Challenges and issues of photovoltaic drip irrigation technology

There are still some challenges and problems in the application of intelligent agricultural irrigation system with photovoltaic drip irrigation technology.

First, the cost and power density of photovoltaic power generation technology still need to be further improved to meet the needs of large-scale farmland irrigation. The cost of photovoltaic power generation system mainly comes from components such as photovoltaic panels, battery energy storage systems and controllers. At present, the conversion efficiency of photovoltaic panels is not high enough, and it is necessary to further improve the power generation efficiency and reduce the power generation cost. In addition, the endurance and stability of the battery energy storage system also need to be improved to ensure that the system can continue to operate stably for a certain period of time.

Secondly, the adaptability and stability of the intelligent system to the agricultural production environment need to be improved to ensure that the system can operate normally under complex field conditions. The complexity of the farmland environment includes different soil types, artificial interference and weather uncertainty. Therefore, the intelligent system needs to have strong adaptability and stability to cope with changes in various environments and working conditions.

In addition, the algorithms and models of the intelligent decision-making system also need to be continuously optimized and improved to improve the performance and reliability of the system in different agricultural production scenarios. The intelligent decision-making system needs to predict and regulate farmland irrigation based on real-time data and historical data analysis. Therefore, it is necessary to simulate and optimize the needs of agricultural production, environmental factors and crop growth through technical means such as big data analysis, artificial intelligence and machine learning, so as to improve the accuracy and stability of decision-making.

In summary, the intelligent agricultural irrigation system based on photovoltaic power generation drip irrigation technology has broad application prospects. By combining solar energy resources with intelligent systems, the efficiency and quality of agricultural production can be improved, the waste of resources can be reduced, and the sustainable development of agriculture can be promoted. However, this technology still faces some challenges and problems in its application, which requires further research and improvement. In the future, with the continuous development and innovation of science and technology, the intelligent agricultural irrigation system based on photovoltaic power generation drip irrigation technology will be more widely used. We have reason to believe that through continuous efforts, this technology will play a more important role in agricultural production, bring more benefits to farmers, and make greater contributions to society and the environment.