltaic panel frame and the ground to carry out economic shrub planting. This model organically combines photovoltaic power generation with forestry development, makes full use of land space, and achieves the effect of three-dimensional value-added.
Fishing solar panels complementary construction model
A photovoltaic panel array is set up above the surface of the fish pond, and the water area below the photovoltaic panel can be used for fish and shrimp farming. This model can not only generate electricity, but also provide shelter for fish farming, forming a new model of "generating electricity on top and raising fish on the bottom".
Pastoral solar panels complementary construction model
Combines photovoltaic power generation with animal husbandry, with photovoltaic power generation on the upper layer and animal husbandry on the lower layer. This model realizes the three-dimensional utilization of land and promotes the construction of modern efficient agriculture.
2. Land restoration and reuse in mining waste areas
"Imperial + grass" sand control design
The surface “imperial + grass” combined planting mode is used to control sand, build a vegetation protection system, and implement measures including shrub plant sand fixation grids and sand-loving plant planting.
Special sand control design
Sand fixation is carried out between boards under fixed tilt brackets, and herbaceous plants are planted by setting up grass grids to effectively control sand.
Photovoltaic and land restoration and management
Flexible brackets and large-span slope bracket technology are used to adapt to terrains with different slopes, improve land utilization, and effectively reduce construction costs and improve durability.
3. Multi-energy complementary and optimization of energy systems
Incremental distribution network pilot combination
Incremental distribution network business is combined with multi-energy complementary systems, and energy production, transmission and consumption are optimized through market transactions to achieve multi-energy complementary system integration.
Micro-grid combination
According to the "Trial Measures for Promoting the Construction of Grid-connected Micro-grid", micro-grid, as an important means of multi-energy complementary integration and optimization, provide specific methods for operation.
Combined with distributed power generation trading pilot
Establish the relationship between multi-energy complementary system and users through market trading in the distribution network to achieve system optimization.
"Internet +" smart energy
Integrate multiple energy generation technologies, develop key equipment, and build an experimental platform to verify the reliability of technology and equipment.
Multi-energy complementary park
Taking the park as a unit, using natural gas distributed energy stations, integrating photovoltaic, wind power and other auxiliary energy supply systems, to achieve multi-energy complementary on the energy supply side and terminal integration on the energy consumption side, and promote green, low-carbon, safe and efficient energy management.
4. Flexible application of photovoltaic components
Photovoltaic building integration (BIPV/BAPV)
BAPV attaches the photovoltaic system to the building, while BIPV integrates photovoltaic products on the building as a substitute for building materials, such as photovoltaic roofs and photovoltaic curtain walls.
Photovoltaic + transportation
Apply photovoltaic technology in high-speed railways, service areas, parking lots, etc., plus new energy vehicles and charging piles, to promote the low-carbon development of the transportation industry.
5. Policy support and future development
Promote distributed photovoltaic power generation in the whole county
The mode of promoting the whole county is similar to the mechanism of engineering general contracting, which ensures the principle issues and flexibly communicates with local governments and enterprises.
Photovoltaic + modern rural construction
Promote solar and wind heating, and use farmhouse roofs and other open spaces to develop photovoltaic heating, especially in key pollution prevention and control areas and agricultural and pastoral areas.
Summary
Through the development of the "photovoltaic +" industry, we can promote the application of new energy, achieve targeted poverty alleviation, and help distributed energy, smart micro-grids and new urbanization. Combine traditional agriculture with photovoltaic power generation, improve the comprehensive utilization rate of photovoltaic project land, and achieve efficient use of sunlight and land resources.