The stochastic approach is applied to 1264-LV distribution stations’ networks to estimate the hosting capacity. About 15,000 customers are connected to the individual secondary distribution networks. The secondary distribution networks are supplied through 48-medium voltage radial feeders. The voltage magnitude rise and thermal overload are used for the hosting capacity assessment. The hosting capacity is estimated by applying the ‘‘stochastic mixed aleatory-epistemic method’’ to determine the voltage magnitude rise and load flow due to solar PV. The minimum power consumption is compared with the solar PV power infeed through the individual DS transformers. The hosting capacity estimation is done for solar PV sizes of 3, 6, 9, 12, 15 and 18 kW three-phase connected. . The results showed that overvoltage becomes an issue for DS with more than 8-customers and will limit the hosting capacity than the overload. About 31% of the customers can be allowed to connect solar PV units with 18 kWp size considering the overvoltage limit when 25% and 50% penetration is considered for the DS with 1-8 customers and more than 8-customers.