a. One 12,000-gallon AvGas double wall storage tank meeting UL 142 with ladder and platform. Tank will be sloped to drain. b. One 20-gallon (minimum) stainless steel fuel recovery tank system. The system will include an electric pump for circulation of recovered fuel back into the main tank. c. Provide low-level sensor and alarm in recovery tank to provide local indication and alarm of a tank low-level condition. d. One 22-gallon per minute off load pump. e. Relocation of and integration of existing QT M4000 fuel management system. f. Fully enclosed weatherproof QT shelter that will have occupancy sensor-controlled interior LED lighting. g. Wi-Fi bridge connection to be provided as part of QT shelter and compatible with the existing extender. Antenna will be mounted to the exterior of the QT shelter with a direct line of sight to the Wi-Fi extender located on the SRE building to the south of the project area. h. Fully enclosed fuel dispenser cabinets with electric hose reel returns and static grounding cables. Dispenser will be rotated 90 degrees from the long axis of the tank for direct hose access to the ramp. Provide internal lighting inside the cabinet. i. One AvGas hand nozzle with 100 feet of hose length. j. Capability to re-circulate fuel through Coalescer-Separator system from sumps to storage tanks. k. Hand-operated water draw-off pump. l. Hand-held fire extinguishers required by applicable codes. m. All piping will be stainless steel. n. Provide all above and underground power and control wiring necessary for the operation of the system. All conduits and power and control wiring between the existing electrical service meter, power equipment rack, and fuel farm system equipment shall be underground. All other conduits and electrical and control wiring shall be underground to the maximum extend practical as applicable to their function. o. Provide pumps necessary to provide fuel to the supply points listed above. p. Provide AvGas Coalescer-Separator. q. Filter Monitoring Element is NOT acceptable. r. All carbon steel components will be coated. s. Provide key lock emergency fuel shut off switch, support pedestal/post, and signage compliant with NFPA 407. t. Provide a spill kit for installation. u. Provide fire extinguishers inside enclosures. v. Provide impact protection (bollards) compliant with NFPA 407 around proposed systems. w. Provide valves compliant with API valve standards for fire resistance as referenced in Part I above. x. Provide power equipment rack with power panelboard in NEMA 4X stainless steel enclosure, including concrete foundation, lighting protection per NFPA 780 and grounding system. y. Provide NEMA 4X stainless steel junction box at existing utility pole for routing of fuel farm power feed and emergency stop wiring. z. Provide handhole for routing of power cables into power panelboard. aa. All power and control conductors, grounding and lightning protection components, and panelboard busses shall be copper. All insulated power cables shall be type XHHW. All ground rods shall be copper clad steel, minimum 3/4" x 10’. Grounding connections below grade shall be made via exothermic weld. bb. All underground electrical conduits and fittings shall be Schedule 40 or 80 PVC, or PVC coated Rigid Galvanized Steel. Conduits or ductbanks under paved areas shall be concrete encased Schedule 80 PVC extending 5 ft. minimum beyond paved areas. cc. All above ground electrical conduits and fittings shall be rigid galvanized steel. Above ground electrical conduits where exposed to weather shall be PVC coated rigid galvanized steel. Provide seal-off type fittings at boundaries to hazardous areas as required by applicable codes. dd. All electrical installation work shall be performed in accordance with NECA 1 – Standard for Good Workmanship in Electrical Construction.
