Preparation and Properties of CO2 Micro-Nanobubble Water Based on Response Surface Methodology

Featured Application This article discusses the preparation of CO2 micro-nanobubble water using the dissolved gas release method. Taking the CO2 content as the optimization target, micro-nanobubble water was prepared with the optimal content based on a mathematical model constructed using the response surface method. Meanwhile, the characteristics of the micro-nanobubbles in the water provided a theoretical reference for applying CO2 in agriculture, which will assist in achieving a quantitative increase in the CO2 enrichment of crops. Carbon dioxide (CO2) enrichment in an agricultural environment has been shown to enhance the efficiency of crop photosynthesis, increasing crop yield and product quality. There is a problem of the excessive use of CO2 gas when the CO2 is enriched for crops, such as soybean and other field crops. Given the application of micro-nanobubbles (MNBs) in agricultural production, this research takes CO2 as the gas source to prepare the micro-nanobubble water by the dissolved gas release method, and the response surface methodology is used to optimize the preparation process. The results show that the optimum parameters, which are the gas-liquid ratio, generator running time, and inlet water temperature for the preparation of CO2 micro-nanobubble water, are 2.87%, 28.47 min, and 25.52 degrees C, respectively. The CO2 content in the MNB water prepared under the optimum parameters is 7.64 mg/L, and the pH is 4.08. Furthermore, the particle size of the bubbles is mostly 255.5 nm. With the extension of the storage time, some of the bubbles polymerize and spill out, but there is still a certain amount of nanoscale bubbles during a certain period. This research provides a new idea for using MNB technology to increase the content and lifespan of CO2 in water, which will slow the release and increase the utilization of CO2 when using CO2 enrichment in agriculture.