The hydrogen-rich tail gas (FG) emitted from petrochemical operations (e.g. catalytic reforming unit and catalytic cracking unit) was recovered and reused as a supplementary fuel. It was slowly added to the fuel stream of a furnace to replace natural gas gradually for powering a full-scale distillation process. The results show that both the flame length and orange-yellowish brightness decrease with more proportion of FG in the natural gas. However, the adiabatic temperature is greater than 1800℃. With natural gas replaced by FG, 5.8×10^6 m^3 natural gas can be saved annually. Because the thermal NO_x is the dominant formation mechanism, NO_x increases 36.8 ppmv in the emission and CO_2 is reduced by 3.5×10^4 tons annually or 53.4% reduction. Recovering and reusing the hydrogen-rich waste fuel gas as natural gas supplement will achieve tremendous savings of natural gas usage and effectively lower the emission of carbon dioxide.