During the winter vacation, the social practice project of Shanghai Polytechnic University's School of Energy and Materials, led by Wang Jiajun and Shen Qichao, and guided by Hu Cancan and Yu Wei, the research project of Abundance of Technology, a new type of greenhouse carbon-supplementation and water-collecting temperature-boosting system in greenhouse agriculture, came to a successful conclusion. The project ended successfully. With the core of scientific and technological innovation, rural revitalization and green development, this practice project explored the potential of the new greenhouse system in improving the yield and quality of agricultural products, and injected a new impetus for the green and sustainable development of agricultural production.

Ten members of the practice team took full advantage of the holiday, in-depth greenhouse greenhouses in their hometowns, relying on the independent research and development of the new greenhouse carbon replenishment and water harvesting and heating system under the guidance of Prof. Yu Wei, vegetables, fruits, flowers and other types of greenhouse facilities to carry out research, a total of research Wang Guofei strawberry greenhouses, Shenya science parks, Xianfeng Cooperative, Tianjiazhuang Township, Qingjing Village flower trellis, Ziwei Village trellis flower production bases and other more than 30 agricultural greenhouses, footsteps All over Shanghai, Zhejiang, Hebei, Anhui and other places, for rural revitalization and energy saving and emission reduction to contribute their wisdom and strength.

The project team focused on collecting farmers' views and opinions on greenhouse facilities, fertilizers, heating and other aspects. By gaining an in-depth understanding of farmers' attitudes towards new technologies, the team assessed the potential for the promotion and application of technological innovations, providing a practical basis for relevant decision-making. At the same time, the feedback also helped the team to understand farmers' needs more comprehensively, laying the foundation for providing more practical and efficient agricultural solutions. In addition to the research at the STI level, the team also conducted an in-depth exploration of the feasibility of the new system in greenhouse agriculture. By evaluating its potential impact on the agricultural economy, including economic benefits, environmental friendliness and social sustainability, the team provides more efficient, energy-saving and environmentally friendly solutions for agricultural production, and pushes agriculture towards more sustainable development.

It is worth mentioning that this practical project also provides a strong market research basis for the Challenge Cup Innovation and Entrepreneurship Competition. The practical results not only provide valuable market information for the participating teams, but also provide practical support for industrial applications. Through this practice, the team provides scientific guidance for the agricultural industry, promotes the development of agriculture in the direction of greener and more efficient, and contributes to sustainable rural development.

During the research process, farmers expressed great interest in the new greenhouse system. They generally agreed that the system has significant energy-saving advantages as it increases the temperature of the greenhouse through solar energy and replenishes water and carbon dioxide in the greenhouse without additional energy input. More than 90% of the farmers expressed their willingness to try the system. Combining the results of the questionnaire and the feedback from farmers, the team plans to launch two types of sales, buyout and lease, to meet the needs of different farmers. At the same time, the team will step up publicity efforts to popularize the scientific knowledge of the effect of carbon dioxide on plant growth and help farmers better understand and apply the new greenhouse system.

The School of Energy and Materials of Shanghai Polytechnic University has always taken talent cultivation as the fundamental task, and combined with the national dual-carbon background, endeavors to cultivate high-level innovative talents and engineering application talents in the field of new energy and new materials. This winter vacation social practice project not only exercises the students' innovative and practical competence, but also makes positive contributions to promoting agricultural science and technology innovation, rural revitalization and green development. In the future, the team will continue to be committed to the research of agricultural science and technology innovation, provide more efficient and environmentally friendly solutions for agricultural production, and help the sustainable development of agriculture. The successful conclusion of this practical activity not only demonstrated the solid professional knowledge and good practical ability of the students of School of Energy and Materials, but also embodied their sense of responsibility and mission to serve and contribute to the society. It is believed that in the near future, they will continue to play a greater role in scientific and technological innovation and social practice, and contribute more to the promotion of China's green development and rural revitalization.