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Starting at the tank and moving towards the dispenser <br /> describe each section of piping on a separate page <br /> Tank# �of <br /> PIPING <br /> PIPING SECTION #_�_ of _3L <br /> Describe the placement of the piping: <br /> underground 0 Aboveground ❑Floating 0 Underwater <br /> C3Suspended under dock ❑Above/along side the dock O Other <br /> How does the piping adapt to water level fluctuations? <br /> 0 Excess flexible piping that is not on hose reel O Hose Reel [ rrnecessary <br /> O Connected/disconnected manually 0 Other <br /> Estimated length of this section of piping: <br /> A-50 feet ❑So- 150 feet ❑ 150-250 feet O 250-350 feet O 350-500 feet O>500 feet . <br /> Piping construction: W ❑DW (see glossary of terms for specific definition of DW) <br /> Primary piping: <br /> ❑ Rubber Hose ' Ielallic 0 Non-Metallic Rigid 0 Non-Metallic Flexible O Other <br /> r" <br /> Is the primary piping protected against corrosion? 0 Yes v4i. ❑Unknown <br /> If so,how? <br /> Secondary piping: o Secondary piping <br /> ❑ Rubber Hose /❑_Metallic 0 Non-Metallic Rigid 0 Non-Metallic Flexible O Other <br /> Is the secondary piping protected against corrosion? 0 Yes O No <br /> OUnknown <br /> If so,how? <br /> Type of monitoring: <br /> 1No Monitoring <br /> ❑ Electronic Frequency__ <br /> ❑Mechanical Frequency <br /> ❑Line Tightness Test Frequency <br /> ❑Visual Frequency <br /> Location of piping transition point: <br /> 'Over water ❑Over land 0 Underwater <br /> Is the piping transition secondarily contained? <br /> 0 YeIt0 If so,how? <br /> Comments <br /> 10/23100 <br /> SWRCB <br />