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Deadmen should be installed along the center line of anchor points, taking care to have good cross alignment tl" with adjacent deadman mothers. The two outer anchor points should be used for lowering deadmea into the tank hole. If the contractor elects to cast deadmeo in place in the hole, the same anchor* should be used with equal reinforcement. Any other substitute method will require equal horixontal area, anchor points of equal strength to the wire rope required, and approval of the Shell engineer. 4. CHANCE ANCHORS Chance anchor@ can be used to anchor tanks. Size, number and type vary with soil conditions which must be determined. Attach anchors to straps with wire cable and clamp. Do not use without determining holding strength of actual coil for this method. Anchoring system design must be capable of resisting stress shown in the table below. 5. ALL ANCHOR METHODS Minimums Per Anchor Location. TANK DIAMETER 6' OR LESS B' 10' Wire Rope (Recommend 6 x 19 plow steel) Diameter 3/8" 1/2" 1/2" Tensile St. 9,000 12,500 16,000 Turnbuckle Diameter Hook Type 3/4" 1-1/4" 1-1/4" Eye Type 1/2" 1/2" 3/4" XIV -9 SOIL STABILIZATION/FILTER FABRIC EXCAVATION LINER Soil stabilization/filter fabric as specified below will be used to line the bottom and side walls of all excavations for fiber- glass tanks except those in solid rock. For purposes of this specification, solid rock will include igneous rocks (granite, etc.), sedimentary rocks (conglomerates, sandstone, shale, limestone, etc.), and metame rphic rocks (gnieses, schists, slates, etc.). If only a portion of the hole is excavated from solid rock, then only that portion, which is not, should be lined. (For instance: If only the bottom foot or so of the excavation is in solid rock, then the sidevalls should be draped with the fabric so as to overlap into the rock area.) There are several inexpensive inert soil stabilization filter fabrics available which provide a separation between existing soil and compatible backfills. When this material is used, the 1/2 diameter tank spacing from ends and sides of tanks to hole walls is not required. DuPont "TYPAR" spunbonded polypropylene Style 3401 - 4 oz/sq yd fabric or approved equal may be used. Ibis material comes in. rolls of 100, 300, and 1,000 yards in 12'-7" and 15'-7" widths. (Other manufacturers may vary.) Material should be laid with minimum laps of approximately 2' width so that the excavation is completely lined and overlaying the top of the hole perimeter one to two feet and pinned in place. See the drawing for a suggested layout method of utilizing the 15'-7" wide material. CONCRETE _SLAB ALTERNATE In situations involving extremely low bearing soil and adverse water conditions, a concrete slab under the tanks may be used as an alternate to the filter fabric method. Install prefabricated reinforced concrete deadmen as outlined in Section 9. Between the deadmen, under each tank area, construct a reinforced concrete slab with a minimum thickness of 6" reinforced with 6" x 6 06 wire mesh. P If contractor elects to cast a single slab, including the tank anchors, the slab should be deepened to provide the same cross section area as provided by the deadmen, and install the acme steel reinforcement and anchor points. If a concrete slab is used under the tanks, the filter fabric should be used as well to line the walls of the excavated ares. XIV -10 BALLASTING When ballasting of fiberglass tanks to required, water or product may be used and ballasting done in strict compliance with these specifications. Prior to delivery of Shell gasoline, the following items should be taken into consideration by the contractor: Forty-eight hours notice to plant is required for delivery of product for ballast. Assure proper access to site for delivery vehicle and advise Shell engineer of hose requirement needed to make delivery. A Shell representative will be on hand to verify and accept delivery and custody of product for the district. Upon completion of delivery, contractor and Shell representative should jointly verify the quantity of product delivered. At this time, suitable locks will be provided by Shell to secure fill caps. XIV -11 CHECK TANK DIAMETER FOR PROPER INSTALLATION Normal installation with specification pea gravel, and tank properly bedded, will normally result in a decrease in the vertical diameter of an 8' diameter tank of approximately I percent of I" at the fitting nearest the center of the tank. While a 2% deflection is within deflection design tolerance, IX is considered to be the maximum acceptable. Should the deflection exceed this limit, it is an indication that proper compaction has not been achieved. The pea gravel may contain fines below specification and some mechanical compaction by vibration may be required for consolidation of the backfill. Rater to Exhibit "B" for procedures for entering now fiberglass (A) tanks. See chart below for Owens-Corning G -Serine guidelines for minimum/ maximum vertical, horizontal and bottom flatness measurements. INSTALLATION CHECKLIST AND INTERNAL INSPECTION FORM I A completed "Installation Checklist and Internal Inspection" form is to be provided the Shell Engineer for approval on completion of the tank installation. G-6 TANKS All sizes - (6-12M) 1 2 3 4 r4' 1/3 1/3 1/3 4' Manufactured I.D. Vertical i Norisontal Min. Max. Manufactured Bottom Flat - Max. Mia. G-3 TANKS G-3" 12M Manufactured I.D. Vertical L Horizontal Min. Max. Manufactured Bottom Flat Max. Min. G-3 IOM Manufactured I.D. Vertical & Horizontal Min. Max. Manufactured Bottom Flat Max. Min. G-:3 8M Manufactured I.D. Veirtical 6 Horizontal His. He=. Manufactured Bottom Flat Max. Min. G-:3 6M Manufactured I.D. Vertical L Horizontal Min. Max. Manufactured Bottom Flat Max. Min. 92 92 92 92 90 3/4 90 3/4 90 3/4 90 3/4 93 1/4 93 1/4 93 1/4 93 1/4 13/16 15/16 15/16 13/16 3/4 3/4 3/4 3/4 90 91 1/4 91 1/4 90 68' 3/4 90 90 a6 3/4 91 1/4 92 1/2 92 1/2 91 1/4 15/16 15/16 15/16 15/16 3/4 3/4 3/4 3/4 90 90 1/8 91 1/6 90 88 3/4 89 7/8 69 7/6 83 /4 91 1/4 92 3/8 92 3/8 91 i'/4 15/16 15/16 15/16 15/16 3/4 3/4 3/4 3/4 90 90 7/8 90 7/8 90 66 3/4 89 3/8 89 3/8 88 3/4 91 1/4 92 1/8 92 1/3 91 1/4 15/16 15/16 15/16 15/16 3/4 3/4 3/4 3/4 90 90 3/4 92 92 1/2 88 3/4 89 1/2 90 3/4 91 1/4 91 1/4 92 93 1/4 93 3/4 15/16 15/16 15/16 15/16 3/4 3/4 3/4 3/4 IXIV-12 FLOAT -OUT Tanks not anchored (with backfill to top of tanks ready for piping and fully ballasted with gasoline) can float out should the tank hole be completely flooded with surface or ground water. Anchored tanks, fully ballasted, and backfilled similarly will not float out due to the weight of backfill on tank slab or deadmen. In either case, it is therefore, essential that the tank hole be filled completely with backfill to top of tanks. If not anchored, a minimum of 2 feet of additional fill above tanks would be required to prevent floatation under extreme conditions. It, therefore, is important that necessary installation and piping above the tanks be completed as quickly as possible so that this additional fill can be placed. IXIV-13 PIPING 1. INTERNAL PIPING$OR PUMP It is recommended that actual clearances from the top of fitting to tank bottom be measured to insure that adequate clearances are maintained for remote pump, fill tube or any other internal piping installed. The pump and attached piping must be free to move with the tank. Use fill box around fill pipe at grade where asphalt or concrete pad is used. Do not place brick or other spacing. material on top of tanks. Ally -14 FILLING_rAN_XS , Do not fill tanks until backfill is to t -u of tank. Never add product or water for hold down in dry hole conJ—itions until backfilling is completed. (EXCEPTION --SEE INSTALLATION PROCEDURE --WET HOLE) HIV -15 ADDING TANKS TO EXISTING INSTALLATIONS Tanks can be added to existing installations. It is important to remember that fiberglass tanks require good foundation support from surrounding soil and are not self-supporting under fuel or overburden loads. The following guides are suggestions to reduce loads from soil or product on uncovered tanks to no damage will occur. Final selection of method is the responsibility of the Shell engineer depending on local site conditions. See plot plan and addenda. 1. ISOLATED BURY (PREFERRED) Install tanks in separate hole which is a minimum of 3' from edge of original tank installation hole. Undisturbed soil between new excavation and original hole must be maintained. Keep surface loads off existing tanks. , 2. BURY IN SAME HOLE (ALTERNATE) A. Lower product level in existing tanks to less than 1/3 tank capacity. R. Remove surface pad, if one exists, to lower backfill. C. Excavate for new tanks, leaving as such backfill as possible around existing tanks. D. During installation, existing tanks must not be allowed to move. Shoring and sheeting may be required to retain backfill. E. Install new tanks as described earlier in these instruc- tions, leaving a minimum of 24" between new tanks and existing tanks. F. If backfill material other than pea gravel, stone, or gravel cruchings was used for existing tanks, shoring and sheeting should be left in place or an inert filter fabric should be installed between old and new backfill to prevent any migration into new granular backfill which could lead to tank failure. XIV -16 PERMANENT PIPE SUMPS Four (4) permanent pipe sumps will be installed in the locations shown on the installation drawing. The pipe sumps will consists of two (2) 4" slotted PVC pipes and two (2) 12" perforated PVC pipes. Specifications for the pipe sumps are indicated on the installation drawing. Pipe sumps should be placed in the tank hole before any pea gravel is installed so that the bottom is resting on the filter fabric excavation liner. The 12" sumps and a water pump can very effectively be used to control any water entering the hole during construction. The Shell engineer will furnish a list of national suppliers for the slotted 4" pipe. The 12" pipe can be purchased locally and should be perforated in the contractor's shop or at the job site. The perforated pipe should be wrapped with Typar or double wrapped with common hardware screen. Typar is the preferred wrapping if available in small quantities. XIV. - ALTERNATE SPECIFICATIONS FOR FIBERGLASS TANK INSTALLATION ALTERNATE SAND BACKFILL/WATER COMPACTION METHOD (NOTE: This method is an alternate to the pea gravel backfill method described in Shell drawings DR -81035 and DR -78006-3. Refer to Shell drawing DR -81047 for details pertaining to the bellow specifications. This method requires at least 40,000 gallons of water for ballasting and compaction from a pressurized rater source). GENERAL The contractor accepts full responsibility for proper handling and installation of the fiberglass underground storage tanks and shall insure that good workmanship, practices and construction procedures are followed during the handling and installation of the tanks, regardless of the inclusion or omission of any applicable suggestions in these instructions. Unknown situations or conditions not covered in these instructions are the responsibility of the contractor. Manufacturer's specialists are available for consultation. The presence of a manufacturer or Shell observer at an installation site does not relieve the contractor of his responsibility for proper installation of the.tank. Fiberglass underground tanks must be installed according to these instruc- tions and NFPA 30. Local codes may apply and should be consulted. Failure to follow these installation instructions of fiberglass underground tanks helps to prevent tank damage and to insure long -tern corrgtl ion -proof service. It is imperative to read, understand and follow the instructions below. Fiberglass underground tanks require the backfill material to provide as. much as 90% of the tank support under certain stress conditions. The installing contractor must be positive he has the correct bed and backfill, and must follow these instructions exactly. FOR ADDITIONAL INFORMATION Questions regarding installation procedures or tank repairs should be directed to the Shell engineer. 1. iCONTRACTOR ACCEPTANCE INSPECTION The contractor is responsible for inspection for damage in shipment according to the check list included in the tank shipment. Any discrepancies should be reported to the Shell KnIlinoor, 2. TESTING All tanks must be vented as tanks are designed for operation at atmospheric pressure only. - Plugs and drop tube,fittings are purposely not tightened at the plant to allow for temperature changes during shipment. Prior to setting the tank, the contractor is responsible for making an aerostatic leakage teat at a pressure not exceeding 5 psi. The test is to be conducted for a minimum of one hour without a measurable loss of pressure. .Tanks under pressure should not be left unattended. Use a pressure gauge with full scale of not more than 25 psi. Isolate tanks from piping when pressure testing any piping. Do not approach ends of tanks or manways while tanks are under test. Tanks under pressure ahould not be left unattended. While tank is under pressure, the entire tank, including fittings, should be wetted with a "soapy" solution to inspect for minor leaks which otherwise might not be evident. A garden tank -type sprayer with "Seam Test Solution" manufactured by Winton Products, Charlotite, N.C., is recommended for this purpose. An alternate acceptable solation would be one (1) cup of dishwashing detergent such as Dove or Ivory liquid in a gallon of water. If tanks are dropped or impacted after initial test, retest tanks and soap areas of impact to check for tank damage. If damage has occurred do not attempt repairs. Contact the Shell Engineer. 3. HANDLING A fiberglass tank weighs approximately 1/4 the weight of a comparable steel tank, so it is easier to handle. This tank is ruggedly built and has been designed to withstand normal handling, however, the following precautions shall be taken: CHOCK TANKS Tanks should not be dropped, rolled or impacted. Chock the tanks with used tires until ready for installation and tie them down if high winds are expected. Use minimum 1/2" diameter nylon or hemp rope over each tank and tie to wooden stakes of adequate size to prevent tanks from being moved by high winds. a; LIFTING TANKS Use so installation lift lux(s) to lift tank. On 15,000 and 20,000 gallon tanks, use a spreader bar to insure lift angle of at least 450 at each lift lug. Guide the tank with guidelines. Do not use chains or cables around tanks. If tanks have to be moved, (do not roll) set on smooth ground, free of rocks and foreign objects and rechock. Capacity of lifting equipment must be checked before installation. TANK OPENINGS Tank openings shall remain closed but tanks shall be vented during handling and, up to the time when pipe connections are made, tanks shall be protected from intrusion of foreign matter. All unused openings are to be securely plugged when piping is being installed. 4. EXCAVATION OF TANK HOLE a. STABLE WALLS Those which normally can be made vertical from bed to grade without use of shoring or sheet piling. Hole must be large enough to allow a minimum of 24" between tanks at ribs and a minimum of 24" from ends and sides of tanks to hole walls. Contractor will be responsible for comil isace with OSHA "Construction, Safety & Health Regulations Subpart P - Excavations, Trenching and Shoring, 1926.650 thru 1926.653. b. UNSTABLE WALLS Defined as those soils having less than 750 lbs. per square foot cohesion calculated from an unconfined compression test, or soils with an ultimate bearing capacity of less than,3,500 the. per square foot. Excavation must be large enough to have at least 1/2 the tank diameter between tank and hole side walls. If determined to be necessary by the Shell Engineer, filter fabric such as DuPont "TYPAR" or equal shall be used to line the tank hole to increase tank hole stability. See Shell Drawing - " DR -78005-2. C. DEPTH OF BURIAL Tank hole shall have a minimum depth of 12'-6". This will provide adequate hold down in high water conditions without the use of hold do" straps and deadmen. This excavation depth will provide 3'-6" of cover to finished grade. d, PAD DIMENSIONS Reinforced concrete paving must extend at least 2' beyond tank outline in all directions, as a single slab. Provide 3/4" thick expansion joint all around slab for a 3 -tank system. Slab to be 8" thick with 6"x 6" 4/4 welded wire fabric. A three-fank slab will be cast with two longitudinal construction joints, keyed and dowelled. Dowels to be 94 deformed round steel bars 30" long and placed approximately 48" on center in the center of the slab, Place an 8 mil polyethylene barrier over complete backfill before pouring the slab. e. MAXIMUM BURIAL DEPTH Depth of cover for tanks of t0' or less in diameter in both traffic and no -traffic conditions must not exceed 7' over too* top. , NOTE: NOT ALL SECTIONS OF THESE SPECIFCATIONS APPLY TO THIS JOB, REFER TO PLANS FOR APPLICABLE SECTIONS. 3 OATS APRU'D PRYLIM. PERMIT BID CONST. rAARK DATE RPVIYION6k - •Y GENKIRAL SPECiPICATIONs POPE MODULAR CONSTRUCTION 14445 N. PERSHING AVENUE STOCKTON. CA, $HELL OIL COMPANY PACIFIC NORTHWAYT WSTRICT SCALE _ OWN. BY RHI,♦ w.I.c.,o 204'-.7624-24,' ROBERT H. LEE & ASSOCIATES, INC. ARCHITAGIURx PLANNING fiNtaNRRINO 1027 HOW* AVENUE. .011. SACRAMENTO, CA 00080. 19161 049-4Op2 ((� mal/ T