At present, the nutrient solution of soilless culture is mostly configured by simply using the standard fertilizer formula, lacking the precise matching technology of nutrient solutions based on nutrient elements. It is unable to change the formula configuration according to vegetable types, different growth stages and growth needs, especially in the secondary fertilizer reuse of nutrient solution reflux. In order to make precise secondary fertilization, a model and system for secondary fertilization of nutrient solution residual liquid were established in this paper. It can be used for secondary fertilization based on nutrient ions and reused after the sterilization of the residual liquid. A nutrient solution fertilizer system based on nutrient elements was designed. The nutrient solution fertilizer system based on the online detection of ions was determined with different element compounds as the fertilizer unit. Combined with the existing hydroponic water-soluble inorganic salts, the ion concentration and its proportioning quantitative model of the nutrient solution recovery solution were established. The experimental verification and result analysis of the fertilizer model were carried out to test the accuracy and practicability of the established model. The ion concentration error obtained from the mathematical model was established as 0.0093–0.5294 mg·L−1.The precise proportioning technology of nutrient solution based on nutrient elements can realize the precise and intelligent proportioning of nutrient elements in the nutrient solution of crops and can also make full use of the nutrient solution. It also improves the efficiency of greenhouse cultivation.
If the nutrient solution used in the hydroponic system is recycled and reused without disinfection, the plant diseases are likely to spread. The current disinfection system still cannot conduct online monitoring of microorganisms at the same time as disinfection. In this paper, a UVA ultraviolet disinfection system and an online microbial monitoring system are proposed, which can conduct online monitoring at the same time as disinfection. This system includes the design of the disinfection system, the microbial online detection system and the microfluidic chip. The practical performance of the disinfection system and the microfluidic chip was verified by means of simulation and experiment. The relationship between the working power (P) of the UVA ultraviolet sterilizer used and its irradiance (Ee) is P = 29.98 Ee. The direct influencing factor of the ultraviolet disinfection rate of the nutrient solution residual liquid was the ultraviolet light irradiation dose. When the power of the ultraviolet lamp (radiation flux) is 30 W, the optimum wavelength is close to 300 nm, and the absorbance value is approximately 0.07. The error between bioluminescence detection and laboratory culture detection error is 0.002. The disinfection method and microfluidic chip proposed in this paper can be used in a greenhouse hydroponic system to reduce the impact of harmful microorganisms in the nutrient solution return on plants, and improve the effect of the return solution.
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