MUNICIPALITY OF ANCHORAGE

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MUNICIPALITY OF ANCHORAGE Mayor Dan Sullivan COMMUNITY DEVELOPMENT DEPARTMENT ON-SITE WATER & WASTEWATER PROGRAM 4700 Elmore Road P.O. Box 196650 Anchorage, AK 99519-6650 (907) 343-7904 fax (907) 343-7997 STANDARDS AND SPECIFICATIONS FOR COMPONENT PARTS AND MATERIALS USED IN CONSTRUCTION OF ON-SITE WASTEWATER DISPOSAL SYSTEMS February 2011 TABLE OF CONTENTS Section 1 Purpose... 2 Section 2 Septic Tanks... 2 Section 3 Lift Stations... 5 Section 4 Holding Tanks... 5 Section 5 Pipe... 6 Section 6 Insulation... 6 Section 7 Soils... 7 Component Parts materials_2011.doc

Section 1 Purpose 1.1 This document is intended to provide basic standards and specifications for component parts and materials used for the construction of single family onsite wastewater disposal systems within the Municipality of Anchorage. All references to the Department shall be interpreted to mean the Municipality Of Anchorage, Development Services Department, Building Safety Division, On-Site Water and Wastewater Program. This document is not intended to limit or hinder the use of new or innovative ideas, procedures, or materials. However, these standards and specifications will be used as a basis for review and evaluation of new products or materials. Should a conflict exist between this document and regulations or specifications set forth by Federal, State or other local agencies, the more stringent standard or specification shall apply. Section 2 Septic Tanks 2.1 Construction plans and/or shop drawings for all septic tanks shall be submitted to the Department for approval. Plans shall show all dimensions, design details, and any other pertinent data. All septic tank plans shall be accompanied by structural calculations sealed by a civil engineer registered in the State of Alaska. 2.2 Septic tanks shall be constructed of solid durable materials, not subject to excessive corrosion or decay and shall be watertight. 2.3 Septic tanks shall have a minimum of two compartments. The inlet compartment of any septic tank shall be not less than two-thirds (2/3) of the total capacity of the tank, nor less than 667 gallons liquid capacity, and shall be at least four and one-half (4 1/2) feet in width and five (5) feet in length. Liquid depth shall not be less than three (3) feet nor more than six (6) feet. The secondary compartment of any septic tank shall have a minimum capacity of 333 gallons and a maximum capacity of one-third (1/3) of the total capacity of the tank. In septic tanks having over 1500 gallons capacity, the secondary compartment must be at least five (5) feet in length. The working capacity in gallons shall be labeled on the outside of all septic tanks. 2.4 Access to each septic tank shall be provided by at least two (2) manholes with a minimum diameter of twenty (20) inches or by an equivalent removable cover slab. One (1) access manhole shall be located over the inlet and one (1) access manhole over the outlet. All septic tank manholes must be equipped with gaskets to minimize infiltration of ground water. 2.5 Access to each compartment of a septic tank shall be provided by a pipe opening, at least four (4) inches minimum diameter, located over each compartment for purposes of pumping/cleaning. 2.6 The inlet and outlet pipe openings shall be a minimum of four (4) inches in diameter. The vertical leg of round inlet and outlet fittings shall be a 2

minimum of four (4) inches in diameter. The exterior of all septic tanks shall be labeled "in" and "out" visibly on the appropriate ends. A baffle type fitting shall have the equivalent cross-sectional area of the connecting sewer pipe and a minimum of a four (4) inch horizontal dimension when measured at the inlet and outlet pipe inverts. 2.7 The inlet and outlet pipe or baffle shall extend four (4) inches above and at least twelve (12) inches below the water surface. The invert of the inlet pipe shall be at a level not less than two (2) inches above the invert of the outlet pipe. 2.8 Inlet pipe fittings, outlet pipe fittings or baffles and compartment partitions shall have a free vent area equal to the required cross sectional area of the house sewer or private sewer discharging into the tank to provide free ventilation above the water surface from the disposal field through the septic tank, house sewer and stack to the outside air. 2.9 The side walls of the septic tank shall extend at least nine (9) inches above the liquid surface. The cover of the septic tank shall be at least two (2) inches above the highest vent openings. 2.10 Partitions or baffles between compartments shall be of solid durable material and shall extend at least four (4) inches above the liquid level. An inverted fitting equivalent in size to the tank inlet but in no case less than four (4) inches in size, shall be installed in the inlet compartment side of the baffle with the bottom of the fitting placed midway in the depth of the liquid. 2.11 All septic tanks shall be structurally designed to withstand anticipated earth or other loads. Manufacturer's specifications for depth of bury and backfill type and compaction shall conform to the conditions specified by the structural calculations for the tank. All septic tank manhole covers shall be capable of withstanding the same anticipated load as the tank on which it is installed. Visibly labeled on the outside of all septic tanks shall be the maximum burial depth for which that particular tank was constructed. 2.12 All septic tanks shall be numbered and logged for the purposes of inventory with a brief description of the tank assigned to that particular number. 2.13 Materials (a) Concrete Septic Tanks Walls, bottom and top of reinforced-concrete tanks shall be designed across the shortest dimension using one-way slab analysis. Stresses in each face of monolithically-constructed tanks may be determined by analyzing the tank cross-section as a continuous fixed frame. The walls and bottom slab shall be poured monolithically. Reinforcing steel shall be ASTM A-615 Grade 60, fy = 60,000 psi. Details and placement shall be in accordance with ACI 315 and ACI 318. 3

Concrete shall be ready-mix with cement conforming to ASTM C150, Type II. It shall have a cement content of not less than six (6) sacks per cubic yard and a maximum aggregate size of 3/4 inch. Water/cement ratio shall be kept low (0.35+/-), and concrete shall achieve a minimum compressive strength of 4000 psi in 28 days. Fiber additives may be used to enhance water tightness by controlling concrete shrinkage. Tank molds frequently have attached vibrators to ensure adequate flow of concrete down the walls and across the bottom. It is important to avoid excess vibration as this can cause the aggregate to segregate. Form release used on tank molds shall be Nox-Crete or equal. Diesel or other petroleum products are not acceptable. Tanks shall be protected by applying a heavy cement-base waterproof coating (Thoroseal or Tana Seal or equal) on both inside and outside surfaces, in compliance with Council of American Building Officials (CABO) report #NRB-168; 6181. Tanks shall not be moved from the manufacturing site to the job site until the tank has cured for seven (7) days or has reached two-thirds of the design strength. Test cylinders shall be taken and tested until the minimum compression strength has been obtained, and then tested periodically to ensure quality control. Incorporate the following test procedure to ensure water tightness: 1. After the septic tank has been set into the ground fill the tank to its brim with water and let it stand for 24 hours. 2. Measure the water loss; if there is no water loss during these first 24 hours the test is acceptable. If however the water level dropped, some water absorption may have occurred. If so, refill the tank and determine the exfiltration by measuring the water loss over the next two (2) hours. There shall be no water loss during this time. Any water loss is cause for rejection. 3. If a manhole riser is to be utilized on a concrete septic tank, test the seal between the riser and the tank top for water tightness by filling the riser with water to a level four (4) inches above the top brim of the tank. Check for leaks by following steps 1 and 2 above. (b) Steel Septic Tanks All steel septic tanks shall be protected from corrosion by using a Hi-Build Coal Tar Pitch, such as Tnemec #46-465 or equal. The exterior of the tank shall be treated with one coat and the interior of the tank shall be treated with two coats. Coating applications shall follow the manufacturers' recommended procedures. 4

The minimum wall thickness of the 1000 gallon thru 1500-gallon septic tanks shall be No. 12 U.S. gauge (.109 in.) steel. The minimum wall thickness of the 1750 gallon and 2000 gallon septic tanks shall be No. 10 U.S. gauge (.135 in.) steel. The space between the baffle plate and the tank sidewall shall not exceed one-eighth inch (1/8"), and have two-inch (2") welds spaced a maximum of ten (10) inches apart. The baffle invert opening must be enclosed and extend down to the midpoint of the tank and up to the top of the partition. (c) Alternate Materials Septic tanks constructed of alternate materials may be approved by the Department. Wooden septic tanks are prohibited. Section 3 Lift Stations 3.1 Plans for all lift stations shall be submitted to the Department for approval. Such plans shall show all dimensions, reinforcing design details, maximum burial depth, and other pertinent data as may be required. All lift station tank plans shall be accompanied by structural calculations from a professional engineer in the state of Alaska. 3.2 Lift stations shall be constructed of solid durable materials, not subject to excessive corrosion or decay and shall be watertight. 3.3 Access to lift station pumps, float switches, and attendant hardware shall be provided by a minimum of one manhole/riser with a minimum diameter of twenty-four (24) inches. 3.4 Lift stations shall be equipped with a high water alarm that is both audible and visual within the dwelling. The audible alarm shall be panel mounted with a minimum of 80 dba sound pressure at 50 cm, continuous sound, or equivalent. The visual alarm shall be seven-eighths inch (7/8") diameter, oil tight, with push-to-silence feature, or equivalent. The high water alarm shall be set to allow a minimum of 150 gallons of reserve capacity after the alarm has sounded. The alarm circuit shall be wired separately from the pump circuit so that if the pump's internal overload switch or current-limiting circuit breaker is tripped, the alarm system remains functional. All electrical components shall be UL listed. 3.5 Lift station pumps shall be approved by the department on a case by case basis. Pump manufacturer's pump curve and catalog specifications shall be submitted to the department for review. Pumps shall be UL listed as an effluent pump. Section 4 Holding Tanks 5

4.1 All regulations governing septic tanks shall apply to holding tanks with the exception of items: (a) (b) (c) (d) Holding tanks shall have a manhole to provide access to the interior of the tank. The manhole must be a minimum diameter of twenty (20) inches. A holding tank must be equipped with a watertight manhole cover. A six (6) inch diameter opening shall be provided on all holding tanks for pumping access. The minimum wall thickness of the 2000 gallon through 3500 gallon holding tanks shall be three-sixteenths inch (3/16") plate steel. A holding tank shall be equipped with a high water alarm, which registers both visually and audibly within the dwelling. The audible alarm shall be panel mounted with a minimum of 80 dba sound pressure at 50 cm pulsating sound or equivalent. The alarm float switch must be positioned to allow at least 150 gallons per bedroom of additional storage after the alarm has been activated. Section 5 Pipe 5.1 The following pipe materials are approved for use in septic system installations in the Municipality of Anchorage. Some pipe materials may be allowed for use as perforated leach field pipe or solid collector pipe but not as standpipe/cleanout pipe: Pipe Type or ASTM Designation Approved as Drainfield Pipe Approved as Cleanout or Standpipe Cast Iron Yes Yes ASTM D3034 (PVC) Yes Yes ASTM F789 (PVC) Yes Yes ASTM D2751 (ABS) Yes No* ASTM D2661 (ABS) Yes Yes ASTM F810 (HDPE) Yes No * D2751 may be approved as standpipe material if the minimum wall thickness is 0.18 inches (4.57 mm), SDR 23.5. 5.2 All pipes must be labeled with an ASTM designation number or show proof that the pipe material is equivalent or greater in strength than ASTM designated pipe. Section 6 Insulation 6.1 Insulation used in the construction of septic systems for the purposes of preventing freezing of absorption fields or septic system components shall be at least 2 inches of direct burial polystyrene (Dow Chemical Company Styrofoam HI, Insulfoam R-Tech IV, or department approved equal). 6

Section 7 Soils 7.1 Sewer gravel (rock) 7.1.1 Sewer gravel (rock) shall: 1. Be washed. 2. Meet the following gradation requirements: Sieve Designation 2.5 inch 0.5 inch #200 % Passing by Weight 100 0 1 0 1 7.2 Filter Material 7.2.1 Filter material for absorption fields shall: 1. Be naturally occurring. 2. Meet the following gradation requirements: Sieve Designation % Passing by Weight #4 100 #100 0 2 #200 0 1 Effective grain size (D 10 ): #18 - #60 sieve Uniformity Coefficient (D 60 /D 10 ): less than 4 D 10 - The maximum diameter of the smallest 10 percent by weight of filter material particles D 60 - The maximum diameter of the smallest 60 percent by weight of the filter material particles. 7