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NR 811.50(11)(d) (d) Additional monitoring. Additional monitoring points shall be provided as necessary to satisfy integrity testing requirements and operational reporting requirements of sub. (10) and s. NR 810.07.
NR 811.50(12) (12) Cross connection control. Cross connection control considerations shall be incorporated into the system design, particularly with regard to chemical feeds and waste piping used for membrane cleaning, waste stream and concentrate. Protection may include block and bleed valves on the chemical cleaning lines and air gaps on the drain lines.
NR 811.50(13) (13) Redundancy of critical components. Redundancy of critical control components including but not limited to pumps, valves, air supply, chemical feed equipment and computers shall be provided.
NR 811.50(14) (14) Post treatment. Post treatment of water treated using reverse osmosis or nanofiltration shall be provided. Post treatment may consist of degasification for carbon dioxide, if excessive, and hydrogen sulfide removal, if present, pH and hardness adjustment for corrosion control, and disinfection as a secondary pathogen control and for distribution system protection.
NR 811.50(15) (15) Bypass water. The design shall provide for a portion of the raw water to bypass the unit to maintain stable water within the distribution system and to improve process economics as long as the raw water does not contain unacceptable contaminants. Alternative filtration shall be provided for bypassed surface water or groundwater under the direct influence of surface water.
NR 811.50(16) (16) Reject water. Reject volumes shall be evaluated in terms of the source availability and from the waste treatment availabilities. The amount of reject water from a unit may be reduced to a limited extent by increasing the feed pressure to the unit. Waste disposal from reverse osmosis or nanofiltration reject water shall discharge to a municipal sewer system, to waste treatment facilities, or to an evaporation pond.
NR 811.50(17) (17) Treatment efficiency. The design treatment efficiency shall be determined by pilot testing.
NR 811.50(18) (18) Power consumption. The power consumption of a particular membrane under consideration shall be evaluated during the pilot study or from other relevant data.
NR 811.50(19) (19) Control systems.
NR 811.50(19)(a)(a) Back-up systems. Automated monitoring and control systems shall be provided with back-up power and operational control systems consisting of the following:
NR 811.50(19)(a)1. 1. Dual running programmable logic controllers (PLCs) with synchronized programs and memory, or spare PLCs loaded with the most current program.
NR 811.50(19)(a)2. 2. Spare input/output (I/O) cards of each type.
NR 811.50(19)(a)3. 3. A minimum of 2 human machine interfaces (HMI).
NR 811.50(19)(a)4. 4. Backup power supply including uninterruptible power supply (UPS).
NR 811.50(19)(b) (b) Remote or unmanned operational control. Systems designed for remote or unmanned control shall be provided alarms, communication systems, and automatic shutdown processes. The department shall be contacted to determine the extent of operational control required. At a minimum the following alarms shall be provided:
NR 811.50(19)(b)1. 1. High raw or filtrate turbidity.
NR 811.50(19)(b)2. 2. Pump failure.
NR 811.50(19)(b)3. 3. High pressure decay test.
NR 811.50(19)(b)4. 4. High transmembrane pressure.
NR 811.50(19)(b)5. 5. PLC failure.
NR 811.50(19)(b)6. 6. Membrane unit shutdown.
NR 811.50(19)(b)7. 7. Clearwell level high or low.
NR 811.50(19)(b)8. 8. Equipment failure.
NR 811.50(19)(b)9. 9. High or low chlorine residual.
NR 811.50(19)(b)10. 10. Low chemical level.
NR 811.50(19)(b)11. 11. Power failure.
NR 811.50(19)(b)12. 12. Building intrusion
NR 811.50(19)(b)13. 13. Building low temperature.
NR 811.50 History History: CR 09-073: cr. Register November 2010 No. 659, eff. 12-1-10; CR 22-074: am. (3) Register January 2024 No. 817, eff. 2-1-24.
NR 811.51 NR 811.51Fluoridation. Sodium fluoride, sodium fluorosilicate and fluorosilicic acid shall conform to the applicable NSF/ANSI Standard 60 and AWWA standards B701, B702, and B703 in effect at the time of use. Other fluoride compounds which may be available shall be approved by the department. The following specific requirements shall be met:
NR 811.51(1) (1) Fluoride chemical storage. Fluoride chemicals shall be stored in accordance with the following requirements:
NR 811.51(1)(a) (a) Fluoride chemicals shall be isolated from other chemicals to prevent contamination.
NR 811.51(1)(b) (b) Fluoride chemicals shall be stored in covered or unopened shipping containers and stored inside a building.
NR 811.51(1)(c) (c) Unsealed storage units for fluorosilicic acid shall be vented to the atmosphere at a point outside the building. The vent piping shall terminate a minimum of 24 inches above grade with a down-turned U-bend. The vent pipe opening shall be covered with a 24-mesh corrosion resistant screen.
NR 811.51(2) (2) Fluoride Acid housing. Equipment for feeding fluoride in the acid form and unsealed acid storage containers shall be housed in accordance with the following requirements:
NR 811.51(2)(a) (a) All chemical feed equipment, solution tanks, and acid containers shall be housed in a separate room within the pumphouse away from controls, electrical contacts, and other equipment subject to damage. Fluoride chemical feed installations shall be installed in a room separate from all other chemicals.
NR 811.51(2)(b) (b) Unsealed acid storage units or solution tanks shall be vented to the outside in accordance with sub. (1).
NR 811.51(2)(c) (c) Ventilation shall be provided for the room.
NR 811.51(2)(d) (d) Entrance may be from inside the pumphouse but shall include a gasketed, sealed door to minimize the transfer of fumes outside the fluoride room.
NR 811.51(3) (3) Chemical feed installations. Chemical feed installations shall:
NR 811.51(3)(a) (a) Conform to the requirements of ss. NR 811.38 to 811.40.
NR 811.51(3)(b) (b) Provide scales, loss-of-weight recorders, liquid level indicators, or graduated feed drums for determining the amount of chemical applied. The method shall be accurate to within 5% of the average daily change in reading. A meter shall be provided on the water fill line to a fluoride saturator.
NR 811.51(3)(c) (c) Not allow fluoride addition before lime-soda softening or ion exchange softening.
NR 811.51(3)(d) (d) Provide feeders accurate to within 5% of any desired feed rate.
NR 811.51(3)(e) (e) Be such that the point of application of fluorosilicic acid, if into a horizontal pipe, shall be in the lower half of the pipe with the chemical injection nozzle projecting upward into the pipe as required by s. NR 811.39 (7) (f).
NR 811.51(3)(f) (f) Provide chemical feeder settings in accordance with s. NR 811.39 (2) (c).
NR 811.51(3)(g) (g) Provide adequate anti-siphon devices for all fluoride feed pumps or lines as required in s. NR 811.39 (2) (e).
NR 811.51(3)(h) (h) Provide soft water for fluoride saturator makeup water. A meter shall be provided on the water fill line to a fluoride saturator.
NR 811.51(4) (4) Secondary controls. Secondary control systems for automatically controlled fluoride chemical feed devices shall be provided as a means of reducing the possibility for overfeed; these may include flow or pressure switches or other equivalent devices.
NR 811.51(5) (5) Dust control. Dust control shall meet the following requirements:
NR 811.51(5)(a) (a) Provision shall be made for the transfer of dry fluoride compounds from shipping containers to storage bins or hoppers in such a way as to minimize the quantity of fluoride dust which may enter the room in which the equipment is installed. The enclosure shall be provided with an exhaust fan and dust filter which place the hopper under a negative pressure. Air exhausted from fluoride handling equipment shall discharge through a dust filter to the atmosphere outside of the building.
NR 811.51(5)(b) (b) Provision shall be made for disposing of empty bags, drums, or barrels in a manner which will minimize exposure to fluoride dust. A floor drain shall be provided to facilitate the hosing of floors.
NR 811.51(6) (6) Protective equipment. Protective clothing, gloves, goggles or face shields and aspirator shall be provided.
NR 811.51(7) (7) Testing equipment. Equipment shall be provided for measuring the quantity of fluoride in the water using the analytical methods as specified in s. NR 809.113 (1), Table A. When also feeding phosphates, the electrode method is required. The Alizarin Visual method may be approved only in special cases where the owner can allocate the extra time needed for testing.
NR 811.51(8) (8) Dilution equipment. Where dilution of the chemical solution is necessary, a graduated container and transfer pump shall be provided.
NR 811.51 History History: CR 09-073: cr. Register November 2010 No. 659, eff. 12-1-10; CR 22-074: am. (1) (c), (2) (a), (3) (h) Register January 2024 No. 817, eff. 2-1-24.
NR 811.52 NR 811.52Iron and manganese control. Iron and manganese control refers solely to treatment processes designed specifically for this purpose. The treatment process used will depend upon the character of the raw water. The selection of treatment processes shall meet specific local conditions as determined by engineering investigations, including chemical analyses of representative samples of water to be treated. The department may require the operation of a pilot plant in accordance with s. NR 811.44 in order to gather all information pertinent to the design. Consideration shall be given to adjusting the pH of the raw water to optimize the chemical reaction. The following requirements for specified treatment processes shall be met:
NR 811.52(1) (1) Removal by oxidation-detention-filtration or oxidation-filtration.
NR 811.52(1)(a) (a) Oxidation. Oxidation may be by aeration, as indicated in s. NR 811.45, or by chemical oxidation with chlorine, potassium permanganate, sodium permanganate, hydrous manganese oxides, ozone or chlorine dioxide.
NR 811.52(1)(b) (b) Detention or reaction.
NR 811.52(1)(b)1.1. A detention period of 0.5 to 3 hours, as determined by pilot studies, shall be provided following oxidation by aeration in order to insure that the oxidation reactions are as complete as possible. The detention period may be omitted or reduced where a pilot plant study indicates no need for detention or that a detention period less than 30 minutes will be adequate and department approval is obtained.
NR 811.52(1)(b)2. 2. The detention basin shall be designed as a holding tank with sufficient baffling to prevent short circuits. Sludge collection equipment is not required. The floor shall be sloped to facilitate cleaning. Detention basins shall meet all potable water reservoir standards as required by subch. IX.
NR 811.52(1)(c) (c) Sedimentation. Sedimentation basins shall be provided when treating water with high iron or manganese content or both and a significant volume of oxidized material will be created or where chemical coagulation is used to reduce the load on the filters. Provisions for sludge removal shall be made. Sedimentation basins shall meet all potable water reservoir standards as required by subch. IX.
NR 811.52(1)(d) (d) Rapid rate pressure filters. Use of rapid rate pressure filters as well as gravity filters may be considered for iron and manganese removal. Rapid rate pressure filters for iron and manganese shall meet the requirements under s. NR 811.49.
NR 811.52(2) (2) Removal by lime processes. The removal of iron and manganese by lime processes shall meet the requirements in s. NR 811.57.
NR 811.52(3) (3) Removal by manganese greensand type filtration. The removal of iron and manganese by greensand type filtration consisting of a continuous feed of potassium or sodium permanganate to the influent of a manganese greensand filter, is more applicable to the removal of iron plus manganese than to the removal of iron only because of economic considerations. As an alternate method, application of the potassium permanganate to the greensand on a “batch" basis may be installed when the department determines “batch" application is as effective as continuous feed. The following requirements apply:
NR 811.52(3)(a) (a) The permanganate shall be applied as far ahead of the filter as practical.
NR 811.52(3)(b) (b) Other oxidizing agents or processes, such as chlorination or aeration, may be used prior to the permanganate feed to reduce the cost of the chemical.
NR 811.52(3)(c) (c) The normal filtration rate shall be 3 gallons per minute per square foot.
NR 811.52(3)(d) (d) The normal backwash rate shall be 8 to 10 gallons per minute per square foot for manganese greensand media and 15 to 20 gallons per minute per square foot for manganese coated media. Lesser backwash rates may be used if justified to the department by filter vessel manufacturers or through pilot studies under s. NR 811.44.
NR 811.52(3)(e) (e) Air washing may be provided.
NR 811.52(3)(f) (f) Sampling faucets shall be provided prior to application of permanganate, immediately ahead of filtration and at the filter outlet.
NR 811.52(4) (4) Removal by ion exchange. The removal of iron and manganese by ion exchange may not be used unless pilot plant studies have demonstrated that satisfactory removal efficiencies can be continuously provided. There may be no oxidation of the iron or manganese prior to the process.
NR 811.52(5) (5) Testing equipment. Testing equipment shall be provided for all plants. The equipment shall have the capacity to accurately measure the iron content to a minimum of 0.1 mg/l and the manganese content to a minimum of 0.05 mg/l.
NR 811.52 History History: CR 09-073: cr. Register November 2010 No. 659, eff. 12-1-10; CR 22-074: renum. (1) (d) (intro.) to (1) (d) and am., r. (1) (d) 1. to 3., am. (3) (d) Register January 2024 No. 817, eff. 2-1-24.
NR 811.53 NR 811.53Organics removal.
NR 811.53(1)(1)General requirements. Organic compounds may be removed by a variety of processes. All process designs shall be based on information from a pilot study conducted in accordance with s. NR 811.44 with the compounds to be removed unless the pilot study is waived by the department. Unless the department approves other requirements, the processes shall be designed to remove a minimum of 99% of the contaminant in question.
NR 811.53(2) (2) Packed tower aeration. Packed tower aeration units shall meet the following requirements:
NR 811.53(2)(a) (a) General. Packed tower aeration, which is also known as air stripping, may be used for the removal of volatile organic chemicals, trihalomethanes, carbon dioxide, and radon.
NR 811.53(2)(b) (b) Process design. The process design shall include determination of the Henry's Constant for each contaminant, the mass transfer coefficient, air pressure drop, and stripping factor. Justification shall be provided for the selected design parameters including the height and other dimensions of the unit, air to water ratio, packing specifications, packing depth, and surface loading rate.
NR 811.53(2)(b)1. 1. Pilot testing considerations:
NR 811.53(2)(b)1.a. a. The pilot study shall evaluate a variety of loading rates and air to water ratios at the peak contaminant concentration. Special consideration shall be given to removal efficiencies when multiple contaminants occur.
NR 811.53(2)(b)1.b. b. If there is adequate past performance data on the contaminant to be treated, including at the peak contaminant concentration, the department may approve the process design based on the appropriate calculations without pilot testing.
NR 811.53(2)(b)2. 2. The installation shall be designed to reduce contaminants to below the maximum contaminant level and to the lowest practical level.
NR 811.53(2)(b)3. 3. The packing material shall be NSF/ANSI Standard 61 approved for use in potable water in accordance with s. NR 810.09 (5). The packing material shall be resistant to the aggressiveness of the water, dissolved gasses, any chemicals added to the water supply, and any cleaning materials.
NR 811.53(2)(b)4. 4. The packing tower shall be constructed of materials compatible with potable water including stainless steel, reinforced concrete, aluminum, reinforced fiberglass, or plastic. The tower construction materials shall be resistant to the aggressiveness of the water, dissolved gasses, any chemicals added to the water supply, and any cleaning materials. Towers constructed of light weight materials shall be provided with adequate support to prevent damage from wind.
NR 811.53(2)(b)5. 5. The ratio of the column diameter to the packing diameter shall be at least 7:1 for the pilot unit and at least 10:1 for the full scale tower. The type and size of the packing used in the full scale unit shall be the same as that used in the pilot unit.
NR 811.53(2)(b)6. 6. The blower shall be adequately sized to provide sufficient air to achieve the desired removal rates. The minimum volumetric air to water ratio at the maximum water flow rate shall be 25:1. The maximum air to water ratio shall not exceed 80:1.
NR 811.53(2)(b)7. 7. The design shall give consideration to potential fouling problems from calcium carbonate, iron and manganese precipitation, and from bacterial growth. Pretreatment shall be provided where necessary to prevent significant fouling. Disinfection capability shall be provided immediately before and after packed tower aeration.
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Published under s. 35.93, Stats. Updated on the first day of each month. Entire code is always current. The Register date on each page is the date the chapter was last published.