Quantitative frother analysis on coal mine process water with a benchtop NMR spectrometer

This paper investigates the use of a benchtop NMR for quantification of a commonly used frothing agent, methyl isobutyl carbinol (MIBC) in the process water of a coal preparation facility. Solid phase extraction is used to increase the concentration of MIBC in the sample so that it is quantifiable by a benchtop NMR. A polymeric, reversed phase column with methanol as solvent gives a MIBC recovery rate of 67 +/- 4% as determined using 400 MHz high-field NMR. The recovery rate consistently falls in the above narrow range even in the presence of diesel and inorganic electrolytes which are likely present as background chemicals in the process water. Using the average MIBC recovery rate, we use a quantum mechanical model to analyse the intensity of MIBC in the benchtop spectra. The quantum mechanical modelling algo-rithm effectively excludes the effect of the diesel on the measured NMR signal. The quantification error when the inlet concentration of MIBC is between 1 and 12 mg/L (1.2-15 ppm v/v), is within 0.5 mg/L (0.6 ppm v/v). (c) 2021 Elsevier Inc. All rights reserved.

Automated summary

This study investigates the quantification of a commonly used frothing agent, MIBC, in process water of a coal preparation facility using a benchtop NMR. Solid phase extraction and high-field NMR techniques were utilized to accurately determine MIBC concentration and recovery rate. The quantum mechanical model effectively excluded the interference of diesel on the NMR signal, resulting in quantification error within acceptable limits.