Final answer:
A pump's rated capacity for gpm can't be given exactly without specific pump data. For instance, a typical flow rate of 500 gpm for petroleum products requires knowledge of the pump's characteristics to determine the rpm. This flow rate is also influenced by the viscosity and density of the fuel.
Step-by-step explanation:
The rated capacity of a deep well turbine fuel transfer pump used for a Type III product recovery system cannot be precisely determined without specific data from the manufacturer or system design. However, a typical flow rate for moving petroleum products is given as approximately 500 gallons per minute (gpm), based on the provided information. To understand the relationship between gallons per minute and revolutions per minute (rpm), you would need to know the characteristics of the pump, including its displacement (volume pumped per revolution) and efficiency.
In the context of fuel transfer in a refinery context, the flow rate of 3.00 x 10-2 m³/s (around 500 gpm) would be a part of the system's design parameters. The actual rpm of the pump would be specified to meet this flow rate, considering the characteristics of the fluid, such as viscosity (1.00 × 10-3 (N/m²).s) and density (680 kg/m³), and the required pumping pressure to maintain this flow rate within the system.