NR 812.32(5)(b)2.a.a. A minimum 12 inch high concrete pump platform shall be poured surrounding the well casing pipe. The well casing pipe shall project at least one inch up into the pump discharge head. NR 812.32(5)(b)2.b.b. If the pump discharge head does not have enough recess to extend down over the well casing pipe at least one inch, a cast iron or steel subbase sanitary ring at least one inch thick shall be bolted to the base of the discharge head and installed surrounding the well casing pipe. A compressible neoprene gasket shall be installed between the base of the discharge head and the sanitary ring or subbase unless the metal surfaces are machined. As an alternative a flange may be welded to the top of the well casing pipe. NR 812.32(5)(b)2.c.c. If a concrete pump platform is not to be poured surrounding the well casing pipe, a steel flange shall be welded watertight to the top of the well casing pipe. The base of the discharge head shall be bolted to the casing flange and a compressible neoprene gasket shall be installed between the 2. NR 812.32(5)(b)2.d.d. The well casing pipe may be enlarged above grade to accommodate the pump column flange, by fillet welding or threading a steel flange plate watertight to the top of the well casing pipe. A piece of larger diameter pipe meeting Table B requirements shall then be fillet welded watertight to the top of the flange plate. The pump discharge head shall then be installed as provided in subd. 2. a. to c. NR 812.32(5)(b)3.a.a. Water lubricated lineshaft turbine pumps shall be used for potable wells. In water levels deeper than 50 feet, the pump column bearings shall be pre-lubricated prior to pump start up. Lubrication during pump backspin shall be provided if necessary. Water for lubrication of pumps shall be supplied by piping connected to a supplemental pressure system of the potable water supply. Water lubricated lineshaft turbine pumps are recommended for nonpotable wells. NR 812.32(5)(b)3.b.b. Oil lubricated lineshaft turbine pumps may be used for potable wells when the pumping water level is deeper than 250 feet except when the pump operation is expected to lower the water level in the well to a depth less than 5 feet above the bottom of the well casing pipe. Oil lubricated lineshaft turbine pumps may be used for wells provided the lubricants are USDA or FDA approved food contact grade formulations. NR 812.32 NoteNote: Such formulations are usually based on National Formulary white, food grade mineral oil.
NR 812.32 NoteNote: The department may allow the installation of oil lubricated lineshaft turbine pumps for potable wells when the pumping water level is less than 250 feet deep when unique circumstances warrant such installation.
NR 812.32(6)(6) Discharge lines from lineshaft turbine pumps. NR 812.32(6)(a)(a) Pressurized. Discharge lines from lineshaft turbine pumps that are maintained under system pressure at all times shall contain an air-vacuum relief valve preceding a check valve. A well vent shall be installed in the pump base. High capacity well pump installation is depicted in Figure 3 of ch. NR 812 Appendix. NR 812.32 NoteNote: Where backspin may be expected to occur, the department recommends a time delay or backspin ratchet be provided to protect the motor in the event the pump controls are energized before the pump stops backspinning.
NR 812.32(6)(b)(b) Nonpressurized. Discharge lines from lineshaft turbine pumps shall contain an UL approved check valve and an air-vacuum relief valve near the pump, and prior to any buried portion of discharge pipe. When water is pumped to a pond or other body of water, the end of the pump discharge pipe shall be extended at least 2 feet above the highest elevation of the water in the pond or other body of water. NR 812.32(7)(a)(a) Hand pump heads shall be designed and fabricated so there are no unprotected openings, other than the spout, to the interior of the pump. The water spout shall turn downward and be closed on top. If a separate watertight port is provided for priming, it shall be sealed watertight when not being used. Unsealed openings may not exist in the pumpbase. If the pump is installed outside, a concrete crack-free watertight pump platform at least 6 feet in diameter shall be provided. The top of this platform may be at ground grade, but in any case the platform shall be mounded so that water does not accumulate around the well. If excess water flow from the pump spout is channelized, it shall be directed to a point at least 8 feet from the well with a drain pipe or watertight channel. NR 812.32(7)(b)(b) Hand pumps shall be connected firmly to the well casing pipe by threading in small diameter well casing pipe or by bolting the pumpbase flange to a well casing pipe flange with a gasket to seal the top of the casing. Other types of hand pump bases may be used if they meet the approval requirements specified in s. NR 812.091 for vermin-proof caps and seals. NR 812.32(8)(8) Casing not part of pump installation. The well casing pipe for any drilled well greater than 2 inches in diameter may not be used as a delivery pipe in the pumping operation, except when the well casing pipe is under continuous pressure as with a packer-jet pump installation. NR 812.32(9)(a)(a) Underground pipe connections. Underground pipe connections may only be made to a flowing well with an approved pitless adapter. NR 812.32(9)(b)(b) Unprotected suction lines. An off-set shallow well pump may not be connected directly to the buried pipe exiting a pitless adapter or unit of a flowing well or to a pipe extending out of the seal at the top of the well and redirected back into the ground. Buried piping from the flowing well shall discharge to a surge tank having either an overflow pipe or an air-vacuum relief valve installed in the top of the tank. A booster pump shall be connected to the surge tank and discharge into a pressure tank. NR 812.32(9)(c)1.1. When a flowing well is placed in use, the flow from the well shall be regulated by means of a control valve with a screened outlet or with a restricting orifice to prevent waste of water. The control valve shall be restricted as much as possible and closed if the flow ceases. NR 812.32(9)(c)2.2. A controlled overflow pipe or other means shall be installed for a flowing well to prevent damage from overflowing water or to prevent freezing of the top of the well. NR 812.32(9)(c)3.3. When necessary, overflow piping shall be installed to prevent flow of water up the outside of the well casing pipe or to prevent freezing of water inside the casing. When installed, the flow of water from the discharge pipe shall be limited to a minimum so as to preserve groundwater and water pressure. The overflow pipe shall be installed to extend through the well cap or seal or shall extend off a surge tank in the basement. The overflow pipe may be attached to the outside wall of the well casing pipe if both the point of exit from the well casing pipe and the terminus of the overflow are at least 12 inches above the ground grade and the connection to the well casing pipe is watertight. The overflow pipe shall terminate at least 2 pipe diameters above any drain inlet at the well site, in a building or in a building basement. If the overflow is installed at the well head, the overflow shall extend at least 2 feet above the regional flood elevation and a free air gap of at least 2 pipe diameters above the drain shall be provided. The receiving drain shall discharge to the ground or to a gravel pocket at a point at least 8 feet from the well. A funnel receptacle shall be installed on the inlet of the drain to accept all of the overflow water, to prevent splashing and prevent ponding of water around the well casing pipe. If a pump is installed in the well and the well stops flowing during pumping, a screen shall be installed on the overflow pipe. NR 812.32(9)(d)(d) Complying installations. Illustrations of complying pump installations for flowing wells are shown in Figures 4 to 6 of ch. NR 812 Appendix. NR 812.32 HistoryHistory: Cr. Register, January, 1991, No. 421, eff. 2-1-91; am. (2) (a) 1. and 5., (6) (b) and Figure 32, renum. (4) (b), (6) (c), (7) and (8) to be (4) (b) 1., (7) to (9) and am. (7), (9) (c) 2. and 3., cr. (1) (a) 6., (d) and (4) (b) 2., Register, September, 1994, No. 465, eff. 10-1-94; correction in (4) (b) 1. c. made under s. 13.93 (2m) (b) 7., Stats., Register, May, 2000, No. 533; correction in (4) (b) 1. c. made under s. 13.92 (4) (b) 7., Stats., Register December 2011 No. 672; reprinted to reinsert omitted text in (4) Register January 2012 No. 67; CR 13-099: am. (1) (a) (intro.), cr. (1) (e), (f), am. (2) (b), cr. (4) (c), (d), am. (5) (b) 3. b., (6) (b), (9) (c) 3., cr. (9) (d) Register September 2014 No. 705, eff. 10-1-14; correction in (9) (d) title made under s. 13.92 (4) (b) 2., Stats., Register September 2014 No. 705; CR 18-095: am. (1) (a) 2., (c), (2) (a) 1., 3., r. (2) (a) 5., am. (2) (b), (3), (5) (b) 2. a. to d., (6) (a), (7), (9) (d) Register June 2020 No. 774, eff. 7-1-20; correction in (1) (a) 1. to 4., (c) made under s. 35.17, Stats., Register June 2020 No. 774. NR 812.33NR 812.33 Water storage vessels. The department recommends that pressure tanks be sufficiently sized to provide the minimum pump run time recommended by the pump manufacturer. NR 812.33 NoteNote: Community water systems regulated under ch. NR 811 are required to have a gross pressure tank volume of 10 times the pump capacity. NR 812.33(1)(a)(a) General. Tanks relying on expansion of a flexible membrane within a restricting container, rather than on a water to air interface to provide pressure in the water system, may be used. All pressure tanks for storing potable water under pressure, including those having an air space for expansion, shall be identified by seal, label or plate indicating the manufacturers name and model number and shall meet the following specifications: NR 812.33(1)(a)1.1. Pressure tanks to be buried shall be constructed of steel, fiberglass or other comparable non-metallic composite material. Steel tanks with metallic discharge piping, meeting the requirements of s. NR 812.28, shall be used in contaminated soil areas. Steel tanks to be buried shall have a minimum wall thickness of 0.25 inches. Fiberglass or other non-metallic tanks to be buried shall have the structural strength to prevent collapse of the tank. Manufacturer’s instructions shall be followed. All buried tanks shall be back-filled in place with sand, compacted in place. Steel pitless receiver tanks, when they are part of approved pitless units attached directly to the well casing pipe, shall also have a minimum wall thickness of 0.25 inches. Any air unloader pipe, tank air valve or any other pipe connection extending up to the ground surface shall be steel pipe meeting the requirements of s. NR 812.28 and shall terminate at least 12 inches above ground grade. NR 812.33 NoteNote: The department recommends that a surface air check kit be installed for a buried pressure tank to check, maintain and adjust the air pressure pre-charge of the tank. Also, in uncontaminated soil areas, pipe and pipe connections to the tank should be made with flexible pipe and fittings meeting the requirements of s. NR 812.28 to minimize strain or pressure on the tank or the tank fittings. NR 812.33(1)(a)2.2. Pressure tanks having a gross volume in excess of 500 gallons, and not having a water to air interface bladder, shall have the following: NR 812.33(1)(a)2.a.a. If the tank is buried, all electrical controls extended to at least above ground grade. NR 812.33(1)(a)2.b.b. Each tank shall have an access manhole, a drain, and pressure gauge, pressure relief valve, water sight glass and pressure or probe operated controls for the pumps. NR 812.33(1)(a)2.d.d. Any interior protective materials including but not limited to liners, paints, coatings,or sealants shall be certified for potable water use under NSF Standard 61. NR 812.33 NoteNote: The department recommends that the tank have bypass piping to allow operation of the system while the tank is being repaired or painted.
NR 812.33(1)(b)(b) Pressure tanks larger than 1,000 gallons gross volume. An approval shall be obtained for pressure tanks having a gross volume greater than 1,000 gallons. The department recommends that pressure tanks having a volume greater than 1,000 gallons be installed above ground. When approved, the tank shall be installed according to the requirements of par. (a). When tanks of this size are approved for burial, the head end of the tank shall be cradled in a basement wall or in the wall of an approved pit to provide access and shall be constructed to the specifications for pits described in s. NR 812.36 (2) to provide access to the head of the tank. The pit shall have other additional support cradles. Pitless receiver tanks having a volume greater than 1,000 gallons may be installed without an access pit. NR 812.33(2)(2) Nonpressure storage vessels. Nonpressure storage vessels, designed as part of a potable water supply system, may not be installed without approval from the department under s. NR 812.09. Approval is required regardless of whether or not there is a free-air gap in the water inlet line upstream of the vessel. Vessel approval is based on methods of construction and sanitary provisions. The installation of a surge tank is exempt from this approval requirement. NR 812.33(2)(b)(b) Reservoirs and elevated storage tanks. A reservoir may be constructed to store water if it is constructed above the groundwater level and in accordance with this paragraph and Figure 7 of ch. NR 812 Appendix. NR 812.33(2)(b)1.a.a. Gravity supply pipes shall be located entirely above grade and shall be conducted to the reservoir through the roof or through the curbing for the manhole. The overflow pipe described in subd. 1. b. may be installed at such a level to provide a free-air gap. Buried supply pipe shall be maintained under a continuous pressure head which is greater than the ground surface elevation. NR 812.33 NoteNote: The department recommends that trees and shrubs not be planted within 25 feet of a reservoir.
NR 812.33(2)(b)1.b.b. An exposed overflow pipe shall be located just under the roof of the reservoir or outside the elevated storage tank and shall extend at least 8 feet away. The overflow pipe shall terminate with a downturned, screened elbow located at least 12 inches above ground grade. The pipe shall discharge onto a splash plate and have sufficient diameter to permit wasting water at a rate in excess of the inflow from the water source. NR 812.33(2)(b)2.2. ‘Steel construction specifications.’ Steel reservoirs or elevated storage tanks shall meet the requirements of AWWA D100-84 for welded construction or AWWA D103-80 for bolted construction. NR 812.33(2)(b)3.3. ‘Access.’ Water storage structures shall be designed with convenient access for cleaning and maintenance. NR 812.33(2)(b)4.4. ‘Concrete construction specifications.’ Reservoirs constructed of concrete shall meet the following specifications: NR 812.33(2)(b)4.b.b. An impervious flexible water stop strip for wall construction joint and a reservoir drain facility shall be installed before the concrete is poured. NR 812.33(2)(b)4.c.c. The floor of the reservoir shall be reinforced poured concrete with a thickness of at least 6 inches and shall have a curbing wall 6 inches high and 6 inches thick having a keyway or a flexible water stop strip for a construction joint with the walls. NR 812.33(2)(b)4.d.d. The walls of the reservoir shall be reinforced poured concrete at least 6 inches thick and terminate above the established ground grade. NR 812.33(2)(b)4.e.e. The roof shall be reinforced poured concrete at least 6 inches thick and shall extend at least 12 inches above established ground grade. An access manhole at least 20 inches in diameter or 20 inches square shall be constructed as an integral part of the roof. The manhole shall have a curbing wall extending at least 12 inches above the roof. The department recommends that the manhole shall be constructed entirely of 4-inch thick reinforced poured concrete, but may be fabricated of 1/4-inch steel or cast iron frame with a gasket and bolted cover. The curbing shall be provided with a snug fitting, overlapping cover with a minimum of 3-inch wide skirted sides. The department recommends that the cover be constructed with welded sheet steel, but may be constructed with reinforced poured concrete. Concrete shall be mixed according to the requirements specified in s. NR 812.11 (15) (e). NR 812.33(2)(b)5.5. ‘Location requirements.’ A reservoir shall be located according to the requirements of s. NR 812.08, including the minimum separation distance requirements of s. NR 812.08 (4) established for existing or proposed potential sources of contamination. NR 812.33(3)(3) Painting and cathodic protection. Metal surfaces of reservoirs or elevated storage tanks, to be in contact with potable water, shall be protected by paints, other protective coatings, or by cathodic protection except when documentation is provided to the department that the source water will not be aggressive or corrosive to the metal surfaces. Paint or coating systems shall conform with AWWA standard D102 and shall be NSF approved for use with potable water. When cathodic protection is to be provided, it shall be designed and installed by competent technical personnel. A copy of the AWWA standards are available for inspection at the office of the department of natural resources and the office of the legislative reference bureau, and may be obtained for personal use from AWWA, Inc., 6666 W. Quincy Avenue, Denver, Colorado 80235. NR 812.33 HistoryHistory: Cr. Register, January, 1991, No. 421, eff. 2-1-91; am. (1) (a) (title), 1., (b), (2) (b) 1. a., Register, September, 1994, No. 465, eff. 10-1-94; am. (1) (a) (intro.), 1., Register, September, 1996, No. 489, eff. 10-1-96; correction in (3) under s. 13.92 (4) (b) 6., Stats., Register July 2010 No. 655; CR 13-099: am. (1) (a) 1., cr. (1) (a) 2. d., am. (1) (b), (2) (intro.), cr. (2) (b) 5., am. (3), r. and recr. Figures 36b., 36c. Register September 2014 No. 705, eff. 10-1-14; CR 18-095: am. (1) (b), (2) (intro.), (b) (intro.), 4. e. Register June 2020 No. 774, eff. 7-1-20; (2) (b) 5. (title) created under s. 13.92 (4) (b) 2., Stats., Register June 2020 No. 774; correction in (3) made under s. 13.92 (4) (b) 6., Stats., Register April 2023 No. 808. NR 812.34(1)(1) A pump installer shall install a sample faucet in accordance with all of the following requirements: NR 812.34(1)(a)(a) The sample faucet shall be installed at or upstream of the pressure tank and upstream of any water treatment equipment for collection of water samples directly from the well. NR 812.34(1)(b)(b) The sample faucet shall be installed at least 12 inches above the floor, have a downturned spout, and be in an accessible location. All sample faucets shall be metal and shall have an inside diameter of at least 1/4 inch. The sample faucet shall have a smooth end. Threaded faucets and threaded drain valves may not be installed in place of a smooth end sample faucet even if the threads have been filed off. Petcocks may not be used as sample faucets. Any faucet used for recirculation shall be installed with a hose connection vacuum breaker. NR 812.34(1)(c)(c) Sample faucets shall be installed in the pump discharge piping upstream of the pressure tank entry except in any of the following cases: NR 812.34(1)(c)1.1. When a buried pressure tank, a pitless receiver tank or an above ground discharge unit is installed, the sampling faucet shall be installed immediately following the point of entry into the building or building basement. NR 812.34(1)(c)2.2. When an approved above ground discharge unit is used and the pressure tank is in the basement, the sampling faucet shall be installed in the service pipe from the tank at least 12 inches above the floor. The sampling faucet may be placed in the pump discharge line if there is no loss of air from the system when the faucet is opened. NR 812.34(2)(2) An entry point sample faucet shall also be installed for a non-community water system after treatment or chemical addition, if any, but prior to the distribution system for sample collection and compliance with the monitoring requirements of ch. NR 809. The entry point sample faucet shall meet all the requirements specified in sub. (1) (b). NR 812.34 HistoryHistory: Cr. Register, January, 1991, No. 421, eff. 2-1-91; am. (intro.), (1), Register, September, 1994, No. 465, eff. 10-1-94; CR 13-099: am. (title), (intro.) Register September 2014 No. 705, eff. 10-1-14; CR 18-095: r. and recr. Register June 2020 No. 774, eff. 7-1-20; correction in (1) (c) 2. made under s. 35.17, Stats., Register June 2020 No. 774. NR 812.35NR 812.35 Yard hydrants. Yard hydrants may be installed in a water system provided they are not installed in or on a well and have been approved by the department of safety and professional services for this purpose. All backflow prevention devices shall comply with ch. SPS 384 and shall be installed and maintained in accordance with ch. SPS 382. NR 812.35(1)(1) Yard hydrants having hose threaded outlets shall either: NR 812.35(1)(a)(a) Have a hose connection vacuum breaker installed on the hose threads. NR 812.35(1)(b)(b) Have a reduced pressure principle backflow preventer or a backflow preventer with intermediate atmospheric vent installed in the water supply pipe which serves only the yard hydrant or hydrants. NR 812.35(2)(2) Yard hydrants without hose threaded outlets may be installed without additional backflow protection if the outlet of the yard hydrants complies with the air gap requirements in s. SPS 382.41. NR 812.35 NoteNote: Chapter SPS 384 requires that backflow prevention devices such as hose connection vacuum breakers, backflow preventers with intermediate atmospheric vent and reduced pressure principle backflow preventers must be reviewed by and receive device approval from department of safety and professional services. Chapter SPS 382 requirements do not allow backflow preventers to be buried or installed in a pit. Installation of hose connection vacuum breakers in areas subject to freezing must be of the type that allows draining. Department of safety and professional services plan approval must be received prior to the installation of a reduced pressure principle backflow preventer. Reduced pressure principle backflow preventers must be installed by a plumber licensed under ch. 145, Stats. and listed by department of safety and professional services to do such work. The device must be tested at least once a year by a department of safety and professional services listed backflow prevention device tester. NR 812.35 NoteNote: As the result of an incorrect transcription of the amendment of sub. (2) by CR 13-099, that provision incorrectly read “Yard hydrants having hose threaded outlets...” from 10-1-14 to 11-1-16. NR 812.35 HistoryHistory: Cr. Register, January, 1991, No. 421, eff. 2-1-91; correction in (intro.) made under s. 13.93 (2m) (b) 12., Stats., Register, September, No. 465; corrections made under s. 13.93 (2m) (b) 4., Stats., Register, September, 1996, No. 489; correction in (intro.) made under s. 13.93 (2m) (b) 7., Stats, Register, May, 2000, No. 533; correction in (intro.), (3) made under s. 13.92 (4) (b) 7., Stats., Register December 2011 No. 672; CR 13-099: am. (intro.), r. (1), renum. (2), (3) to (1), (2) and am. Register September 2014 No. 705, eff. 10-1-14; CR 13-099 transcription error in (2) corrected Register Otober 2016 No. 730; correction in (1) (a) made under s. 35.17, Stats., Register June 2020 No. 774. NR 812.36(1)(1) Approvals to construct pits. A pit structure that is completely or partially below the ground surface or below a building floor used for the housing of wells, off-set pumps, pressure tanks, or heads of pressure tanks may not be constructed without prior written approval from the department under s. NR 812.09. Pits used only for the housing of valves are exempt from the requirements of this section except that a pit used for this purpose shall be watertight, may not be connected to a sewer, shall be drained to permeable soil or to the ground surface and may not be subject to flooding. NR 812.36(2)(2) Specification for new pits. Pits shall conform to Figure 8 of ch. NR 812 Appendix and all of the following minimum specifications: NR 812.36(2)(a)1.1. ‘Area.’ Five square feet of free floor area shall be provided for each square foot of area required for any pump installation equipment. The inside area of a pit may not be less than 24 square feet. NR 812.36(2)(a)2.2. ‘Width.’ The width of the pit shall be not less than 2/3 of the length. NR 812.36(2)(a)3.3. ‘Height.’ The height inside shall be at least 6 feet, but not less than 6 inches higher than any equipment installed in the pit. NR 812.36(2)(a)4.4. ‘Walls, floor and roof thicknesses.’ The wall thickness shall be at least 6 inches and waterproof. The floor thickness shall be at least 4 inches when the floor bears on a footing. Floors used as a wall footing shall be at least 6 inches thick from the outside edge of the floor to a point at least one foot inside the wall of the pit. The roof thickness shall be at least 5 inches. NR 812.36(2)(b)1.1. ‘Material.’ The pit shall be constructed of reinforced poured concrete thoroughly puddled in place. The concrete shall be prepared to meet the requirements specified in s. NR 812.11 (15) (e) or by using clear water and washed sand and gravel or crushed rock in the following proportions: 1 part cement, 2 parts sand, and 3 parts gravel. The water-cement ratio may not exceed 6 gallons of water per 94 pounds of cement. A 6-bag concrete mix per cubic yard with a 28-day design strength of at least 3,000 lbs. per foot and a slump test of no more than 3 inches may be used. NR 812.36(2)(b)2.2. ‘Watertight juncture.’ The junction of walls, floor and roof shall be made watertight by use of water stops or keyed joints. Conduits or similar connection with the pit shall be watertight. NR 812.36(2)(b)3.3. ‘Reinforcement.’ The deck or pit roof and walls of the pit structure shall be reinforced with bars or wire mesh to insure strength and durability. NR 812.36(2)(b)4.4. ‘Elevation of pit roof.’ The pit roof, deck or wall top shall be above the ground surface. NR 812.36(2)(c)1.1. ‘Placement.’ The pit shall be provided with a manhole opening. The opening shall be located directly over the well, unless the well casing pipe itself extends through the roof, or if a capped section of well casing pipe at least equal in diameter to the well casing pipe is cast into the pit roof directly over the well.
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