Patent ID: 11971375
Assignee: nan
Field: Measurement (Instruments)
Classification: CPC G  Y | IPC G

Claim 0:
1. A method for detecting adsorption performance of microplastics for heavy metals using low-field NMR relaxation method, comprising:
step S1: establishing a reference line reflecting a relationship between a target heavy metal ion concentration and a transverse relaxation time;
step S2: conducting a heavy metal adsorption experiment on microplastics and obtaining samples at different time points;
step S3: detecting transverse relaxation times of the multiple samples obtained;
step S4: determining a heavy metal ion concentration of each sample based on the reference line of the target heavy metal ion concentration and the transverse relaxation time;
step S5: analyzing data and implementing a model fitting process,
wherein the step S1 comprises:
step S11: preparing a standard solution of target heavy metal ions, using ultrapure water to dilute the standard solution into a plurality of secondary standard solutions with different concentrations, and putting the plurality of secondary standard solutions into different containers respectively;
step S12: using CPMG pulse sequence to measure transverse relaxation times of the secondary standard solutions with different concentrations, and calculating and obtaining a low-field NMR transverse relaxation rate, and then obtaining a linear relationship between the target heavy metal ion concentration and the low-field NMR transverse relaxation rate, where the low-field NMR transverse relaxation rate is 1/T2i-1/T20, T20 is a T2 value of the ultrapure water, T2i is a T2 value of heavy metal ions of the i-th secondary standard solution, and T2 is a transverse relaxation time;
step S13: obtaining the reference line of the target heavy metal ion concentration and the transverse relaxation time according to the linear relationship,

wherein the step S2 comprises:
configuring a heavy metal solution with a predetermined concentration in an experimental container;
adding a predetermined mass of microplastic particles to the heavy metal solution, and using an ultrasonic machine to disperse the microplastic particles evenly, then putting the experimental container containing the heavy metal solution and the microplastic particles into a constant temperature water bath oscillator to allow the microplastic particles to absorb heavy metals;
taking samples from the experimental container at multiple predetermined time points, filtering the samples, and putting the obtained solutions into different chromatography bottles, to obtain samples at different time points, and then refrigerating the multiple samples to be tested,

wherein, in the step S5, based on the measured heavy metal ion concentration of the samples sampled at different time points, adsorption amounts qe of heavy metals per unit mass of microplastics at the different time points are calculated, and an adsorption kinetic curve is drawn; then, the adsorption kinetic curve obtained from the experiment is compared to a pseudo-first-order kinetic model and a pseudo-second-order kinetic model, to analyze characteristics of the adsorption behavior and the mechanism of adsorption,
wherein the heavy metal ions are paramagnetic metal ions.