PROBLEM STATEMENT : You are working as a junior engineer in a power distribution company. You have been assigned in planning and works department. Your task is to execute and accomplish power supply facility for a newly planned town. Site details are available as following; Proposed town is located in a remote village having no power facility available. Site is 16 kilometers away from nearby national grid of 500kV. Proposed town covers the length of 25 km having maximum width of 30 km. Area of the town is around 220 square kilometers. Town is expected to home around 10000 families, 8 big hospitals, 150 mosques, 2 Mega Commercial Projects, 20 Markets, 5 Small Factories, 2 Theme Parks, 2 Water Treatment Plants, many schools, colleges and a university. (Expected number, actual statistics may vary; you are required to manipulate the required power requirement based on your course and practical knowledge about location and behavioral trends of local people). It will be a mega project having various six sectors, i.e. Sector A to Sector F. Sectors are equally divided among total area of the town.

Your task is to formulate a detailed proposal and final plan for provision of power supply to the proposed mega project. Your proposal must have expected calculations about power consumption (Real, Reactive and Apparent). You are required to come up with the sub-station schematic, exact distance of sub-station from nearby national grid, number of feeders, length of each feeder, thickness of conductors, expected numbers of distribution transformers and facilities for power factor improvement. Deliverables The project is due by Extended, 2020. Your proposal/planning must comprise on Detailed schematic of sub-station. Schematic of ongoing feeders. Protection scheme for substation. Protection scheme for primary distribution system. Voltage sag calculations along the longest feeder in the town.

Expected value of capacitor bank required. Detailed layout of the final project. Design and Simulation of substation in ETAP (computer software). Testing of proposed protection scheme for sub-station under bus (L-L) fault, in ETAP.