DAR File No. 27944
Environmental Quality, Water Quality
R317-4
Onsite Wastewater Systems
NOTICE OF PROPOSED RULE
DAR File No.: 27944
Filed: 06/01/2005, 08:31
Received by: NL
RULE ANALYSIS
Purpose of the rule or reason for the change:
The proposed amendments are being made to allow the installation of alternative onsite wastewater treatment systems in areas which may have been unsuitable for traditional wastewater disposal systems because of conditions such as slow percolating or shallow soils.
Summary of the rule or change:
The proposed amendment deletes the existing Section R317-4-11 (Alternate Onsite Wastewater Systems) in its entirety and adds a new Section R317-4-11 (Alternative Systems) in its place. The new section outlines technical requirements for alternative systems and adds the use of packed bed media systems for producing a secondary quality effluent from septic tanks. Language was added to Section R317-4-2 which clarifies the scope of the rule and specifies the administrative process used by local health departments under the rule. Two definitions are added to Section R317-4-1.
State statutory or constitutional authorization for this rule:
Section 19-5-104
Anticipated cost or savings to:
the state budget:
No impact to state budget is anticipated. The rule applies to systems under the jurisdiction of local health departments.
local governments:
Local health departments may incur additional costs of review and inspection for the new systems. Actual costs cannot be determined because the number of potential alternative systems which may be proposed are unknown. Unit costs are difficult to estimate because of the wide range of approaches and personnel used by the local health departments. Local Health Departments are aware of potential increased costs. Any increased costs will likely be recouped through fees and operating permits.
other persons:
Individuals who choose to install the alternative systems allowed under the proposed amendments could incur an additional cost of $8,000 to $10,000 per system over the cost of a standard onsite system. However, installation of an alternative wastewater system may allow the use of a lot which would otherwise be unbuildable using standard septic tank drainfield technology.
Compliance costs for affected persons:
Individuals who choose to install the alternative systems allowed under the proposed amendments could incur an additional cost of $8,000 to $10,000 per system over the cost of a standard onsite system. Local health departments may incur additional costs of review and inspection for the new systems. Any increased costs to local health departments will likely be recouped through fees and operating permits.
Comments by the department head on the fiscal impact the rule may have on businesses:
The proposed amendments have been requested by local health departments and individuals to provide additional flexibility and allow the use of alternative technologies for individual wastewater treatment systems. Any increased costs will be offset by businesses being able to utilize previously unbuildable lots. Dianne R. Nielson, Executive Director
The full text of this rule may be inspected, during regular business hours, at the Division of Administrative Rules, or at:
Water Quality
CANNON HEALTH BLDG
288 N 1460 W
SALT LAKE CITY UT 84116-3231
Direct questions regarding this rule to:
Dave Wham at the above address, by phone at 801-538-6052, by FAX at 801-538-6016, or by Internet E-mail at dwham@utah.gov
Interested persons may present their views on this rule by submitting written comments to the address above no later than 5:00 p.m. on:
07/15/2005
Interested persons may attend a public hearing regarding this rule:
7/07/2005 at 2:00 PM, Cannon Health Building, 288 N 1460 W, Room 125, Salt Lake City, UT
This rule may become effective on:
10/01/2005
Authorized by:
Dianne R. Nielson, Executive Director
RULE TEXT
R317. Environmental Quality, Water Quality.
R317-4. Onsite Wastewater Systems.
R317-4-1. Definitions.
1.1. "Absorption bed" means an absorption system consisting of a covered, gravel-filled bed into which septic tank effluent is discharged through specially designed distribution pipes for seepage into the soil.
1.2. "Absorption system" means a device constructed to receive and to distribute effluent in such a manner that the effluent is effectively filtered and retained below ground surface.
1.3. "Absorption trench" means standard trenches, shallow trenches with capping fill, and chambered trenches constructed to receive and to distribute effluent in such a manner that the effluent is effectively filtered and retained below ground surface.
1.4. "Alternative onsite wastewater system" means a system for treatment and disposal of domestic wastewater or wastes which consists of a building sewer, a septic tank or other sewage treatment or storage unit, and a disposal facility or method which is not a conventional system; but not including a surface discharge to the waters of the state.
1.5. "At-Grade" System means an alternative type of onsite wastewater system where the bottom of the absorption system is placed at or below the elevation of the existing site grade, and the top of the distribution pipe is above the elevation of existing site grade, and the absorption system is contained within a fill body that extends above that grade.
1.6. "Bedrock" means the solid rock beneath the soil which is produced by the gradual weathering of bedrock, through physical and chemical processes leading to increasingly smaller and finer particles, loose sediments, or other unconsolidated material, and superficial rock.
[1.6]1.7.
"Bedroom" means any portion of a dwelling which is so designed
as to furnish the minimum isolation necessary for use as a sleeping area. It may include, but is not limited to, a
den, study, sewing room, sleeping loft, or enclosed porch. Unfinished basements shall be counted as a
minimum of one additional bedroom.
[1.7]1.8.
"Building sewer" means the pipe which carries wastewater from
the building drain to a public sewer, an onsite wastewater system or other
point of disposal. It is synonymous
with "house sewer".
[1.8]1.9.
"Chambered trench" means a type of absorption system where the
media consists of an open bottom, chamber structure of an approved material and
design, which may be used as a substitute for the gravel media with a
perforated distribution pipe.
[1.9]1.10.
"Condominium" means the ownership of a single unit in a
multi-unit project together with an undivided interest in common, in the common
areas and facilities of the property.
[1.10]1.11. "Conventional system" means an onsite wastewater system
which consists of a building sewer, a septic tank, and an absorption system
consisting of a standard trench, a shallow trench with capping fill, a
chambered trench, a deep wall trench, a seepage pit, or an absorption bed.
[1.11]1.12. "Curtain drain" means any ground water interceptor or
drainage system that is gravel backfilled and is intended to interrupt or
divert the course of shallow ground water or surface water away from the onsite
wastewater system.
[1.12]1.13. "Deep wall trench" means an absorption system
consisting of deep trenches filled with clean, coarse filter material, with a
minimum sidewall absorption depth of 24 inches of suitable soil formation below
the distribution pipe, into which septic tank effluent is discharged for
seepage into the soil.
[1.13]1.14. "Division" means the Utah Division of Water Quality.
[1.14]1.15. "Disposal area" means the entire area used for the
subsurface treatment and dispersion of septic tank effluent by an absorption
system.
[1.15]1.16. "Distribution box" means a watertight structure which
receives septic tank effluent and distributes it concurrently, in essentially
equal portions, into two or more distribution pipes leading to an absorption
system.
[1.16]1.17. "Distribution pipe" means approved perforated pipe used
in the dispersion of septic tank effluent into an absorption system.
[1.17]1.18. "Domestic wastewater" means a combination of the liquid
or water-carried wastes from residences, business buildings, institutions, and
other establishments with installed plumbing facilities, together with those
from industrial establishments, excluding non-domestic wastewater. It is synonymous with the term
"sewage".
[1.18]1.19. "Domestic septage" means the semi-liquid material that
is pumped out of septic tanks receiving domestic wastewater. It consists of the sludge, the liquid, and
the scum layer of the septic tank.
[1.19]1.20. "Drainage system" means all the piping within public or
private premises, which conveys sewage or other liquid wastes to a legal point
of treatment and disposal, but does not include the mains of a public sewer
system or a public sewage treatment or disposal plant.
[1.20]1.21. "Drop box" means a watertight structure which receives
septic tank effluent and distributes it into one or more distribution pipes,
and into an overflow leading to another drop box and absorption system located
at a lower elevation.
[1.21]1.22. "Dwelling" means any structure, building, or any
portion thereof which is used, intended, or designed to be occupied for human
living purposes including, but not limited to, houses, mobile homes, hotels,
motels, apartments, business, and industrial establishments.
[1.22]1.23. "Earth fill" means an excavated or otherwise disturbed
suitable soil which is imported and placed over the native soil. It is characterized by having no distinct horizons
or color patterns, as found in naturally developed undisturbed soils.
[1.23]1.24. "Effluent lift pump" means a pump used to lift septic
tank effluent to a disposal area at a higher elevation than the septic tank.
[1.24]1.25. "Ejector pump" means a device to elevate or pump
untreated sewage to a septic tank, public sewer, or other means of disposal.
[1.25]1.26. "Experimental onsite wastewater system" means an onsite
wastewater treatment and disposal system which is still in experimental use and
requires further testing in order to provide sufficient information to
determine its acceptance.
[1.26]1.27. "Final local health department approval" means, for the
purposes of the grandfather provisions in R317-4-2 (Table 1, footnote a) and
R317-4-3, the approval given by a local health department which would allow
construction and installation of subdivision improvements. Note:
Even though final local health department approval may have been given
for a subdivision, individual lot approval would still be required for issuance
of a building permit on each lot.
[1.27]1.28. "Ground water" means that portion of subsurface water
that is in the zone of soil saturation.
[1.28]1.29. "Ground water table" means the surface of a body of
unconfined ground water in which the pressure is equal to that of the
atmosphere.
[1.29]1.30. "Ground water table, perched" means unconfined ground
water separated from an underlying body of ground water by an unsaturated zone. Its water table is a perched water
table. It is underlain by a restrictive
strata or impervious layer. Perched
ground water may be either permanent, where recharge is frequent enough to
maintain a saturated zone above the perching bed, or temporary, where
intermittent recharge is not great or frequent enough to prevent the perched
water from disappearing from time to time as a result of drainage over the edge
of or through the perching bed.
[1.30]1.31. "Impervious strata" means a layer which prevents water
or root penetration. In addition, it
shall be defined as having a percolation rate greater than 60 minutes per inch.
[1.31]1.32. "Invert" is the lowest portion of the internal cross
section of a pipe or fitting.
[1.32]1.33. "Liquid waste operation" means any business activity or
solicitation by which liquid wastes are collected, transported, stored, or
disposed of by a collection vehicle.
This shall include, but not be limited to, the cleaning out of septic
tanks, sewage holding tanks, chemical toilets, and vault privies.
[1.33]1.34. "Liquid waste pumper" means any person who conducts a
liquid waste operation business.
[1.34]1.35. "Local health department" means a city-county or
multi-county local health department established under Title 26A.
[1.35]1.36. "Lot" means a portion of a subdivision, or any other
parcel of land intended as a unit for transfer of ownership or for development
or both and shall not include any part of the right-of-way of a street or road.
[1.36]1.37. "Malfunctioning or failing system" means an onsite
wastewater system which is not functioning in compliance with the requirements
of this regulation and includes, but is not limited to, the following:
A. Absorption systems which seep or flow to the surface of the ground or into waters of the state.
B. Systems which have overflow from any of their components.
C. Systems which, due to failure to operate in accordance with their designed operation, cause backflow into any portion of a building plumbing system.
D. Systems discharging effluent which does not comply with applicable effluent discharge standards.
E. Leaking septic tanks.
[1.37]1.38. "Maximum ground water table" means the highest
elevation that the top of the "ground water table" or "ground
water table, perched" is expected to reach for any reason over the full
operating life of the onsite wastewater system at that site.
[1.38]1.39. "Mound System" means an alternative onsite wastewater
system where the bottom of the absorption system is placed above the elevation
of the existing site grade, and the absorption system is contained in a mounded
fill body above that grade.
[1.39]1.40. "Non-domestic wastewater" means process wastewater
originating from the manufacture of specific products. Such wastewater is usually more
concentrated, more variable in content and rate, and requires more extensive or
different treatment than domestic wastewater.
[1.40]1.41. "Non-public water source" means a culinary water source
that is not defined as a public water source.
[1.41]1.42. "Onsite Wastewater System" means an underground
wastewater disposal system for domestic wastewater which is designed for a
capacity of 5,000 gallons per day or less, and is not designed to serve multiple
dwelling units which are owned by separate owners except condominiums. It usually consists of a building sewer, a
septic tank and an absorption system.
[1.42]1.43. "Percolation rate" means the time expressed in minutes
per inch required for water to seep into saturated soil at a constant rate
during a percolation test.
[1.43]1.44. "Percolation test" means the method used to measure the
percolation rate of water into soil as described in these rules.
[1.44]1.45. "Permeability" means the rate at which a soil transmits
water when saturated.
[1.45]1.46. "Person" means an individual, trust, firm, estate,
company, corporation, partnership, association, state, state or federal agency
or entity, municipality, commission, or political subdivision of a state
(Section 19-1-103).
[1.46]1.47. "Pollution" means any man-made or man-induced
alteration of the chemical, physical, biological, or radiological integrity of
any waters of the state, unless the alteration is necessary for public health
and safety (Section 19-5-102).
[1.47]1.48. "Public health hazard" means, for the purpose of this
rule, a condition whereby there are sufficient types and amounts of biological,
chemical, or physical agents relating to water or sewage which are likely to
cause human illness, disorders or disability.
These include, but are not limited to, pathogenic viruses and bacteria,
parasites, toxic chemicals and radioactive isotopes. A malfunctioning onsite wastewater system constitutes a public
health hazard.
[1.48]1.49. "Public water source" means a culinary water source,
either publicly or privately owned, providing water for human consumption and
other domestic uses, as defined in R309.
[1.49]1.50. "Regulatory Authority" means either the Utah Division
of Water Quality or the local health department having jurisdiction.
[1.50]1.51. "Replacement area" means sufficient land with suitable
soil, excluding streets, roads, and permanent structures, which complies with
the setback requirements of these rules, and is intended for the 100 percent
replacement of absorption systems.
[1.51]1.52. "Restrictive layer" means a layer in the soil that
because of its structure or low permeability does not allow water entering from
above to pass through as rapidly as it accumulates. During some part of every year, a restrictive layer is likely to
have temporarily perched ground water table accumulated above it.
1.53. Scarification - loosening and breaking up of soil.
[1.52]1.54. "Scum" means a mass of sewage solids floating on the
surface of wastes in a septic tank which is buoyed up by entrained gas, grease,
or other substances.
[1.53]1.55. "Seepage pit" means an absorption system consisting of
a covered pit into which septic tank effluent is discharged.
[1.54]1.56. "Septic tank" means a watertight receptacle which
receives the discharge of a drainage system or part thereof, designed and
constructed so as to retain solids, digest organic matter through a period of
detention and allow the liquids to discharge into the soil outside of the tank
through an absorption system meeting the requirements of these rules.
[1.55]1.57. "Septic tank effluent" means partially treated sewage
which is discharged from a septic tank.
[1.56]1.58. "Sewage holding tank" means a watertight receptacle
which receives water-carried wastes from the discharge of a drainage system and
retains such wastes until removal and subsequent disposal at an approved site
or treatment facility.
[1.57]1.59. "Shall" means a mandatory requirement except when
modified by action of the Department on the basis of justifying facts submitted
as part of plans and specifications for a specific installation.
[1.58]1.60. "Shallow trenches with capping fill" means an
absorption trench which meets all of the requirements of standard trenches
except for the elevation of the installed trench. The minimum depth of installation is 10 inches from the natural
existing grade to the trench bottom.
The gravel and soil fill required above the pipe are placed as a
"cap" to the trenches, installed above the natural existing grade.
[1.59]1.61. "Should" means recommended or preferred and is intended
to mean a desirable standard.
[1.60]1.62. "Single-family dwelling" means a building designed to
be used as a home by the owner or lessee of such building, and shall be the
only dwelling located on a lot with the usual accessory buildings.
[1.61]1.63. "Sludge" means the accumulation of solids which have
settled in a septic tank or a sewage holding tank.
[1.62]1.64. "Soil exploration pit" means an open pit dug to permit
examination of the soil to evaluate its suitability for absorption systems.
[1.63]1.65. "Standard Trench" means an absorption system consisting
of a series of covered, gravel-filled trenches into which septic tank effluent
is discharged through specially designed distribution pipes for seepage into
the soil.
[1.64]1.66. "Waste" or "Pollutant" means dredged spoil,
solid waste, incinerator residue, sewage, garbage, sewage sludge, munitions,
chemical wastes, biological materials, radioactive materials, heat, wrecked or
discarded equipment, rock, sand, cellar dirt, and industrial, municipal, and
agricultural waste discharged into water (Section 19-5-102).
[1.65]1.67. "Wastewater" means sewage, industrial waste or other
liquid substances which might cause pollution of waters of the state. Intercepted ground water which is uncontaminated
by wastes is not included.
[1.66]1.68. "Waters of the state" means all streams, lakes, ponds,
marshes, watercourses, waterways, wells, springs, irrigation systems, drainage
systems, and all other bodies or accumulations of water, surface and
underground, natural or artificial, public or private, which are contained
within, flow through, or border upon this state or any portion thereof, except
that bodies of water confined to and retained within the limits of private
property, and which do not develop into or constitute a nuisance, or a public
health hazard, or a menace to fish and wildlife, are not "waters of the
state" (Section 19-5-102).
R317-4-2. Onsite Wastewater Systems--Administrative Requirements.
2.1. Scope. This rule shall apply to onsite wastewater systems.
2.2. Nothing contained in this rule shall be construed to prevent the permitting local health department from:
A. adopting stricter requirements than those contained herein;
B. issuing a renewable operating permit at a frequency not exceeding five years with an inspection showing a satisfactory performance of the permitted system by the department's staff before renewal;
C. taking necessary steps for ground water quality protection through adoption of a ground water quality protection management policy based on a ground water management study, or a onsite systems management planning policy and land use planning through the county's agency;
D. prohibiting any alternative system within the department's jurisdiction;
E. assessing fees for administration of alternative systems
F. requiring the conventional and alternative system in its jurisdiction, be placed under an umbrella of:
1. a responsible management entity overseen by the local health department; or,
2. a contract service provider overseen by the local health department; or
3. a management district, body politic, created by the county for the purpose of operation, maintenance, repairs and monitoring of alternative or all onsite systems;
G. The local health department having jurisdiction must obtain approval from the Utah Water Quality Board to administer alternative systems program, as outlined in this section, before permitting alternative systems.
H. The local health department request for approval must include:
1. A description of its plan to properly manage these systems to protect public health. This plan must include:
a. A description of review, inspection and monitoring procedures of these systems;
b. Resolutions of the Local Board of Health and the County Commission supporting this request
c. A description of the technical capability and training plans of the staff, and availability of resources to adequately manage the increased work load; and,
d. A statement from the county attorney of the county's legal authority to implement and enforce correction of malfunctioning systems and its commitment to exercise this authority.
I. An agreement to:
1. advise the owner of the system of the type of system, and information concerning risk of failure, level of maintenance required, financial liability for repair, modification or replacement of a failed system and periodic monitoring requirements;
2. ensure the existence of the alternative system is recorded on the deed of ownership for that property;
3. provide oversight of installed systems;
4. inspect all installed systems at frequency specified in this rule, through:
a. the department's staff, or,
b. a contracted service provider, or,
c. a responsible management entity, or,
d. a management district body politic created by the county for the purpose of managing onsite systems:
e. maintain records of all installed systems, failures, modifications, repairs and all inspections recording the condition of the system at the time of inspection such as, but not limited to, overflow, surfacing, ponding and nuisance;
5. Submit an annual report on or before September 1 of the calendar year, to the Utah Water Quality Board showing:
a. A summary of a ground water quality protection management policy based on a ground water management study, or a onsite systems management planning policy and land use planning through the county's agency, including steps taken or planned to be taken for implementation of the policy.
b. type and number of systems approved, installed, modified, repaired, failed, inspected;
c. a summary of enforcement actions taken, pending and resolved;
d. a summary of performance of effluent quality showing concentrations of five-day total or carbonaceous biochemical oxygen demand, total suspended solids, nephelometric turbidity units, total nitrogen and Escherichia Coli of all installed systems except for at-grade, earth fill and mound systems;
e. a summary of the performance of contractors, responsible management entities, or management districts operating, maintaining and monitoring alternative systems; and,
f. management options followed in the reporting year and planned to be followed in the period after the reporting period.
J. Description of Management options to be followed:
1. Using the health department staff for all inspections and monitoring of permitted alternative systems; or,
2. Contracting with a responsible management entity employing qualified service providers for operating, maintaining and monitoring alternative systems, certified in accordance with R317-11; or,
3. Using a management district, body politic created by the county for the purpose of managing onsite systems with an annual performance review;, or,
4. An appropriate combination of contract providers or a District, body politic.
K. All alternative systems will be inspected as follows:
1. All at-grade, earth fill and mound systems annually by
a. the local health department staff, or,
b. a contract service provider overseen by the local health department, or,
c. a responsible management entity overseen by the local health department, or,
d. a management district, body politic created by the county for the purpose of managing onsite systems.
2. All packed bed media systems at least twice a year by:
a. the local health department staff, or,
b. a contract service provider overseen by the local health department, or,
c. a responsible management entity overseen by the local health department, or,
d. a management district, body politic created by the county for the purpose of managing onsite systems.
[2.2]2.3.
Failure to Comply With Rules. Any person failing to comply with This
rule will be subject to action as specified in Section 19-5-115 and 26A-1-123.
[2.3]2.4.
Onsite Wastewater System Required. The drainage system of each dwelling,
building or premises covered herein shall receive all wastewater (including but
not limited to bathroom, kitchen, and laundry wastes) and shall have a connection to a public sewer except when such
sewer is not available or practicable for use, in which case connection shall
be made as follows:
A. To an onsite wastewater system found to be adequate and constructed in accordance with requirements stated herein.
B. To any other type of wastewater system acceptable under R317-1, R317-3, R317-5, or R317-560.
[2.4]2.5.
Flows Prohibited From Entering Onsite Wastewater Systems. No ground
water drainage, drainage from roofs, roads, yards, or other similar sources
shall discharge into any portion of an onsite wastewater system, but shall be
disposed of so they will in no way affect the system. Non domestic wastes such as chemicals, paints, or other
substances which are detrimental to the proper functioning of an onsite
wastewater system shall not be disposed of in such systems.
[2.5]2.6.
No Discharge to Surface Waters or Ground Surface. Effluent from any
onsite wastewater system shall not be discharged to surface waters or upon the
surface of the ground. Sewage shall not
be discharged into any abandoned or unused well, or into any crevice, sinkhole,
or similar opening, either natural or artificial.
[2.6]2.7.
Repair of a Failing or Unapproved System. Whenever an onsite wastewater
system is found by the regulatory authority to create or contribute to any
dangerous or insanitary condition which may involve a public health hazard, a
malfunctioning system, or deviates from the plans and specifications approved
by such health authorities, the regulatory authority may order the owner to
take the necessary action to cause the condition to be corrected, eliminated or
otherwise come into compliance.
[2.7]2.8.
Procedure for Wastewater System Abandonment.
A. When a dwelling served by an onsite wastewater system is connected to a public sewer, the septic tank shall be abandoned and shall be disconnected from and bypassed with the building sewer unless otherwise approved by the regulatory authority.
B. Whenever the use of an onsite wastewater system has been abandoned or discontinued, the owner of the real property on which such wastewater system is located shall render it safe by having the septic tank wastes pumped out or otherwise disposed of in an approved manner, and the septic tank filled completely with earth, sand, or gravel within 30 days. The septic tank may also be removed within 30 days , at the owners discretion. The contents of a septic tank or other treatment device shall be disposed of only in a manner approved by the regulatory authority.
R317-4-11. Alternative [Onsite Wastewater ]Systems.
11.1. General Requirements.
A. The health department will review and approve sufficient design, installation and operating information to produce a successful, properly operating installation from a designer certified at Level 3 in accordance with the requirements of R317-11.
B. The designer must submit operation and maintenance instructions for the system to the health department and to the owner. The instructions must describe the activities necessary to properly operate and maintain the system. Trouble shooting information must also be included.
C. All requirements stated elsewhere in this rule for design, construction and installation details, performance, failures, repairs and abandonment shall apply unless stated differently for a given alternative system.
11.2. At-Grade Systems.
A. Design Requirements.
1. Absorption trenches and absorption bed type absorption systems may be placed in the at-grade position provided:
a. Invert of effluent distribution pipe or the bottom of the absorption trench is placed at the native ground surface.
b. the elevation of the anticipated maximum ground water table shall be:
i. at least 24 inches below the bottom of the absorption system excavation; and,
ii. at least 48 inches below finished grade.
c. at least 48 inches of suitable soil percolating between:
i. 1 and 60 minutes per inch for absorption trench, or,
ii. 1 to 30 minutes per inch for absorption beds is available between bedrock or impervious strata and the bottom of the absorption system excavation.
d. The native ground surface does not slope more than four percent for installation of an at-grade system.
e. all other requirements of this rule for:
i. minimum horizontal distances from the stated feature to the toe of the finished at-grade system in Table 2,
ii. area requirements and construction details for absorption trenches in Tables 7, 8 and 9,
iii. area requirements and construction details for absorption beds in Tables 13 and 14, are met.
2. Minimum of two observation ports shall be provided within absorption area.
B. Construction Details.
1. The site shall be cleared of vegetation.
2. The soil at the surface shall be loosened and broken up to an approximate depth of six inches.
3. No tilling shall be permitted.
4. Any furrows resulting from the scarification shall be perpendicular to any slope on the site.
5. When fill is placed where finished contours are above the natural ground surface, it shall extend from the center of the wastewater system at the same general top elevation for a minimum of ten feet in all directions beyond the limits of the disposal area perimeter below, before the beginning of the side slope.
6. The site shall be graded such that surface water drains away from the onsite wastewater system and adjoining area.
7. The maximum side slope for above ground fill shall be four (horizontal) to one (vertical).
11.3 Earth fill systems.
A. Design Requirements.
1. Earth fill may be added to a site or naturally existing soil with a percolation rate less than one minute per inch or more than 60 minutes per inch may be removed and replaced with earth fill with an acceptable, in-place percolation rate, if:
2. the removal of the original soil does not cause other unacceptable site conditions, and, wastewater ponding will not occur below the bottom of the absorption system;
3. the elevation of the anticipated maximum ground water table shall be at least 12 inches below the natural ground surface.
4. Minimum depth of suitable soil percolating between 1 and 60 minutes per inch available between bedrock or impervious strata and:
a. the native ground surface must not be less than 36 inches, or,
b. the bottom of the absorption system trench must not be less than 48 inches, which ever is greater.
5. all other requirements of this rule for:
a. minimum horizontal distances in Table 2,
b. area requirements and construction details for absorption trenches in Tables 7, 8 and 9, are met.
6. The fill area shall be sufficient to:
a. accommodate an absorption system for a home with a minimum of three bedrooms, and shall include all required clearances within, and outside of the fill and absorption system area.
b. install a system sized for greater of three bedrooms or the planned number of bedrooms in the home, using the percolation rate of 60 minutes per inch.
c. include the area required for a 100 percent replacement of the absorption system, with all required clearances.
7. The area between trenches shall not be used for replacement area.
8. The earth fill shall be considered to be acceptably stabilized if it is allowed to naturally settle for a minimum period of one year, sized to result in its minimum required dimensions after the settling period. Mechanical compaction shall not be allowed.
9. After the fill has settled for a minimum of one year, a minimum of two (2) percolation tests/soil exploration tests shall be conducted in the fill. One shall be conducted in the proposed absorption system area and one in the proposed replacement area of the fill. The suitably stabilized fill shall have an in-place percolation rate of between 15 and 45 minutes per inch.
10. Maximum acceptable slope of original site surface for placement of an earth fill system is four percent.
11. The fill depth below the bottom of the absorption system to the native ground surface shall not exceed six feet.
12. Minimum of two observation ports shall be provided within absorption area.
B. Construction Details.
1. The site shall be cleared of vegetation.
2. The surface soil shall be loosened and broken up to an approximate depth of six inches.
3. No tilling shall be permitted.
4. Any furrows resulting from the scarification shall be perpendicular to any slope on the site.
5. The site shall be graded such that surface water drains away from the onsite wastewater system and adjoining area.
6. The maximum exposed side slope for fill surfaces shall be four horizontal to one vertical.
7. When fill is placed where finished contours are above the natural ground surface, it shall extend from the center of the wastewater system at the same general top elevation for a minimum of ten feet in all directions beyond the limits of the disposal area perimeter below, before the beginning of the side slope.
8. A suitable soil cap, which will support a vegetative cover, shall cover the entire fill body. The cap shall be provided with a vegetative cover. Access to the fill site shall be restricted to minimize erosion and other physical damage.
11.4 Mound systems.
A. Design Requirements.
1. Mound system may be built over naturally existing soils with a percolation rates between one to 60 minutes per inch provided:
a. the elevation of the anticipated maximum ground water table shall be at least 12 inches below the natural ground surface.
b. a minimum of one foot of approved sand and one foot of natural soil percolating between one to 60 minutes per inch is available to form the minimum two feet of unsaturated soil below the bottom of the absorption system.
c. at least 36 inches of suitable soil percolating between one and 60 minutes per inch is available between bedrock or impervious strata and the native ground surface.
2. all other requirements of this rule for:
a. minimum horizontal distances in Table 2, and,
b. installation in sloping ground are met.
3. The design shall be based on:
a. a minimum of 300 gallons per day for two bedrooms with 150 gallons per day for each additional bedroom.
b. Linear hydraulic loading rate of:
i. three to four gallons per day per foot when the flow is shallow and primarily lateral, or,
ii. eight to ten gallons per day per foot when the flow is away from the system and primarily downward.
c. Sand fill hydraulic loading rate shall not be greater than 0.8 gallons per day per square foot of absorption system bottom area.
d. Soil (basal) hydraulic loading or application rate at sand fill to native soil interface using a relationship: q (gallons per day per square foot) = 1.2995 X percolation rate (minutes per inch)-0.4421, or as shown in Table 15:
Table 15
Effluent loading rates
from sand fill to native soil interface
(Based on Percolation Test Rates)
Percolation Rate gallons per day
(time in minutes required per square foot
for water to fall one inch)
1-10 0,45
11-15 0.40
16-20 0.35
21-30 0.30
31-45 0.25
46-60 0.20
e. Distribution Cell (Refer to the graphic available for nomen clature from the Division):
i. Area (A X B) shall be the ratio of design flow and sand fill hydraulic loading rate, where the maximum width (A) shall be ten feet,
ii. Length (B) shall be the ratio of:
(1). linear hydraulic loading rate and the design flow when soil application rate is less than 0.3 gallons per day per square foot, or,
(2). linear hydraulic loading rate and the design flow when soil application rate is less than 0.3 gallons per day per square foot, or,
f. Mound fill depth (D) shall be the difference of a minimum of four feet of suitable soil percolating between one and 60 minutes per inch under the absorption system (aggregate and sand fill interface), and, a minimum of two feet.
g. Mound fill depth at down slope edge (E) shall be the sum of Mound fill depth (D) and Absorption area width (A), times the slope of the native ground surface expressed as a decimal.
h. Mound Depth (F) shall be the sum of depth of aggregate (not less than six inches) and depth of aggregate cover over the distribution pipe (not less than two inches), and, nominal diameter of distribution pipe.
i. The minimum depth of cover shall be 12 inches at distribution cell edges (G), and 18 inches at the center of distribution cell (H).
j. Down slope width (I) shall be greater of:
i. Fill depth at the down slope edge of distribution cell ( Mound fill depth at down slope edge (E) + Mound Depth (F) + depth of cover at distribution cell edges (G)) X horizontal gradient of side slope (3 if 3:1) X slope correction factor which is (100 / (100 - (3 X per cent of slope) if 3:1), or,
ii. difference of ratio of linear loading and soil application rates and liner loading and sand fill loading rates.
k. Up slope width (J) shall be: Fill depth at the up slope edge of distribution cell ( Mound fill depth (D) + Mound Depth (F) + depth of cover at distribution cell edges (G)) X horizontal gradient of side slope (3 if 3:1) X slope correction factor which is (100 / (100 +(3 X per cent of slope) if 3:1).
l. End slope width (K) shall be: Total fill at the center of distribution cell (Mound fill depth (D) + Mound fill depth at down slope edge (E))/2) + Mound Depth (F) + depth of cover at the center of distribution cell (H) ) X horizontal gradient of side slope (3 if 3:1).
m. Fill length (L) shall be: Distribution cell length (B) + 2 X end slope width (K).
n. Depth, width and length of distribution cell, sand fill and aggregate shall be as required in Mound Component Manual Version 2, Wisconsin Department of Commerce, January 2001, available from the Division.
o. Effluent distribution shall be pressurized.
p. Minimum of two observation ports shall be provided within absorption area.
B. Construction Details.
1. The site shall be cleared of vegetation and scarified to an approximate depth of six inches. Any furrows resulting from the scarification shall be perpendicular to any slope on the site.
2. The surface soil shall be loosened and broken up to an approximate depth of six inches.
3. The site shall be graded such that surface water drains away from the onsite wastewater system and adjoining area.
4. The minimum thickness of aggregate media around the distribution pipes of the absorption system shall be the sum of six inches below the distribution pipe, the diameter of the distribution pipe and two inches above the distribution pipe or ten inches, whichever is larger.
5. The material for soil cap shall not be less than six inches in thickness and provide protection against erosion, frost, storm water infiltration and support vegetative growth and aeration of distribution cell.
6. Sand fill must meet ASTM Specification C-33 for fine aggregate.
7. A minimum of two observation pipes shall be located at opposite end of each distribution cell and 1/5 to 1/10 the length of distribution cell measured from the end of the cell.
8. Distribution laterals must be:
a. of 3/4 inch to 3 inch in diameter;
b. placed within four feet of each other within distribution cell;
c. provided with a stand pipe for access from the surface for cleaning;
d. provided with orifices:
i. 1/4 or 3/16 inches inch in diameter;
ii. spaced between 30 to 36 inches, and
iii. between six inches to two feet from the edge of distribution cell.
9. Distal head in a lateral must be no less than 2.5 feet for 1/4-inch diameter orifice and 3.5 ft for 3/16-inch diameter orifice.
10. An automatic visual or audible alarm indicating the failure of the pump shall be provided, and shall remain on until turned off manually.
11.5. Packed Bed Media systems.
A. Design Requirements.
1. Packed bed media systems may be used provided:
a. the elevation of the anticipated maximum ground water table shall be at least 12 inches below the natural ground surface.
b. acceptable percolation rate for packed bed media system effluent dispersal is up to 120 minutes per inch;
c. at least 36 inches of suitable soil below the bottom of the absorption trench, percolating between one and 120 minutes per inch is available for packed bed media system effluent dispersal, between bedrock or impervious strata and the native ground surface.
d. At least 18 inches of suitable soil percolating between one and 120 minutes per inch is available for packed bed media system effluent dispersal, between bedrock or impervious strata and the native ground surface with an evaluation of infiltration rate and hydrogeology from a professional geologist or geotechnical engineer licensed to practice in Utah based on:
i. type, extent of fractures, presence of bedding planes, angle of dip,
ii. hydrogeology of surrounding area, and,
iii. cumulative effect of all existing and future systems within the area for any localized mounding or surfacing which may create a public health hazard or nuisance, description of methods used to determine infiltration rate and evaluation of surfacing or mounding conditions.
e. all other requirements of this rule for:
i. installation of absorption trenches in sloping ground, and,
ii. minimum horizontal distances in Table 2, except for water course, lake, pond, reservoir, non-culinary spring, foundation drain, curtain drain or grouted well which require a minimum of 50 feet of separation from absorption trench are met.
2. The design shall be based on:
a. a minimum of 300 gallons per day for two bedrooms and 150 gallons per day for each additional bedroom.
b. Intermittent Sand Filter System:
i. Media
(1) Depth -- Minimum 24 inches of washed sand
(2) Effective size -- 0.35 to 0.5 millimeter
(3) Uniformity Coefficient -- less than 4.0
(4) Maximum Passing through No. 200 Sieve -- one percent
(5) Voids -- 30 percent
(6) Surface area -- 800 - 1000 square feet per cubic foot
ii. Maximum Application rate -- 1.2 gallons per day per square foot of media
iii. Doses per day -- 18 to 24
iv. Recirculation ratio -- none
c. Re-circulating Sand Filter System:
i. Media
(1) Depth -- Minimum 24 inches of washed sand
(2) Effective size -- 1.5 to 2.5 millimeter
(3) Uniformity Coefficient -- less than 3.0
(4) Maximum Passing through No. 50 Sieve -- one percent
(5) Voids -- 30 percent
(6) Surface area -- 500 - 700 square feet per cubic foot
ii. Maximum Application rate -- 5.0 gallons per day per square foot of media
iii. Doses per day -- 48 - 96
iv. Recirculation ratio -- 4:1 at peak flow.
d. Re-circulating Gravel Filter System:
i. Media
(1) Depth - Minimum 36 inches of washed gravel
(2) Effective size -- 1.5 to 5.0 millimeter
(3) Uniformity Coefficient -- less than 2.0
(4) Maximum Passing through No. 16 Sieve -- one percent
(5) Voids -- 30 percent
(6) Surface area -- 500 - 700 square feet per cubic foot
ii. Maximum Application rate -- 5.0 gallons per day per square foot of media
iii. Doses per day -- 48 - 96
iv. Recirculation ratio -- 4:1 at peak flow.
d. Re-circulating Gravel Filter System:
i. Media
(1) Depth - Minimum 36 inches of washed gravel
(2) Effective size -- 1.5 to 5.0 millimeter
(3) Uniformity Coefficient -- less than 2.0
(4) Maximum Passing through No. 16 Sieve -- one percent
(5) Voids -- 30 percent
(6) Surface area -- 500 - 700 square feet per cubic foot
ii. Application rate -- 5.0 gallons per day per square foot of media
iii. Doses per day -- 48 - 96
iv. Recirculation ratio -- 5:1 at peak flow.
e. Textile Filter System:
i. Media
(1) Geotextile, AdvanTex or approved equal
(2) Voids -- more than 80 percent
(3) Surface area -- 2400 - 4800 square feet per cubic foot
ii. Maximum Application rate -- 30.0 gallons per day per square foot of media
iii. Doses per day -- 72 - 144
iv. Recirculation ratio -- 3:1 at peak flow.
f. Peat Filter:
i. Media
(1) Depth -- Minimum 24 inches of peat media
(2) Effective size -- 0.25 to 2.0 millimeter
(3) Voids -- 90 percent
(4) Surface area -- 500,000 square feet per cubic foot
ii. Maximum Application rate -- 5 gallons per day per square foot of media
iii. Doses per day -- up to 300
iv. Recirculation ratio -- none
3. The filter bed must be pressure dosed. Orifices or nozzles shall be of such size that the difference in discharge between the first orifice or nozzle and the last orifice or nozzle in each lateral is less than ten percent. The lateral ends must be equipped with fittings and or enclosures to allow cleaning and servicing from the surface.
4. Recirculation Tank:
a. capacity shall be equal to:
i. at least design flow for one day, or,
ii. other volume supported by the basis of design and operation.
b. design shall include dosing rate, operating, surge and reserve capacities.
c. The recirculation ratio should be adjusted, as necessary during operation and maintenance inspections; ranging from 3:1 to 7:1.
d. Access to the tanks shall be watertight to the finished grade. Any joint in the riser must be tested during the tank watertight test.
5. Outlet of septic tanks upstream of packed bed media shall be fitted with effluent filter.
6. Pumping Equipment and Controls:
a. The system shall be equipped with a programmable control panel. The controls shall be capable of controlling all functions incorporated or required in the design of the system. All system control panels must be equipped with an automatic visual or audible alarm indicating the failure of the pump shall be provided, and shall remain on until turned off manually.
b. The control panel must include a pump run-time hour meter and a pump event counter or other acceptable flow measurement method.
c. The control panel must be installed within sight of the access risers.
d. The control panel must be rated for exterior use. The enclosure must be rated for NEMA 4X or better.
e. The pumps shall be capable of delivering the design flow at the calculated total dynamic head for the proposed system. Supporting hydraulic calculations and pump curve analysis must be submitted to the health department with the design.
f. The pump selected must be rated for the number of cycles anticipated at peak flow conditions.
7. Packed bed system media effluent shall be distributed by gravity or under pressure in an absorption trench designed:
a. in accordance with Table 7 of this rule for soils percolating between one to 60 minutes per inch.
b. Using the equation:
i. q = 2.1687 X t(-0.3806) where t is the percolation rate in minutes per inch, and q is in gallons per day per square foot, or,
ii. Area in square feet per bed room = 69.16 X t(0.3806) where t is the percolation rate in minutes per inch.
c. Dispersal area may be reduced by multiplying the area reduction factor shown in Table 16:
Table 16
Area Reduction Factors
System Factor
Intermittent Sand Filter 0.85
Re-circulating Sand Filter 0.80
Re-circulating Gravel Filter 0.80
Textile Filters 0.75
Peat Filters 0.80
d. Effluent distribution may be by gravity or under pressure.
e. Drip irrigation system may be used for packed bed media system effluent disposal based on type of soil and drip irrigation manufacturer's recommendations.
f. Minimum of two observation ports shall be provided within absorption area.
8. Performance of Packed Bed Media Systems
a. Packed bed media system performance shall be monitored at an interval not exceeding six calendar months for surfacing in absorption trench area, odors around filter systems, equipment malfunction, and effluent quality of a grab sample showing no more than 20 nephelometric turbidity units (NTU), or five-day total or carbonaceous biochemical oxygen demand and total suspended solids concentration of no more than 25 milligrams per liter.
b. Effluent turbidity exceeding 20 NTU shall be followed up with two successive week testing within a 30-day period from the first exceedance. When two successive effluent testing shows results in excess of 20 NTU, the system shall be deemed to be non-compliant requiring further evaluation with five-day total or carbonaceous biochemical oxygen demand and total suspended solids concentrations, and a corrective action plan.
c. Corrective action is required where the effluent quality does not meet the minimum standard for more than 30 days.
d. For non-complying systems, the health department shall require and order:
i. all necessary steps such as maintenance servicing, repairs, and/or replacement of system components to correct malfunctioning or non-compliant system;
ii. effluent quality testing for turbidity, five-day total or carbonaceous biochemical oxygen demand, and suspended solids shall continue every two weeks until three successive samples are found to be in compliance;
iii. payment of fines, fees for additional inspections reviews and testing;
iv. evaluation of the system design including non-approved changes to the system, and the wastewater flow volume, the biological and or chemical loading to the system;
v. investigate the household practices, or discharge of hazardous chemicals into the system, such as, water softener brine, photo finishing chemicals, laboratory chemicals, excessive amount of cleaners or detergents, etc.; and,
vi. additional tests or samples to troubleshoot the system malfunction.
B. Construction Details
i. The site shall be graded such that surface water
drains away from the onsite wastewater system and adjoining area.[11.1. Administrative Requirements. The local
health department having jurisdiction must obtain approval from the division to
administer an alternative onsite wastewater system program, as outlined in this
section, prior to permitting alternative onsite wastewater systems. Alternative onsite wastewater systems are
only to be installed where site limitations prevent the use of conventional
onsite wastewater systems.
A.
The following alternative onsite wastewater systems may be considered
for use upon the executive secretary's approval of a written request from the
local health department to administer an alternative onsite wastewater system
program.
TABLE 15
System Rule Reference
Earth fill Systems R317-4-11.2
"At-Grade" Systems R317-4-11.3
Mound Systems R317-4-11.4
The local health department request
for approval must include a description of their plan to properly manage these
systems to protect public health and water quality. This plan must include:
1.
Documentation of the adequacy of staff resources to manage the increased
work load.
2.
Documentation of the technical capability to administer the new systems
including any training plans which are needed.
3.
A description of measures to be taken by the local health department to
insure that designers and installers of these systems are qualified.
4.
A description of the methods which will be used to determine the maximum
anticipated high ground water table elevation.
5.
Documentation that the Local Board of Health and County Commission
support this request.
6.
A description of how these systems will be managed, inspected and monitored.
7.
A ground water management plan which identifies maximum septic system
densities to be allowed in order to prevent unacceptable degradation of ground
water, or a schedule for completing an acceptable plan within one year. This
requirement may be waived or modified by the executive secretary where it can
be shown that these systems would be relatively few in number and widely
separated, thereby having negligible impact on ground water quality, or where
the ground water aquifers vary greatly over relatively short distances making
such a ground water study impractical.
8.
Documentation of the county's legal authority to implement and enforce
correction of malfunctioning systems and their commitment to exercise this
authority.
B.
All alternative onsite wastewater systems shall be designed, installed
and operated under the following conditions:
1.
The ground water requirements shall be determined as shown in R317-4-5.
2.
The local health department must advise the owner of the system of the
alternative status of that type of system.
The advisory must contain information concerning risk of failure, level
of maintenance required, financial liability for repair, modification or
replacement of a failed system and periodic monitoring requirements which are
all specific to the type of system to be installed.
3.
The local health department and the homeowner shall be provided with
sufficient design, installation and operating information to produce a
successful, properly operating installation.
4.
The local health department is responsible for provision of, or
oversight of an approved installation, inspection and maintenance and
monitoring program for the systems. Such programs shall include approved
procedures for complete periodic maintenance and monitoring of the systems.
5.
The local health department may impose more stringent design,
installation, operating and monitoring conditions than those required by the
Division.
6.
All failures, repairs or alterations shall be reported to the local health
department. All repairs or alterations
must be approved by the local health department.
C.
When an alternative onsite wastewater system exists on a property,
notification of the existence of that system shall be recorded on the deed of
ownership for that property.
11.2. Installation in Earth Fill.
A.
Installation of absorption systems in earth fill will be allowed only by
the regulatory authority having jurisdiction in accordance with these rules.
Installation of absorption systems in earth fill is an alternative disposal
method. Conditions for use of alternative onsite wastewater systems are shown
in R317-4-11.
B.
Absorption trenches and absorption bed type systems may be placed in
earth fill. Absorption trench systems
placed in earth fill can only be installed over natural soils with a
percolation rate range between five and 60 minutes per inch; and absorption bed
systems over soils with a percolation rate range of five to 30 minutes per
inch.
C.
Naturally existing soil with an unacceptable percolation rate may be
removed and replaced with earth fill with an acceptable, in-place percolation
rate, if the removal of the original soil does not cause other unacceptable
site conditions and if acceptable natural soil exists below the replacement. The site must conform to all other
acceptability conditions.
D.
The maximum acceptable existing slope of a site upon which an "at
grade" or "above grade" onsite system can be placed with the use
of earth fill is four percent.
E.
The minimum area of fill to be placed shall be sufficient to install a
system sized for the number of bedrooms in the home, using the percolation rate
of 60 minutes per inch. The fill area
shall be sized to accommodate an absorption system for a home with a minimum of
three bedrooms, and shall include all required clearances within, and outside
of the fill and absorption system area.
F.
The area of original fill placement shall include that area required for
a 100 percent replacement of the drainfield, with all required clearances. The area between trenches shall not be used
for replacement area.
G.
The fill depth below the bottom of the absorption system shall not
exceed six feet.
H.
The minimum separation between the natural ground surface and the
anticipated maximum ground water table or saturated soil shall be twelve (12)
inches.
I.
The earth fill shall be considered to be acceptably stabilized if it is
allowed to naturally settle for a minimum period of one year, sized to result
in its minimum required dimensions after the settling period. Mechanical compaction shall not be allowed.
J.
All onsite wastewater systems placed in earth fill shall conform to all
other applicable requirements of R317-4, "Onsite Wastewater Systems".
K.
The onsite wastewater system and local area surrounding them shall be
graded to drain surface water away from the absorption system.
L.
After the fill has settled for a minimum of one year, a minimum of two
(2) percolation tests/soil exploration tests shall be conducted in the
fill. One shall be conducted in the
proposed absorption system area and one in the proposed replacement area of the
fill. The suitably stabilized fill shall have an in-place percolation rate of
between 15 and 45 minutes per inch.
M.
The maximum exposed side slope for fill surfaces shall be four
horizontal to one vertical. When fill
is placed where finished contours are above the natural ground surface, it
shall extend from the center of the wastewater system at the same general top
elevation for a minimum of ten feet in all directions beyond the limits of the
disposal area perimeter below, before the beginning of the side slope. A suitable soil cap, which will support a vegetative
cover, shall cover the entire fill body. The cap shall be provided with a
vegetative cover. Access to the fill
site shall be restricted to minimize erosion and other physical damage.
11.3. "At-Grade" Systems.
A.
Where site conditions may restrict the installation of a standard
absorption system, an "at-grade" system may be used. It shall be
designed, installed, operated and monitored in accordance with these
rules. An "at-grade" system
is considered to be an alternative disposal method. Conditions for use of
alternative wastewater systems are shown in R317-4-11.
B.
Absorption trenches and absorption bed type absorption systems may be
placed in the "at-grade" position.
Absorption systems placed "at-grade" can only be installed
over natural soils with a percolation rate range between five and 60 minutes
per inch; and absorption bed systems over soils with a percolation rate range
of five to 30 minutes per inch.
C.
The minimum distance from the top of finished grade to the high seasonal
ground water table or perched ground water table shall be four feet.
D.
When fill is placed where finished contours are above the natural ground
surface, it shall extend from the center of the wastewater system at the same
general top elevation for a minimum of ten feet in all directions beyond the
limits of the disposal area perimeter below, before the beginning of the side
slope.
E.
The maximum side slope for above ground fill shall be four (horizontal)
: one (Vertical).
F.
Maximum acceptable slope of original site surface for placement of an
"at-grade" system is four percent.
G.
The site shall be cleared of vegetation and scarified to an approximate
depth of six inches. Any furrows
resulting from the scarification shall be perpendicular to any slope on the
site.
11.4. Mound Systems.
A.
Where site conditions may restrict the use of a standard absorption
system, a mound system may be used. It
shall be designed, installed, operated and monitored in accordance with these
rules. A mound system is considered to
be an alternative disposal method. Conditions for use of alternative wastewater
systems are shown in R317-4-11.1.
B.
The minimum separation between the natural ground surface and the
anticipated maximum ground water table or saturated soil shall be twelve (12)
inches.
C.
The two foot minimum thick unsaturated soil treatment horizon below the
bottom of the absorption system shall consist of a minimum of one foot of
suitable natural soil.
D.
Mound systems shall not be located on sites where the original
prevailing surface grade exceeds four percent.
E.
All mound type onsite systems shall utilize pressurized systems for
distribution of effluent in the absorption system.
F.
The local health department in whose jurisdiction the mounds with pressurized
systems are to be used, shall have an approved maintenance program in place.
G.
The design effluent loading rate through the absorption system bottom to
sand fill interface shall be 0.8 gallons per day per square foot of absorption
system bottom area.
H.
The effluent loading rate at the sand fill to native soil interface
shall as specified in Table 16:
TABLE 16
Effluent Loading Rate from Sand Fill to the Natural Soil Surface
PERCOLATION RATE OF
NATURAL SOIL UNIT LOADING RATE
(Minutes per inch)
1-10 gallons per day 0.45
per square foot
11-15 gallons per day 0.40
per square foot
16-20 gallons per day 0.35
per square foot
21-30 gallons per day 0.30
per square foot
31-45 gallons per day 0.25
per square foot
46-60 gallons per day 0.20
per square foot
I. The minimum thickness of aggregate media around the distribution pipes
of the absorption system shall be the sum of six inches below the distribution
pipe, the diameter of the distribution pipe and two inches above the
distribution pipe or ten inches, whichever is larger.
J.
Mound systems shall be designed in accordance with "Mound Soil
Absorption System Siting, Design and Construction Guidance Manual, April 1,
1996", which is hereby incorporated by reference. A copy is available for public review from
the Division of Water Quality, 288 North 1460 West, P.O. Box 144870, Salt Lake
City, UT, 84114-4870.
11.5. Supplemental Requirements for Maintenance and Monitoring of "At-Grade"
and Earth Fill Alternative Onsite Wastewater Systems.
A.
These requirements are to be applied in addition to the requirements
specified in R317-4-13 where applicable.
B.
These systems shall be monitored at a period of six months and one year
after initial use of the system and annually thereafter for a total of five
years. Repairs shall be made at any
time to a malfunctioning system, as soon as possible after the malfunction is
discovered.
C.
The local health department in whose jurisdiction the alternative system
is installed shall be responsible for formulation of, administration and
supervision of a maintenance and monitoring program that is approved by the
Division.
11.6. Supplemental Requirements for Maintenance and Monitoring of Pressure
Distribution Alternative Onsite Wastewater Systems.
A.
These requirements are to be applied in addition to the requirements
specified R317-4-13, where applicable.
B.
These systems shall be monitored every six months throughout the life of
the system. Repairs shall be made at any time to a malfunctioning system, as
soon as possible after the malfunction is discovered.
C.
The local health department in whose jurisdiction the pressurized system
is installed shall be responsible for formulation of, administration and
supervision of a maintenance and monitoring program that is approved by the
Division.
D.
Additional requirements for maintenance of these systems are contained
in "Mound Soil Absorption System Siting, Design and Construction Guidance
Manual, April 1, 1996", which is hereby incorporated by reference. A copy is available for public review from
the Division of Water Quality, 288 North 1460 West, P.O. Box 144870, Salt Lake
City, UT, 84114-4870.]
KEY: waste water, onsite wastewater systems, alternative onsite wastewater systems, septic tanks
[January
30, 2003]2005
Notice of Continuation February 10, 2005
19-5-104
ADDITIONAL INFORMATION
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