Dosing Gravity Drainfield Systems
Contents
1. 3 7 1 11 Detail of pump controls floats and the position of floats 3 7 1 12 An electrical wiring diagram specific to the project 3 7 1 13 System parameters and calculations used by the designer to arrive at the component sizing and flow distribution shown in the design 3 7 1 14 A user manual for the dosing system must be developed and provided to the homeowner and Northeast Tri County Health District See section 3 11 for a list of items to be included in the manual 3 7 1 15 The following statement above the designer s engineer s or homowner s signature I certify that this design meets all regulations and rules of the Washington State Department of Health and the Northeast Tri County Health District 3 8 Minimum As Built Information A completed as built submission must contain at a minimum the following items 3 8 1 All the items contained in the design submittal listed above as installed identifying any changes from the approved plan 3 8 2 The measured drawdown per dose cycle 3 8 3 Timer functions if a timer is installed 3 8 4 Pump run time and pump time off Page 12 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 4 Operation and Maintenance Standards 4 1 Dosing systems must be monitored and maintained at a frequency commensurate with the site soil system complexity and use patterns As a minimum the items in 4 2 4 7 must be inspec2. ccccsccssssccssssccssssscssscssssssscsssscesessesees 13 4l Dosing SY SUC ING isise ari AREA E careers 13 42 Us s MANU vices scecsdessssecetecvecensstadesct coseesecsdsdeelesvencccesaccsclavdueslecebdevesesdvestasacdues 13 4 3 Evaluate septic tank and pump chamber for c ccccsseceseceeteeeeeeeeeeeeeeeeneens 13 4 4 Evaluate drainfield area for cccccccccccsccscccecececccccccccscecececucscacasacacasasacasasasaeaes 14 4 5 Distribution Device cerina snaran E AE E a aAA 14 Glossary of Terms Tables Table 1 Major Components of Typical Dosing System ccecccesceeeeeeeeeseeeeeeesseeeteeeees 5 Table 2 Minimum Dosing PIG UCN CIES cnc scrcsnssiacesnnsiuccnsansuccatnscaeecnnsaniessondseavaaassionsaniessoedess 8 Figures Figure 1 Typical Gravity Drainfield System with Dosing 0 0cceeceecetteeetee 4 Figure 2 Typical Pressurized Flow Splitting Device 0 0 0 cccccceeeceeeeeeeetteetseees 9 Figure 3 Typical Distributing V ale iscicicsesicccivintinicisitsasininedaiassincisteseedalebestacenaeadcaiaaceaas 9 Figure 4 Typical Monitoring Port Detail 0 00 0 cc ceccceceeeeeeeeeeeceeeeeeeteeeeeneeeesaes 11 Glossary of Terms A common glossary of terms for all RS amp Gs can be found on the DOH Web site at http www doh wa gov ehp ts ww pubs ww rsg htm glossary Throughout this document new terms introduced that are included in the Glossary appear for the first time in italics Page 2 of 14 D
3. 2 Evaluate distributing value for proper rotation of the valve through the clear sections of outlet pipe Page 14 of 14
4. Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 evaluated for treatability and degree of pretreatment required prior to distribution to the dosing system for final treatment and disposal 2 4 Pretreatment 2 4 1 Ifthe wastewater is residential sewage settleable and floatable solid separation by a properly sized two compartment septic tank with effluent baffle screening will suffice All septic tanks must be designed in compliance with Washington State On Site Sewage System Regulations WAC 246 272A and WAC 246 272B and the Recommended Standards and Guidance for Sewage Tanks Pretreatment with some other approved sedimentation initial treatment unit may be used instead of a septic tank 2 4 2 Ifthe wastewater is from a non domestic source influent to the dosing system must be equivalent to residential strength septic tank effluent or lower Aerobic treatment or some other treatment process may be needed to modify the influent to the dosing system to within the range of residential septic tank effluent quality 3 Design Standards 3 1 Pump Chamber Requirements All pump chambers must be structurally sound and conform to WAC 246 272A WAC 246 272B and the Recommended Standards and Guidance for Sewage Tanks 3 2 Pumps Fittings and Controls Pumps must be selected to pump effluent and be capable of meeting the minimum hydraulic flow and head requirements of the proposed on site system All pu
5. bed and thus slowing the development of a clog of soil interfaces and subsequent failure that naturally occurs over time Research evidence indicates that periodic dosing and resting are preferable to continuous effluent discharge into a gravity drainfield A period of resting allows the soil to re aerate limiting the thickness of the clogging mat and allowing aerobic digestion of filtered organic particles in the soil Because the effluent is discharged in larger doses the distribution may be more uniform throughout the drainfield than that attained by normal gravity flow Dosing systems require the following basic components septic tank or other pretreatment to the same quality as domestic septic tank effluent pump or siphon or equivalent transport line Page 3 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 distribution device and laterals and drainfield The dose rest cycle is based either on when the dosing tank fills demand dosing or on a time basis time dosing at which point the pump or siphon discharges a specific volume to the drainfield While the transport pipe will be under pressure unlike pressure distribution systems the flow in the laterals will not be under pressure Figure 1 illustrates the major components of a typical dosing system as described in Table 1 Figure 1 Typical Gravity Drainfield System with Dosing SEPTIC TANK PU
6. from the ground surface 3 6 2 Be open and slotted at the bottom and 3 6 3 Be void of gravel to the infiltrative surface to allow visual monitoring of standing liquid in the trench or bed Figure 4 Typical Monitoring Port Detail Plastic valve box with locking lid flush with finished grade Finished grade A Threaded plug or cap PERE FERRIES MAMA OAE y Cyd A A Cover soil 4 PVC monitorina port with Geotextile 6 24 0 5 perforations every 6 in washed gravel REN A TE O UN Fun ea H 3 Washed gravel A Rees ipe for anchori y ERO GEL pp AVTOS Me Q 3 7 Minimum Design Submittal 3 7 1 A complete design must include the following as a minimum 3 7 1 1 All requirements of WAC 246 272A 020 3 7 1 2 Daily design flow 3 7 1 3 Septic tank size location and outlet invert elevation 3 7 1 4 Pump pickup elevation and location or siphon invert elevation and location 3 7 1 5 Size of pump or siphon chamber Page 11 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 3 7 1 6 Transport line length location highest elevation and diameter 3 7 1 7 All valves distribution devices or other such components in the system 3 7 1 8 Lateral location length and elevations 3 7 1 9 Dose volume pumping rate GPM dose frequency and total system design head 3 7 1 10 Location and detail of monitoring ports in the trenches or beds
7. MP OR SI PHON ACCESS RISER CONTROL PANEL N GRAVI TY FLOW DRAI N LATERALS a TRANSPORT LINE DISTRIBUTION DEVICE pe Page 4 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 Table 1 Major Components of Typical Dosing System Component Primary Function Septic tank or other pretreatment device Solids separation and storage Screen Protect pump or siphon and drainfield from solids Pump or siphon Transport a specific volume of effluent from the chamber to the distribution devise Transport line Pipeline that connects the pump to the distribution device Distribution device Distribute the flow from the transport line uniformly to the laterals by gravity or under pressure Laterals Gravity sewer drainpipe that distributes effluent within a trench or bed Drainfield or other disposal component Allows the septic tank effluent to pass into native soil or other receiving media where various biological and physical processes provide additional treatment 1 Performance Standards Dosing systems must provide periodic resting and re aeration to the soil between doses and apply effluent to the drainfield s infiltrative surface at a rate less than the saturated hydraulic conductivity of the soil By design installation and operation the system must
8. Northeast Tri County Health District Standards and Guidance for Performance Application Design and Operation amp Maintenance Dosing Gravity Drainfield Systems Based on the Washington State DOH of Health Recommended Standards and Guidance for Performance Application Design and Operation amp Maintenance for Dosing Gravity Drainfield Systems July 1 2007 Effective Date May 1 2008 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 Contents Page Introduction ccsesiccsssscccsccses ochosscceccecessocnsesocescces occosescescussssoecessecessvoessocsosecteseseossesssssecescdecboon 3 1 Performance Stand ard sccccccccsssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssesees 5 2 Application Standards osisssicasssssesssvecssasesesscess svcncsseessdsensessvennssevvsvonsceensevesteussencesssesses 5 21s ASUS neina E A E E EE R 5 223 PSC iseia r E EE E T EE 5 2 3 Influent Characteristics nenin nnn neiii aE AEA E EE ERATE 6 2 4 Pretreatment ossa a O E O OR 7 3 Design Standards sp eses cade cx auc annees eu andusswacaceesdeenavauanaenava tensncuaveanncyvausctsiuneanacniceauueaets 7 35 Trenches Beds eane aeea ere a EEE EEEE EEEO ENEAN 10 3 6 Monitoring Portsea aa a a E a EE iia 11 3 7 Minimu D sign Submittal sissien aiena eie 11 3 8 Minimum As Built Information ecccccccccccccccccecececcccceeceseeesecesesevees 12 4 Operation and Maintenance Standard
9. chamber for 4 3 1 Sludge and scum accumulations pump as necessary 4 3 2 Clogging damage and proper placement of outlet baffle screen Clean the screen each time it is inspected or as needed to avoid clogging 4 3 3 Signs of leaking in tanks and risers Repair or replace if necessary 4 3 4 Risers and lids being at or above grade and having lids secure from unauthorized entry Page 13 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 4 3 5 Properly functioning of floats Movement should not be restricted Floats should be positioned correctly and provide positive instrumentation signals Adjust and repair as necessary 4 3 6 Measure pump run time per cycle and drawdown Compare with time recorded in as built 4 3 7 Test alarms for proper functioning high and low liquid level 4 4 Evaluate drainfield area for 4 4 1 Indication of surfacing effluent 4 4 2 Appropriate vegetation 4 4 3 Absence of heavy traffic 4 4 4 Inappropriate building 4 4 5 Impervious materials or surfaces 4 4 6 Abnormal settling or erosion 4 4 7 Evaluate monitoring ports for evidence of ponding Check depth of ponding 4 5 Distribution Devices 4 5 1 Evaluate D Box for 4 5 1 1 Uneven settling of D box 4 5 1 2 Levelness of inverts of outlets of D box 4 5 1 3 Uniformity of outlet flow of D Box 4 5 1 4 Depth of effluent in the D box 4 5 1 5 Solids accumulations in the D box 4 5
10. ecause of their constant radius and ease of adjustment these devices will improve the accuracy with which a box can be leveled initially and in the future 3 4 3 A pressurized flow splitting device such as a pressure manifold may create the most uniform distribution of the distribution devices regardless of the drainfield lateral length or elevation Fitting the manifold with orifices sized to permit the percentage of flow desired accommodates different lengths of laterals An air Page 8 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 release valve swing check valve installed in reverse located at the high point s is required if siphoning can occur through the device Figure 2 shows an example of a pressurized flow splitting device Figure 2 Typical Pressurized Flow Splitting Device Typicat Drainfiesd 3 4 4 Distributing valves can be used as a means for distributing effluent to multiple drainfield laterals or zones The water pressures in the transport line activate these valves Each time the pump is turned on the valve rotates to dose the next drainfield Figure 3 shows a distributing valve assembly Distributing valves must be designed with the following features 3 4 4 1 Unions to allow easy removal of the valve Figure 3 Typical Distributing Valve Distributing Valve Assembly Distributing Valve Pil Ball Valve s Coupling Union C
11. gravity system not allowed 4 6 gt 36 inches vertical separation 1 or 2 3 4 Distribution Techniques 3 4 1 Effluent distribution may be accomplished by the use of commercially available pressurized flow splitter devices distributing valves or by conventional distribution boxes All distribution devices shall be of sound construction watertight not subject to excessive corrosion and designed for its intended use They must be placed at a high point so that flow is by gravity in all lines following the device They must be fitted with risers and watertight lids or covers extending to grade which will permit unobstructed access for maintenance inspection and operation 3 4 2 Distribution boxes must be installed level to assure that each lateral in the drainfield is receiving an equivalent amount of effluent Measures must be taken to dissipate the velocity of the influent delivered by a pump or siphon and to prevent direct flow of effluent across the distribution box resulting in unequal distribution among the outlets Although the purpose of the distribution box is to divide effluent flows evenly among drainfield laterals it is not an efficient or effective method of achieving equal flow splitting The distribution box must be placed on a concrete pad The use of commercially available outlet pipe leveling devices must be used to compensate elevation differences in outlets and facilitate leveling adjustments B
12. lear Pipe Page 9 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 3 4 4 2 Clear sections of pipe for visual inspection of valve operation 3 4 4 3 A ball valve on the inlet for quick testing of valve operation The best location of the distributing valve for reliable operation is at the high point in the system The transport line between the pump and valve should be kept full if possible If the line is empty at the beginning of each cycle pockets of air during filling can cause random rotation of the valve To minimize air pockets the transport line between the pump and valve should be kept full short and most important laid at a constant grade Because of the mechanical movements of these valves it is necessary to take steps to prevent solids from reaching the valve which may impede operation Without adequate septic tank effluent screening the valve has very little chance of reliable long term operation Installation of the valve should not be considered unless a system monitoring program is required for inspecting the valve on a routine frequency Inspections are necessary to prevent system failure if the valve stops working properly Because liquid flow through a distributing valve passes fairly small openings with several changes in direction head losses through the valve are high To assure enough head is available for proper system operation it is recommended tha
13. mps fittings and controls must meet the minimum applicable requirements found in the Standards and Guidance for Pressure Distribution except that cycle counters and elapsed time meters on control panels are not required Dosing can be achieved by either a pump or siphon Where the soil absorption area is at a higher elevation than the pump sufficient dynamic head should be provided for both the elevation difference and friction loss Pumps suitable for pumping sewage effluent must be used In lieu of pumps automatic dosing siphons may be used for dosing where a suitable downhill gradient exists from the elevation of the siphon to the drainfield Careful consideration must be given to manufacturer s specifications during design and installation of automatic siphons 3 3 Minimum Dose Frequency The volume of each dose is dependent on the type of soil in which the drainfield will be installed The minimum dosing frequency must be according to Table 2 Page 7 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 Table 2 Minimum Dosing Frequencies Soil Type Minimum Number of Doses Day 1 Gravity system not allowed 2 lt 60 inches vertical separation gravity system not allowed gt 60 inches vertical separation 4 3 lt 36 inches vertical separation gravity system not allowed gt 36 inches vertical separation 4 lt 36 inches vertical separation
14. n one hundred feet in length 2 2 2 4 For sites where vertical separation of 3 feet or greater can be maintained dosing septic tank effluent 2 2 2 5 For systems in any conventional drainfield design where the soils are of an acceptable permeability and depth except that systems are not allowed in sites where the soils are of an excessively permeable nature Type 1 or 2 soils unless 2 2 2 5 1 A pre treatment system meeting Treatment Level A or B is used or 2 2 2 5 2 A method of uniform distribution is used Dosing systems are usually used in locations where it is either desirable or required to 7 install the drainfield at a higher elevation than the septic tank 7 treat and dispose of effluent higher in the soil profile and a extend the life expectancy of a drainfield or other disposal component 2 3 Influent Characteristics 2 3 1 Residential Wastewater Dosing systems are designed for treating residential strength wastewater The wastewater applied to drainfields must not be higher in strength than 125 mg l CBOD 80 mg l TSS and 20 mg l G amp O Lower wastewater strengths without increased flow rates are preferable for assuring long term operation of a dosing system 2 3 2 Non Residential Wastewater High strength wastewater and wastewater from non domestic sources such as restaurants hotels bed and breakfast establishments and commercial wastewater sources etc must be individually Page 6 of 14 Dosing
15. not contaminate ground or surface waters expose the public to untreated sewage or be a source of nuisance odors 2 Application Standards 2 1 Listing Because a dosing gravity drainfield is a public domain distribution technology See WAC 246 272A 0100 2 not one used to meet one of the treatment levels specified in WAC 246 2724 it is not listed in the DOH s List of Registered Treatment and Distribution Products However it still may be permitted by the health officer because of this Standard and Guidance document 2 2 Permitting 2 2 1 An installation permit must be obtained from the health officer prior to installation and use Page 5 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 2 2 2 Dosing is applicable to any on site sewage system using the soil for disposal and may provide a more satisfactory long term performance for such systems Dosing systems are most appropriate where the intermittent application of effluent will assist in either the treatment or disposal of effluent Soil with slow permeability will benefit the most Possible applications include 2 2 2 1 For use in a subsurface soil absorption system drainfield where a pressure distribution design is not required and where continuous gravity flow is not feasible or desirable 2 2 2 2 For systems with design flows less than 1000 gallons per day 2 2 2 3 For drainfields with laterals less tha
16. osing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 How this document is organized Standards Section Explanation Performance How this technology is expected to perform treatment level and function Application How this technology is to be applied This section includes conditions that must be met prior to proceeding with design Topics in this section describe the approved status of the technology component listing requirements permitting installation testing and inspection requirements etc Design How this technology is to be designed and constructed includes minimum standards that must be met to obtain a permit Operation and Maintenance How this technology is to be operated and maintained includes responsibilities of various parties recommended maintenance tasks and frequency assurance measures etc Appendices Design examples figures and tables specific applications and design and installation issues and bibliography Introduction A dosing system provides for the periodic discharge of a determined volume of effluent to a drainfield Dosing uses the principle of wetting and resting which provides multiple daily dosings of effluent to a subsurface soil absorption system with a period of resting and re aeration between doses This resting period is important in maintaining the aerobic condition of the soil absorption system in and around the distribution trench or
17. t high head turbine pumps be used to pressurize the valve High pressures through the valve provide a large force for proper seating of the rubber flap disk thus lowering the leakage that can occur through the openings that are not being pressurized High head turbine pumps are also recommended because the use of a distributing valve usually requires more frequent pump cycling The designer should check with the manufacturer to determine the minimum required flow rate through the valve to also assure proper seating of the rubber flap disk 3 5 Trenches Beds 3 5 1 Ina dosing drainfield as in any drainfield the bottom of the trench bed must be level 0 5 inches 3 5 2 The bottom and sides of the trench bed must not be smeared 3 5 3 In gravel filled trenches and beds an acceptable geotextile must be used on top of the gravel before backfilling 3 5 4 On sloping sites the trenches and laterals must run parallel to the natural ground contours 3 5 5 The ends of the laterals must be capped Page 10 of 14 Dosing Gravity Drainfield Systems NETCHD Standards and Guidance Effective Date May 1 2008 3 6 Monitoring Ports All dosing systems must be equipped with a monitoring port in a representative location on each drainfield line Some drainfield lines may require additional monitoring ports to achieve observations representative of the entire drainfield line See Figure 4 These ports must 3 6 1 Be accessible
18. ted at six months and then yearly after the system is put into use Refer to the system as built for initial readings and settings The owners of dosing systems must be notified that their system must be inspected and serviced on a yearly basis All findings and repairs are to be recorded records filed for ready access and reports sent to Northeast Tri County Health District 4 2 User s Manual The user s manual that is a part of the design submittal must contain at a minimum the following 4 2 1 Diagrams of the system components 4 2 2 Explanation of system function operation expectations owner responsibility etc 4 2 3 Specifications of all electrical and mechanical components installed occasionally components other than those specified on the plans is used 4 2 4 Names and telephone numbers of the system designer Northeast Tri County Health District component manufacturer supplier installer and or the management entity to be contacted in the event of a failure 4 2 5 Information on the periodic maintenance requirements of the various components of the sewage system 4 2 6 Information on trouble shooting common operational problems that might occur This information should be as detailed and complete as needed to assist the system owner to make accurate decisions about when and how to attempt corrections of operational problems and when to call for professional assistance 4 3 Evaluate septic tank and pump
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