This study investigated the relationship between intense precipitation and vigorous lightning flashes using the Weather Research and Forecasting model coupled with an atmospheric electricity module WRF_ELEC. The WRF_ELEC module can describe basic discharging process, but it cannot identify intra-cloud and cloud-to-ground flashes. This study improved the discharging algorithm of WRF_ELEC by applying the region-labeling method, which provides more detailed information on the electrical properties and geometry of lightning flashes. Simulation results show that the proposed method can significantly improve the lightning flash frequency. Also, it is able to reveal the polarity of lighting flash associated with the microphysical structure of thunderstorm. Positive cloud-to-ground flash is active at initial stage of thunderstorm when graupel formation becomes significant. Intra-cloud flash is active at the mature stage of thunderstorm when the updraft is strong enough to reach high levels. Negative cloud-to-ground flash is active during the dissipating stage of thunderstorm when precipitation results mainly from the outflow stratiform region. These important indicators are valuable for the nowcasting of heavy precipitation.