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f <br />of <br />'a-Gaum <br />-pro 7, <br />M-aximi2e" te-6ti-on-with-a-v <br />monitored secondary containment <br />':, . <br />system. <br />A Secondary Containment Vacuum I Features and, Benefits Facilitates periodic operability testing <br />Sensing System for use with Veeder- Satisfy Requirements . - . s I <br />Leverage ExistmgWedei-Root System <br />Root's ATG Systems. The Second Certified to Meet Caffon-�ials requirement for <br />Secondary Uses SIT as the vacuum source and works with <br />secondary*space monitoring =and, lines <br />Containment Vacuum Sensing (SCVS) Redjad(ellartd FE STFs <br />as required by AB 2481 lrisiiA in the SIT 'sump and connects to the <br />System is designed to detect leaks in double- Satisfies the r�ments for Class I*Lak <br />console via intrinsically sale wiring <br />walled tanks and piping systems while Detecdon as defined by the European Able io'share wiring conduit with other <br />helping to contain a release of product while 'Stiir�dardEN13160-2 <br />Velder-Root intrinsically safe (15) l:i,9bes and i <br />• 3rd Party National W6rlc'Group and LGI 13 <br />sensors including stimp or line leak sensors <br />under vacuum. The system consists of. listed <br />• lnte�rfacps to the Smart Sensbi Interface with <br />• Vacuum Sensors, connected to tank, Re'ducie Exposure to Rash Emi:icdded.Pressuie Module <br />h�rrva ot . be tamedProvides-forposi4vT-shi.it-doWrLof,i)Tessuri2ed. <br />sump or p-i'p-1-hg*-m*Ht—ersffc-e-s­ <br />lines when required <br />orwhe1lTeplenis ratee�cee�s 85 litq-s perhour Sim le installation, n� <br />•to mess vAth brine <br />I <br />A Submersible Turbine Pump (STP), The whenliquidis-delectedin '0 ,ed <br />to provide a source of vacuum the <br />• A Smart Sensor Interface with Embedded <br />Pressure Module in a TLS -350 Operating Temperature Rating: Console Capability <br />Monitoring System 725 degrees. C to +70 degrees C The vacuum Sensor is compatible with <br />the following consoles: <br />Cable Length: Console <br />The Vacuum Sensor is interfaced to Veeder- 8 feet TLS-350R/EMC w/BIR* <br />Root's- TU -350 Monitoring System via TLS -350 Plus/EMG- Enhanced* <br />intrinsically safe wiring to provide system Sensor Dimensions: TLS-350/EMC* <br />status, replenish rate, alarm, and diagnostic 6" high x 5" \Adde 2" deep 'Upgrade Note: The Vacuum Sensor System requiresthe console to have version 24C software(or greater) <br />information. along with an EOPU2 or EM w/ NVMEM 1 board. <br />Standard Models <br />Vacuum Sensor Kits are available in a variety <br />of models: <br />• For monitoring double. walled piping <br />and sump interstices <br />• For monitoring double4alled steel tank <br />interstices (see back page) <br />W-176—rd7offi-le-walled fiberglass tifiks' <br />These kits differ in the number of vacuum <br />sensors and the configuration of associated <br />liquid sensors. An inline kit mounted liquid <br />sensor is used for Vacuum Sensors <br />monitoring piping and sumps. An external <br />space at the bottom of the aaais p-bvtded <br />) i <br />with one of the Vacuum Sensors in the steel <br />and fiberglass tank kits to monitor- the tank. <br />Kits Include mounting bracket, 6' of vacuum hose, relief valve assembly (If recluked) and the appropriate number of liquid sensors, <br />3 -way bell valves, barbed fittings and hose clamps so that each vacuum sensor can monitor a single tank, sump or piping Interstices. <br />The Vamim Sensing System requires one 7 channel Smart Sensor Interface Wth Embedded Pressure Module, 8 channel Smart <br />SensmModules (p/n.32M6.004) can be used for -Vacuum Sensors eight -and above.. <br />Fci��more-i <br />L <br />VEEDER-ROOT <br />