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M PEI/RP1200-17 <br />Underground Fiberglass Double and Triple -Wall <br />Tanks With Dry Annular Space FTPI 4/01/07. <br />4.2.7 Test Equipment. Test equipment shall <br />include: <br />• a vacuum -generating device that can be used in <br />a Class I, Division 1 area capable of pulling 15 <br />inches of mercury (Hg) vacuum; <br />• an automatic vacuum shutoff valve or vacuum <br />regulator (The shutoff valve can be set to <br />close at a predetermined safe level, preventing <br />the possibility of accidentally imposing a high <br />vacuum that could damage the tank. The use of <br />the valve is recommended because it limits the <br />vacuum that can be applied to the interstitial <br />space.); <br />• vacuum gauge with a range of 0 inches to 30 <br />inches Hg graduated in increments of 0.5 inches <br />Hg or less; <br />• toggle valve and vacuum hose; <br />• stopwatch or other time measurement device <br />capable of measuring a l -second increment; <br />• plumber's plug. <br />4.2.8 Test Procedure. <br />1. Install the plumber's plug in the interstitial <br />riser(s) below any tees. <br />2. Connect the vacuum gauge, valve and the <br />vacuum -generating device to the fitting on the <br />plumber's plug. The valve should be between <br />the vacuum source inlet and the pressure <br />gauge. The gauge should be between the valve <br />and the fitting so it will read the interstitial vac- <br />uum when the valve is closed. The automatic <br />vacuum shutoff valve is located at the inlet of <br />the vacuum -producing device and should be <br />set at a minimum of 10 percent and no more <br />than 2 inches Hg above the test vacuum. <br />3. Ensure all connections are airtight. <br />4. Start the vacuum -generating device, and open <br />the valve. <br />5. Pull the vacuum to 10 inches Hg. Close the <br />valve. <br />S. Allow the vacuum to stabilize for a minimum <br />of 5 minutes at the specified vacuum level. If <br />a stable vacuum cannot be maintained, test <br />equipment shall be inspected for leakage. <br />0 pei.org <br />Repeat steps 4 and 5 until a stable vacuum is <br />achieved. If a stable vacuum cannot be main- <br />tained, the tank secondary containment integ- <br />rity test fails. <br />7. When the vacuum level stabilizes, record the <br />vacuum level and the test start time. <br />S. Observe the vacuum level for the period of <br />time shown in Table 4-1. <br />9. Record the final time and vacuum level. <br />10. Check the interstitial space for accumulation <br />of liquids. <br />4RIF4 <br />Vacuum, Capacity, Duration, <br />Inches Hg gallons hours <br /><20,000 1 <br />10 <br />20,000+ 2 <br />4.2.9 Pass/Fail Criteria. If there is no loss in <br />vacuum level, no liquids are drawn into the inter- <br />stitial space during the test duration shown in Table <br />4.1, and the tank secondary containment area has <br />no additional fluid than at the start of the test, then <br />the tank secondary containment passes the test. <br />If there is any vacuum lost during the test or liquids <br />are drawn into the interstitial space, then the tank <br />secondary containment fails the test. <br />4.3 Tank Secondary Containment Integrity Testing <br />— Liquld-Filled Test Method. <br />4.3.1 General. This test method tests the integ- <br />rity of the liquid -filled interstitial space. There are <br />a number of variables that affect this test, such as <br />interstitial space volume, temperature, water table <br />and product level in the primary tank. Refer to <br />Appendix A for specific manufacturers' test proce- <br />dures. <br />4.3.2 Purpose. This general method is used to <br />test the integrity of the liquid -filled secondary con- <br />tainment of a UST. <br />4.3.3 Description of Test. Liquid is added to <br />the interstitial space of the tank and the level is <br />brought up into the interstitial riser. The liquid level <br />is monitored for a specified period of time. If the <br />liquid level is maintained, then the containment <br />system has passed the test. <br />