Petroleum and distillates contain different concentrations of aromatic hydrocarbons. These compounds are important downstream as process indicators for product formulation. They can reduce the calorific value of some distillates, poison catalysts, be resistant to certain processes, and can provoke environmental impacts. The quantification of these compounds expressed by aromaticity factor (fa) is usually determined using C-13 high-resolution NMR spectroscopy following the procedure of the ASTM D5291 standard test. However, this technique presents some disadvantages, such as long time of analysis, high cost and the use of solvents for sample preparation. In this study we proposed the use of low-field NMR (LF-NMR) at 2.2 MHz for detecting the nucleus as an interesting, quicker and cheaper alternative to estimate the fa value of 42 distillates produced from atmospheric distillation (ASTM D2892 method) of four oils with degrees API between 17.9 (heavy) and 34.9 (light). The results showed the great potential of LF-NMR to quantify the aromaticity in light, medium and heavy distillates with aromatic carbon (C-ar) contents between 0.4 and 13.9 wt%. Furthermore, it was possible predict fa values, either hydrogen or carbon, based only on the transverse relaxation time (T-2) obtained from the NMR experiments in time domain.