__________________________________Discharge pressure (psi)___________________________________Wattage (watts)___________________________________Voltage (volts)___________________________________Current (amps)___________________________________Spring Force (lbf)___________________________________Loop inlet pressure (psi)___________________________________Loop outlet pressure (psi)___________________________________PIPE SYSTEMFlow rate (gpm)___________________________________(Magnetic flow meter)Suction pressure (psi)___________________________________Discharge pressure (psi)___________________________________Wattage (watts)___________________________________Voltage (volts)___________________________________Current (amps)___________________________________Spring Force (lbf)___________________________________Loop inlet pressure (psi)___________________________________Loop outlet pressure (psi)___________________________________BYPASS LINEFlow rate (gpm)___________________________________(Magnetic flow meter)Suction pressure (psi)___________________________________Discharge pressure (psi)___________________________________Wattage (watts)___________________________________Voltage (volts)___________________________________Current (amps)___________________________________Spring Force (lbf)___________________________________THEORYThe pump characteristics and pressure drop in a pipe are evaluated in this experiment. In order to study the characteristics, the performance of the pump and the motor are studied. The performance of the pump can be determined by capacity, total head loss, brake horsepower, efficiency, liquid horsepower, pump efficiency, and net positive suction head.The capacity is the rate at which the liquid (ethylene glycol) flows through the pump and is expressed in gallons per minute. The capacity affects other parameters of the pump’s performance. The capacity is chosen such that the efficiency of the pump is high.The t...
