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Recommended Practices for the Testing and Verification of Spill, Overfill, Leak Detection and Secondary Containment Equipment at UST Facilities <br /> Verify that the system setup parameters are correct <br /> (e.g . , pipe diameter, pipe length , pipe material of <br /> construction, etc. ) . If any of the setup parameters <br /> are not correct, make any necessary changes to <br /> ELLD bring the system settings within specifications . <br /> 9 . 2. 6 ELLD Test Procedure . <br /> all <br /> lu <br /> NOTE This procedure describes calibration <br /> of the test apparatus leak orifice without the <br /> use of a pressure regulator. If you prefer to <br /> calibrate the leak orifice with the use of a <br /> pressure regulator, refer to the procedure <br /> described in Section 9 . 1 . 6 . <br /> FIGURE 9-2. The ELLD mounted in the submersible 1. Shut off power to pump and perform lockout/ <br /> turbine pump will alarm on the console when a leak is tagout procedures on the circuit breakers . <br /> detected. 2. Bleed line pressure to zero by activating the dis- <br /> with aminimum range of 0-60 psig that can penser and opening the nozzle , allowing fuel to <br /> measure STP pressure and an adjustable orifice Fath into the test can . After all line pressure has <br /> to simulate a leak rate equivalent to 3 gph at 10 been bled off, hang up the nozzle and close the <br /> shear valve. <br /> psig; <br /> • time-measurement device capable of measuring 3 . Connect .the test apparatus to the shear valve <br /> a 1 es mead increment; test port at the highest dispenser. If there is no <br /> elevation change, connect the test apparatus at <br /> • graduated cylinder for measuring leak rate; the farthest dispenser. <br /> • 5-gallon metal test can. NOTE : If the piping has master/satellite dis- <br /> 9.2. 6 Preparation . pensers, the test apparatus must be connected <br /> to the farthest satellite dispenser. <br /> NOTE : At locations with master/satellite fuel <br /> dispensing installations , the satellite may 4. Reestablish power to the pump. Open the shear <br /> not be protected by the ELLD. At locations valve and pressurize the line by activating the <br /> with a master/satellite fueling location, the pump. Confirm that no leaks are present in the <br /> test should be performed at the most distant test apparatus or the connection to the shear <br /> satellite dispenser so the entire piping system valve test port. <br /> is included . 5. Dispense product from the dispenser nozzle into <br /> the test can to remove all air from the line . <br /> NOTE ELLDs will turn the STP on and off 6. Close the dispenser nozzle and allow the line to <br /> multiple times while testing the simulated fully pressurize. Confirm that the line pressure <br /> leak. Ensure the test can will not overflow observed is the full pump pressure. <br /> during the test time . <br /> 7. Referencing the full pump pressure observed in <br /> Conduct the test at the dispenser that has the high- Step 6, determine from Table 94 the volume of <br /> est elevation in the system. If there is no difference fluid that must be discharged in 60 seconds at <br /> in elevation between dispensers , conduct the test full pump pressure to simulate a leak equivalent <br /> using the dispenser farthest from the STP. to 3 gph at 10 psig. <br /> S . With the pump running and the line at full pump <br /> Remove from service all dispensers connected to pressure, slowly open the test apparatus leak <br /> the STP being tested . orifice and adjust until the flow rate determined <br /> Verify that the STP relays are operating properly to in Table 9- 1 has been achieved. <br /> ensure that the pump cycles on and off correctly. <br /> pei . org <br />