A cold-chamber die-casting machine operates automatically, supported by two industrial robots. The machine produces three brass castings per cycle. One robot ladles molten metal into the chamber each cycle, and the other unloads the three castings from the machine and sprays lubricant onto the die cavities. Cycle time = 0.6 min. Each casting weighs 0.3 kg, and the gating system weighs 0.15 kg. The gating system can be recycled to cast more parts. Die cost = R 78 000. The total production run = 150,000 pc. Scrap rate = 2%. Assume reliability = 100%. Cost of brass = R 97/kg. Melting temperature of brass = 930C. Its density = 8.3 g/cm3, heat of fusion = 168 kJ/kg, and specific heat = 0.376 J/gC (use the same values of density and specific heat for solid and molten brass). Pouring temperature = 980C. Heat losses account for 40% of the energy used to heat the metal. Cost of power for heating = R 167/kWh. The cost rate of the die-casting machine = R 6 700/hr, and the cost rate of each robot = R 2 170/hr. As part of the operation sequence, the casting is trimmed from the gating system, which is done manually at a labour rate of R 2 341/hr. The worker recycles the brass from the gating system for remelting. Determine (a) unit energy for melting and pouring, (b) total cost per hour to operate the cell, and (c) cost per part. Assume an ambient temperature of 22C