Utah Admin. Code R317-4-6 - Design Requirements
(1) An onsite
wastewater system may not be suitable in some areas and situations. Location
and installation of each system shall be such that with reasonable maintenance,
it shall function in a sanitary manner and may not create a nuisance, public
health hazard, or endanger the quality of any waters of the state. In
determining a suitable location for each system, due consideration shall be
given to such factors as:
(a) the minimum
setbacks in Section R317-4-13 Table 2;
(b) size and shape of the lot;
(c) slope of natural and final
grade;
(d) location of existing and
future water supplies;
(e) depth of
ground water and bedrock;
(f) soil
characteristics and depth;
(g)
potential flooding or storm catchment;
(h) possible expansion of the system;
and
(i) future connection to a
public sewer system.
(2)
Any onsite wastewater system, including the replacement area, shall conform to
the minimum setback distances in Section
R317-4-13 Table 2.
(3) Any absorption system, including the
replacement area, shall conform to the ground slope requirements in Section
R317-4-4.
(4) Any design for an onsite wastewater
system shall include an estimate of wastewater quantity.
(a) The wastewater quantity estimate for a
single-family dwelling shall be a minimum of 300 gallons per day for 1 or 2
bedroom, and 150 gallons per day for each additional bedroom.
(b) For any non-residential facility, the
quantity of wastewater shall be determined accurately, preferably by actual
measurement. Metered water supply figures for similar installations can usually
be relied upon, providing the non-disposable consumption, if any, is
subtracted. Where this data is not available, the minimum design flow figures
in Section R317-4-13 Table 3 shall be used
to make estimates of flow.
(c) In
no event shall the anticipated maximum daily wastewater flow exceed the
capacity for which a system is designed.
(5) Effluent shall be treated to levels at or
below the defined parameters of non-domestic effluent before being discharged
into an absorption system.
(6)
Building sewer shall meet the following requirements:
(a) The building sewer shall have a minimum
inside diameter of 4 inches and shall comply with the minimum standards in
Section R317-4-13 Table 4. If the sewer
leaving the house is 3 inches, the building sewer may be 3 inches.
(b) Building sewers shall be laid on a
uniform minimum slope of not less than 1/4 inch per foot or 2.08%
slope.
(c) The building sewer shall
have a minimum of one cleanout and cleanouts every 100 feet.
(i) A cleanout is also required for each
aggregate horizontal change in direction exceeding 135 degrees.
(ii) 90 degree ells are not
recommended.
(d) The
building sewer shall be separated from water service pipes in separate
trenches, and by at least 10 feet horizontally, except that they may be placed
in the same trench when all the following conditions are met.
(i) The bottom of the water service pipe, at
all points, shall be at least 18 inches above the top of the building
sewer.
(ii) The water service pipe
shall be placed on a solid shelf excavated at one side of the common trench
with a minimum clear horizontal distance of at least 18 inches from the sewer
or drain line.
(iii) The number of
joints in the water service pipe should be kept to a minimum, and the materials
and joints of both the sewer and water service pipes shall be of strength and
durability to prevent leakage under adverse conditions.
(iv) If the water service pipe crosses the
building sewer, it shall be at least 18 inches above the latter within 10 feet
of the crossing. Joints in water service pipes should be located at least 10
feet from such crossings.
(e) Each building sewer placed under
driveways or other areas subjected to heavy loads shall receive special design
considerations to ensure against crushing or disruption of
alignment.
(7) Each
septic tank shall meet the requirements of Subsection
R317-4-14(1)
Appendix A and be approved by the division. Septic tanks shall be constructed
of sound, durable, watertight materials that are not subject to excessive
corrosion, frost damage, or decay. They shall be designed to be watertight, and
to withstand all expected physical forces.
(a)
A septic tank that serves a non-residential facility shall have a liquid
capacity of at least 1-1/2 times the designed daily wastewater flow. In all
cases the capacity shall be at least 1,000 gallons.
(b) The capacity of a septic tank that serves
a single-family dwelling shall be based on the number of bedrooms that can be
anticipated in the dwelling served, including the unfinished space available
for conversion as additional bedrooms. Unfinished basements shall be counted as
a minimum of one additional bedroom.
(i) The
minimum liquid capacity of the tank shall be 1,000 gallons for up to three
bedroom homes.
(ii) The minimum
liquid capacity of the tank shall be 1,250 gallons for four bedroom
homes.
(iii) Two hundred fifty
gallons per bedroom shall be added to the liquid capacity of the tank for each
additional bedroom over four bedrooms.
(c) The regulatory authority may require a
larger capacity than specified in this subsection as needed for unique or
unusual circumstances.
(d) Multiple
septic tanks may be installed in series.
(i)
No tank in the series may be smaller than 1,000 gallons.
(ii) The capacity of the first tank shall be
at least two-thirds of the required total septic tank volume. If a
compartmented tank is used, the compartment of the first tank shall have this
two-thirds capacity. A membrane bioreactor system may include the balance tank
as a second tank in series where the volume of the balance tank is included in
the total required septic tank liquid storage capacity.
(iii) The connecting pipe between each
successive tank shall meet the slope requirements of the building sewer and
shall be unrestricted except for the inlet to the first tank and the outlet for
the last tank.
(iv) The maximum
number of tanks and compartments in series may not exceed
three.
(e) Each septic
tank inlet or outlet device shall conform to the following:
(i) Approved tanks with offset inlets may be
used where they are warranted by constraints on septic tank location.
(ii) Multiple outlets from septic tanks shall
be prohibited unless preauthorized by the regulatory authority.
(iii) A gas deflector may be added at the
outlet of the tank to prevent solids from entering the outlet pipe of the
tank.
(f) Any septic
tank may have an effluent screen installed at the outlet of the terminal tank.
The screen shall prevent the passage of solid particles larger than a nominal
1/8 inch diameter sphere. The screen shall be easily removable for routine
servicing by installing a riser to the ground surface, with an approved cover.
An effluent screen is required for each non-domestic wastewater system, unless
screening is achieved by some other means acceptable to the regulatory
authority.
(g) Adequate access to
the tank shall be provided to facilitate inspection, pumping, servicing, and
maintenance, and shall have no structure or other obstruction placed over it
and shall conform to all the following requirements.
(i) Watertight risers are required, extending
to within 6 inches of the surface of the ground when soil covering the septic
tank is greater than 6 inches. Preferably, the riser should be brought up to
the final grade to encourage periodic servicing and maintenance.
(A) If a septic tank is located under paving
or concrete, risers shall be extended up through the paving or
concrete.
(B) If non-domestic
wastewater is generated, risers shall be extended to the final
grade.
(ii) The inside
diameter of the riser shall be a minimum of 20 inches.
(iii) Each riser cover shall be designed and
constructed in such a manner that:
(A) it may
not pass through the access openings;
(B) it shall be child-proof when
closed;
(C) it shall prevent
entrance of surface water, dirt, or other foreign materials; and
(D) it shall seal odorous gases in the
tank.
(iv) Each riser
shall be constructed of durable, structurally sound materials that are approved
by the regulatory authority and designed to withstand expected physical loads
and corrosive forces.
(v) When a
septic tank capacity exceeds 3,000 gallons, a minimum of two access risers
shall be installed.
(h)
Each septic tank installation located in a high groundwater area shall conform
to the following additional requirements:
(i)
Each septic tank located in a high groundwater area shall be designed with the
appropriate weighted or anti-buoyancy device to prevent flotation in accordance
with the manufacturer's recommendations.
(ii) The building sewer inlet of a septic
tank may not be installed at an elevation lower than the highest anticipated
groundwater elevation.
(A) If the tank serves
a mound, packed bed, or membrane bioreactor alternative system and has an
electronic control panel capable of detecting water intrusion, the building
sewer inlet of the tank may be installed below the maximum anticipated
groundwater elevation.
(B) Any
component below the anticipated maximum ground water elevation shall be water
tightness tested.
(i) The minimum depth of cover over a septic
tank shall be at least 6 inches and a maximum of 48 inches at final grading.
For unusual situations, the regulatory authority may allow deeper burial
provided the following conditions are met.
(A) Each septic tank shall be approved by the
division for the proposed depth and burial cover load.
(B) Each riser shall:
(I) be installed over each access opening of
the inlet and outlet baffles or sanitary tees; and
(II) conform to Subsection
R317-4-6(7)(g),
except each riser shall be at least 24 inches in
diameter.
(8) A grease interceptor tank or automatic
grease removal device may be required by the regulatory authority to receive
the drainage from fixtures and equipment with grease-laden waste. It shall be
sized according to the current Plumbing Code.
Any grease interceptor tank or automatic grease removal device installed in the ground shall conform to Subsection R317-4-6(7)(g) for accessibility and installation, except risers are required and shall be brought to the surface of the ground. Each interior compartment shall be accessible for inspecting, servicing, and pumping.
(9) Installation of each pump and
recirculation tank shall conform to the following:
(a) Each pump or recirculation tank shall be
constructed of sound, durable, watertight materials that are not subject to
excessive corrosion, frost damage, or decay. The tank shall be designed to be
watertight, and to withstand all expected physical forces;
(b) Pump tank volume shall have a liquid
capacity adequate for the minimum operating volume that includes the dead
space, dosing volume, and surge capacity, and shall have the emergency
operation capacity of:
(i) storage capacity
for the system design daily wastewater flow;
(ii) at least two independent power sources
with appropriate wiring installed; or
(iii) other design considerations approved by
the regulatory authority that do not increase public health risks if pump
failure occurs.
(c) Each
tank shall conform to Subsection
R317-4-6(7)(g)
for accessibility and installation, except risers are required and shall be
brought to the surface of the ground. Each interior compartment shall be
accessible for inspecting, servicing, and pumping; and
(d) Each outlet of any septic tank upstream
of each pump tank shall be fitted with an effluent screen, unless a pump vault
is used in a pump tank.
(10) A pump vault may be used when approved
by the regulatory authority.
(a) The vault
shall be constructed of durable material and resistant to corrosion.
(b) The vault shall have an easily accessible
screen with 1/8 inch openings or smaller.
(c) Each component of the vault shall be
accessible from the surface.
(d)
When a pump vault is used in a septic tank:
(i) The tank size shall be increased by the
larger of the following:
(A) two hundred fifty
gallons; or
(B) ten percent of the
required capacity of the tank.
(ii) At least two independent power sources
with appropriate wiring, or other design considerations approved by the
regulatory authority that do not increase public health risks, shall be
installed.
(iii) The maximum
drawdown within the tank shall be no more than 3 inches per
dose.
(11) Each
pump shall be designed as detailed in Subsection
R317-4-14(2)
Appendix B.
(12) When any onsite
wastewater system is required to have effluent sampling or receives
non-domestic wastewater, the system shall include a sampling port at an area
approved by the regulatory authority capable of sampling effluent before the
absorption system.
(13) Each
effluent sewer shall conform with the following:
(a) The effluent sewer shall have a minimum
inside diameter of 4 inches and shall comply with the minimum standards in
Section R317-4-13 Table 4;
(b) The effluent sewer shall extend at least
5 feet beyond the septic tank before entering the absorption system;
(c) The effluent sewer shall be laid on a
uniform minimum slope of not less than 1/4 inch per foot or 2.08% slope. When
it is impractical, due to structural features or the arrangement of any
building, to obtain a slope of 1/4 inch per foot, a sewer pipe of 4 inches in
diameter or larger may have a slope of not less than 1/8 inch per foot or 1.04%
slope when approved by the regulatory authority;
(d) The effluent sewer line shall have
cleanouts at least every 100 feet; and
(e) Each effluent sewer placed under a
driveway or other area subjected to heavy loads shall receive special design
considerations to ensure against crushing or disruption of
alignment.
(14) An
absorption system shall consist of one or more absorption trenches, absorption
beds, deep wall trenches, or seepage pits.
Absorption trenches may be standard trenches, chambered trenches, or bundled synthetic aggregate trenches.
(a) Each absorption system shall meet general
requirements.
(i) A replacement area for each
absorption system shall have adequate and suitable land which shall be reserved
and kept free of permanent structures, traffic, or adverse soil modification
for 100% replacement of each absorption system. If approved by the regulatory
authority, the area between standard trenches or deep wall trenches may be
regarded as replacement area. In lieu of a replacement area, two complete
absorption systems shall be installed with a diversion valve. The valve shall
be accessible from the final grade. The valve should be switched at least
annually.
(ii) The site of the
initial and replacement absorption system shall be protected and may not be
covered by asphalt, concrete, structures, or be subject to vehicular traffic,
or other activity that would adversely affect the soil, such as construction
material storage, or soils storage. This protection applies before and after
construction of the onsite wastewater system.
(iii) Each absorption system shall be sized
based on Section R317-4-13 Table 5 or
R317-4-13 Table 6.
(iv) Many different criteria may be used in
designing an absorption system, the choice depending on the size and shape of
the available areas, the capacity required, and the topography of the dispersal
area.
(A) Each absorption system shall comply
with the setbacks in Section
R317-4-13 Table 2.
(B) An absorption system may be placed in
sloping ground. Any absorption system placed in 10% or greater sloping ground
shall be designed so that there is a minimum of 10 feet of undisturbed earth
measured horizontally from the bottom of the distribution line to the ground
surface. This requirement does not apply to drip irrigation.
(C) That portion of the absorption system
below the top of distribution pipes shall be in undisturbed natural
earth.
(D) All piping, chambers,
and the bottoms of absorption system excavations shall be designed
level.
(E) Distribution pipe for
gravity-flow absorption systems shall be 4 inches in diameter and shall comply
with the minimum standards in Section
R317-4-13 Table 4.
(I) The pipe shall be penetrated by at least
two rows of round holes, each 1/2 inch in diameter, and located at about 6 inch
intervals. The perforations should be located at about the five o'clock and
seven o'clock positions on the pipe.
(II) The open ends of the pipes shall be
capped.
(F) Absorption
system laterals should be designed to receive proportional flows of
wastewater.
(G) Drain media shall
be covered with a barrier material before being covered with earth
backfill.
(H) The following
prohibitions shall apply to the design of an absorption system:
(I) In any gravity-flow absorption system
with multiple distribution lines, the effluent sewer may not be in direct line
with any one of the distribution pipes, except where drop boxes or distribution
boxes are used.
(II) Any section of
distribution pipe laid with non-perforated pipe may not be considered in
determining the required absorption area.
(III) Perforated distribution pipe may not be
placed under a driveway or other area subjected to heavy loads. A deep wall
trench or filled seepage pit may be allowed beneath an unpaved driveway on a
case-by-case basis by the regulatory authority, if the top of the distribution
pipe is at least 3 feet below the final ground
surface.
(b) Effluent distribution devices may be used
to distribute effluent evenly throughout an absorption system.
(i) A distribution box may be used on level
or nearly level ground. Each distribution box shall be watertight and
constructed of durable, corrosion resistant material. Each distribution box
shall be designed to accommodate an inlet pipe and the necessary distribution
lines.
(A) The outlet inverts of the
distribution box may not be less than 1 inch below the inlet invert.
(B) Each distribution box shall have a riser
brought to final grade.
(ii) Each drop boxes shall be watertight and
constructed of durable, corrosion resistant material and may be used to
distribute effluent within the absorption system and shall meet the following
requirements:
(A) Each drop box shall be
designed to accommodate an inlet pipe, an outlet pipe leading to the next drop
box, except for the last drop box, and one or two distribution pipes leading to
the absorption system.
(B) The
inlet pipe to the drop box shall be at least 1 inch higher than the outlet pipe
leading to the next drop box.
(C)
The invert of the distribution pipes shall be 1 through 6 inches below the
outlet invert. If there is more than one distribution pipe, their inverts shall
be at exactly the same elevation.
(D) Each drop box shall have a riser brought
to final grade.
(iii)
Effluent may be pumped to an absorption system.
(A) If a pump is used to lift effluent to an
absorption system, the pump tank or pump vault shall meet the requirements of
Subsection R317-4-6(9) or
R317-4-6(10)
and the pump and controls shall meet the requirements of Subsection
R317-4-14(2)
Appendix B.
(B) Pumping to an
absorption system may not warrant any reductions to the absorption
area.
(iv) Any tee, wye,
ell, or other distributing device may be used as needed to distribute
proportional flow to the branches of the absorption system. A clean out or
other means of access from the surface shall be provided for any such device.
(c) Effluent shall be
distributed evenly throughout an absorption system using various methods.
(i) In a location where the slope of the
ground over the absorption system area is relatively flat, absorption trenches
should be interconnected to produce a closed loop system and the trenches shall
be installed at the same elevations.
(ii) If a non-closed loop design is used,
effluent shall be proportionally distributed to each lateral.
(iii) Serial or sequential distribution may
be used in absorption systems designed for sloping areas, or where absorption
system elevations are not equal.
(A) Serial
trenches shall be connected with a drop box or watertight overflow line in such
a manner that a trench shall be filled before the effluent flows to the next
lower trench.
(B) The overflow line
shall be a 4-inch solid pipe with direct connections to the distribution pipes.
It should be laid in a trench excavated to the exact depth required. Care must
be exercised to ensure a block of undisturbed earth remains between trenches.
Backfill should be carefully tamped.
(iv) Pressure distribution to an absorption
system shall conform to the following general requirements:
(A) All requirements stated elsewhere in this
rule for design, setbacks, construction and installation details, performance,
repairs, and abandonment shall apply.
(B) Each system that uses this method shall
be designed by a person certified at Level 3 in accordance with Rule R317-11.
(I) The designer shall submit details of all
system components with the necessary calculations.
(II) The designer shall provide to the local
health department and to the owner operation and maintenance instructions that
include the minimum inspection levels in Section
R317-4-13 Table 7 for the
system.
(C) When a system
utilizing pressure distribution exists on a property, notice of the existence
of that system shall be recorded in the chain of title for that
property.
(D) Pressure distribution
may be permitted on any site meeting the requirements for an onsite wastewater
system if conditions in this rule can be met. Pressure distribution should be
considered when:
(I) effluent pumps are
used;
(II) the flow from the
dwelling or structure exceeds 3,000 gallons per day;
(III) soils are a Type 1 or have a
percolation rate faster than five minutes per inch; or
(IV) soils are a Type 5 or have a percolation
rate slower than 60 minutes per inch.
(E) The Utah Guidance for Performance,
Application, Design, Operation and Maintenance: Pressure Distribution Systems
document shall be used for design requirements, along with the following:
(I) Dosing pumps, controls and alarms shall
comply with Subsection
R317-4-14(2)
Appendix B.
(II) Pressure
distribution piping, pressure transport, manifold, lateral piping, and fittings
shall meet PVC Schedule 40 standards or equivalent.
(III) The ends of lateral piping shall be
constructed with sweep elbows or an equivalent method to bring the end of the
pipe to final grade. The ends of the pipe shall be provided with threaded
plugs, caps, or other devices acceptable to the regulatory authority to allow
for access and flushing of the lateral.
(d) Each absorption system shall be designed
according to the requirements for the specific absorption method selected.
(i) An absorption system shall be designed to
follow the ground surface contours so that variation in excavation depth shall
be minimized. The excavations may be installed at different elevations, but the
bottom of each individual excavation shall be level throughout its
length.
(ii) Each absorption system
should be constructed as shallow as is possible to promote treatment and
evapotranspiration.
(iv)
Observation ports may be placed to observe the infiltrative surfaces of the
trenches or beds.
(v) Absorption
trenches shall conform to the following:
(A)
The minimum required effective absorption area shall be calculated using
Section R317-4-13 Table 5 or
R317-4-13 Table 6.
(B) The effective absorption area of
absorption trenches shall be calculated as the total bottom area of the
excavated trench system in square feet.
(C) The minimum number of absorption trenches
shall be two.
(D) The maximum
length of an absorption trench, not including any connecting trench shall be
150 feet.
(E) The minimum spacing
of absorption trenches from wall to wall shall be 7 feet.
(F) The minimum width of each absorption
trench excavation shall be 24 inches.
(G) The maximum width of each absorption
trench excavation shall be 36 inches.
(H) The minimum depth of each absorption
trench excavation below the original, natural grade shall be 10
inches.
(I) The minimum depth of
soil cover over each absorption trench shall be 6 inches.
(J) The minimum separation from the bottom of
each absorption trench to:
(K) the
anticipated maximum ground water table shall be 24 inches; and
(L) to unsuitable soil or bedrock formations
shall be 48 inches.
(vi)
Each standard trench shall conform to the following:
(A) The top of any distribution pipe may not
be installed above original, natural grade.
(B) The distribution pipe shall be centered
in the absorption trench and placed the entire length of the trench.
(C) Drain media shall extend the full width
and length of the trench to a depth of at least 12 inches.
(D) The minimum depth of drain media under
the distribution pipe shall be 6 inches.
(E) The minimum depth of drain media over the
distribution pipe shall be 2 inches.
(F) The minimum depth of cover over the
barrier material shall be 6 inches.
(vii) Each chambered trench shall conform to
the following:
(A) Each chamber shall be
certified under the International Association of Plumbing and Mechanical
Officials (IAPMO) standard for plastic leaching chambers.
(B) The minimum required effective absorption
area of chambered trenches shall be calculated:
(I) using 36 inches for Type A Chambers;
and
(II) using 24 inches for Type B
Chambers.
(C) The
minimum required effective absorption area of chambered trenches shall be
calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6 and may be
reduced by 30%.
(D) The chambered
trenches shall be designed and installed in conformance with manufacturer
recommendations, as modified by this rule.
(E) Type A chambers shall have:
(I) a minimum width of 30 inches;
and
(II) a maximum trench
excavation width of 36 inches.
(F) Type B chambers shall have:
(I) a minimum width of 22 inches;
and
(II) a maximum trench
excavation width of 24 inches.
(G) The minimum elevation of the inlet pipe
invert from the bottom of the chamber shall be 6 inches.
(H) Each chambered trench shall have a splash
plate under the inlet pipe or another design feature to avoid unnecessary
channeling into the trench bottom.
(I) Any inlet and outlet effluent sewer pipe
shall enter and exit the chamber endplate.
(J) The minimum depth of cover over any
chamber shall be 12 inches. The depth of cover may be reduced to no less than 6
inches, if approved by the regulatory authority, considering the protection of
absorption systems as required in Subsection
R317-4-6(14)(a)(ii),
and other activities, as determined by the authority.
(viii) Each bundled synthetic aggregate
trench shall conform to the following:
(A)
Each synthetic aggregate bundle shall meet IAPMO Standards for the General,
Testing and Marking and Identification of the guide criteria for Bundled
Expanded Polystyrene Synthetic Aggregate Units.
(B) The effective absorption area of a
bundled synthetic aggregate trench shall be calculated as the total bundle
length times the total bundle width in square feet.
(C) Each bundled synthetic aggregate trench
shall be designed and installed in conformance with manufacturer
recommendations, as modified by this rule.
(D) Only 12-inch diameter bundles are
approved in this rule.
(E) For
bundles with perforated pipe the minimum depth of synthetic aggregate under
pipe shall be 6 inches.
(F) The
width of each bundled synthetic aggregate trench shall require:
(I) three bundles laid parallel to each other
with the middle bundle containing perforated pipe when designed for a 3 foot
trench; or
(II) two bundles placed
on the bottom, with another bundle containing perforated pipe placed on top of
the other two bundles.
(G) The minimum depth of cover over the
bundles shall be 12 inches. The depth of cover may be reduced to no less than 6
inches, if approved by the regulatory authority, considering the protection of
absorption systems as required in Subsection
R317-4-6(14)(a)(ii),
and other activities, as determined by the authority.
(ix) Each absorption bed shall conform to the
requirements applicable to absorption trenches, except for the following:
(A) The minimum required effective absorption
area shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6.
(B) The effective absorption area of
absorption beds shall be considered as the total bottom area of the excavated
bed system in square feet.
(C) An
absorption bed may be built over naturally existing soil types per Section
R317-4-13 Table 5 or
R317-4-13 Table 6.
(D) The bottom of the entire absorption bed
shall be level.
(E) The
distribution pipes or chambers shall be interconnected to produce a closed loop
distribution system.
(F) The
minimum number of laterals in an absorption bed shall be 2.
(G) The maximum length of laterals in an
absorption bed shall be 150 feet.
(H) The maximum distance between laterals
shall be 6 feet.
(I) The minimum
distance between laterals and sidewalls shall be 1 foot.
(J) The maximum distance between laterals and
sidewalls shall be 3 feet.
(K) The
minimum distance between absorption beds shall be 7 feet.
(L) The minimum depth of an absorption bed
excavation from original, natural grade shall be 10 inches.
(M) Absorption beds with drain media shall
conform to the following:
(I) The minimum
depth of drain media under a distribution pipe shall be 6 inches.
(II) The minimum depth of drain media over a
distribution pipe shall be 2 inches.
(III) The minimum depth of cover over the
barrier material shall be 6 inches.
(N) Each absorption bed with chambers shall
require:
(I) Chambers shall be installed with
sides touching, no separation allowed.
(II) All chambers shall be connected in a
closed loop distribution system.
(III) The outlet side of the chamber runs
shall be connected through the bottom port of the end plates.
(IV) No absorption area reduction factor
shall be given for using chambers in absorption beds.
(V) The minimum depth of cover over the
chambers shall be 12 inches.
(x) Each deep wall trench shall conform to
the following:
(A) The minimum required
effective absorption area shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6.
(B) The effective absorption area of deep
wall trenches shall be calculated using the total trench vertical sidewall area
below the distribution pipe. The bottom area and any highly restrictive or
impervious strata or bedrock formations may not be considered in determining
the effective sidewall absorption area.
(C) If a percolation test is used, it shall
be conducted in accordance with Subsection
R317-4-14(4)
Appendix D and in the most restrictive soil horizon.
(D) The maximum length of any trench, not
including any connecting trench, shall be 150 feet.
(E) The minimum spacing of trenches from wall
to wall shall be 12 feet, or three times the depth of the media under the
distribution pipe, whichever is the larger distance.
(F) Each deep wall trench shall:
(I) have a minimum effective sidewall depth
of 2 feet;
(II) have a maximum
effective sidewall depth of 10 feet; and
(III) allow only suitable soil formation
depth when calculating the absorption area.
(G) The minimum width of each trench
excavation shall be 24 inches.
(H)
The minimum separation from the bottom of each deep wall trench to:
(I) the anticipated maximum ground water
table shall be a minimum of 48 inches; and
(II) unsuitable soil or bedrock formations
shall be a minimum of 48 inches.
(I) Drain media shall cover the coarse drain
media to allow for leveling of the distribution pipe and shall extend the full
width and length of the trench.
(J)
The minimum depth of drain media shall be 12 inches.
(K) The minimum depth of drain media under
the distribution pipe shall be 6 inches.
(L) The minimum depth of drain media over the
distribution pipe shall be 2 inches.
(M) The minimum depth of cover over the
barrier material shall be 6 inches.
(N) The distribution pipe shall be centered
in the trench and placed the entire length of the trench.
(O) The horizontal setback distance to any
property line shall be a minimum of 10 feet.
(xi) A seepage pit shall be considered as a
modified deep wall trench and shall conform to the requirements applicable to
deep wall trenches, except for the following:
(A) The effective absorption area of a
seepage pit shall be calculated using the total pit vertical sidewall area
below the distribution pipe. The bottom area and any highly restrictive or
impervious strata or bedrock formations may not be considered in determining
the effective sidewall absorption area.
(B) The minimum diameter of a seepage pit
shall be 3 feet.
(C) Each seepage
pit shall:
(I) have a minimum effective
sidewall depth of 4 feet;
(II) have
a maximum effective sidewall depth of 10 feet; and
(III) allow only suitable soil formation
depth when calculating the absorption area.
(D) In each pit filled with coarse drain
media, the perforated distribution pipe shall run across each pit. A layer of
drain media shall be used for leveling the distribution pipe. The entire pit
shall be completely filled with coarse drain media to at least the top of any
permeable soil formation to be calculated as effective sidewall absorption
area.
(E) Each hollow-lined seepage
pit shall conform to the following:
(I) For
each hollow-lined pit, an inlet pipe shall extend horizontally at least 1 foot
into the pit.
(II) The annular
space between the lining and excavation wall shall be filled with crushed rock
or gravel ranging from 3/4 through 6 inches in diameter and free of fines,
sand, clay or organic material. The maximum fines in the gravel shall be 2% by
weight passing through a US Standard #10 mesh or 2.0 millimeter
sieve.
(III) The minimum width of
annular space between lining and sidewall shall be 12 inches.
(IV) The minimum thickness of reinforced
perforated concrete liner shall be 2-1/2 inches.
(V) The minimum thickness of reinforced
concrete top shall be 6 inches.
(VI) The minimum depth of drain media in the
seepage pit bottom shall be 6 inches.
(VII) Minimum depth of cover over seepage pit
top shall be 6 inches.
(VIII) A
reinforced concrete top shall be provided.
(IX) When the cover over any seepage pit top
exceeds 6 inches, risers shall conform to Subsection
R317-4-6(7)(g)
for accessibility.
(15) Alternative onsite wastewater systems
include at-grade, mound, packed media, sand lined trench, and membrane
bioreactor systems. A packed bed media system may be an intermittent sand
filter, a recirculating sand filter, a recirculating gravel filter, a textile
filter or a peat filter.
(a) An alternative
onsite wastewater system shall conform to applicable requirements stated
elsewhere in this rule for design, setbacks, construction and installation
details, performance, repairs and abandonment shall apply unless stated
differently for a given alternative system.
(i) An absorption area for each alternative
onsite wastewater system shall be sized based on Section
R317-4-13 Table 5 or
R317-4-13 Table 6 except as
specified in this section.
(ii)
Each alternative onsite wastewater system shall be designed by a person
certified at Level 3 in accordance with Rule R317-11.
(A) The designer shall submit details of all
system components with the necessary calculations.
(B) The designer shall provide to the local
health department and to the owner operation and maintenance instructions that
include the minimum inspection levels in Section
R317-4-13 Table 7 for the
system.
(iii) When an
alternative system exists on a property, notice of the existence of that system
shall be recorded in the chain of title for that property.
(b) The design each alternative onsite
wastewater system shall be designed according to the requirements for the
specific alternative system selected.
(i)
Absorption trenches and absorption beds may be used in an at-grade system. Each
at-grade system shall conform to the requirements applicable to absorption
trenches and absorption beds, except for the following:
(A) Horizontal setbacks in Section
R317-4-13 Table 2 are measured
from edge of trench sidewall, except at property lines, where the toe of the
final cover shall be 5 feet or greater in separation distance to a property
line.
(B) The minimum number of
observation ports provided within absorption area shall be 2. The ports shall
be installed to the depth of the trench or bed.
(C) The depth of each absorption excavation
below natural grade shall be 0-10 inches.
(D) The minimum cover over the absorption
area shall be 6 inches.
(E) The
maximum slope of natural ground surface shall be 4%.
(F) The maximum side slope for above ground
fill shall be four horizontal to one vertical shall be a 25% slope.
(G) Where final contours are above the
natural ground surface, the cover shall extend from the center of the
wastewater system at the same general top elevation for a minimum of 10 feet in
all directions beyond the limits of the absorption area perimeter, before
beginning the side slope.
(ii) Each mound system shall conform to the
following:
(A) The design shall generally be
based on the Wisconsin Mound Soil Absorption System: Siting, Design and
Construction Manual, January 2000 published by the University of
Wisconsin-Madison Small-Scale Waste Management Project, with the following
exceptions.
(B) The minimum
separation distance between the natural ground surface and the anticipated
maximum ground water table shall be 12 inches.
(C) A mound system may be built over
naturally existing soil types per Section
R317-4-13 Table 5 or
R317-4-13 Table 6 provided the
minimum depth of suitable soil is:
(I) 36
inches between the natural ground surface and bedrock formations or unsuitable
soils; or
(II) 24 inches above
soils that have a percolation rate faster than one minute per
inch.
(D) The minimum
depth of sand media over natural soil shall be 12 inches.
(E) The maximum slope of natural ground
surface shall be 25 %.
(F) The
separation distances in Section
R317-4-13 Table 2 are measured
from the toe of the final cover.
(G) The effluent loading rate at the sand
media to natural soil interface shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6.
(H) The effluent entering a mound system
shall be at levels at or below the defined parameters of non-domestic
effluent.
(I) The minimum thickness
of aggregate media around the distribution pipes of the absorption system shall
be the sum of 6 inches below the distribution pipe, the diameter of the
distribution pipe and 2 inches above the distribution pipe or 10 inches,
whichever is larger.
(J) The cover
may not be less than 6 inches in thickness, and shall provide protection
against erosion, frost, storm water infiltration and support vegetative growth
and aeration of distribution cell.
(K) A minimum of three observation ports
shall be located within the mound at each end and the center of the
distribution cell. At least one port shall be installed at the gravel-sand
interface, and one port at the sand-soil interface.
(L) Mounds shall use pressure distribution.
The Utah Guidance for Performance, Application, Design, Operation and
Maintenance: Pressure Distribution Systems document and Subsection
R317-4-6(14)(c)(iv)
shall be used for design requirements. See Subsection
R317-4-14(2)
Appendix B for pump and control requirements.
(iii) Each packed bed media system shall
conform to the following design criteria:
(A)
For a single-family dwelling the design shall be based on a minimum of 300
gallons per day for two bedrooms and 100 gallons per day for each additional
bedroom.
(B) All other flow
estimates shall be based on Subsection
R317-4-6(4).
(C) Special design considerations shall be
given for non-domestic effluent.
(D) Effluent shall be uniformly distributed
over the filter media using pressure distribution.
(E) A packed bed media absorption system may
be placed where the minimum separation distance between the natural ground
surface and the anticipated maximum ground water table is 12 inches.
(F) A packed bed media absorption system may
be built over naturally existing soil types per Section
R317-4-13 Table 5 or
R317-4-13 Table 6 provided the
minimum depth of suitable soils:
(I) above
soils that have a percolation rate faster than one minute per inch is at least
24 inches; and
(II) at least 36
inches between the natural ground surface and bedrock formations or unsuitable
soils; or
(III) there is at least
18 inches between the natural ground surface and bedrock formations or
unsuitable soils, determined by an evaluation of infiltration rate and
hydrogeology from a professional geologist or engineer that is certified at the
appropriate level to perform onsite wastewater system design and having
sufficient experience in geotechnical engineering based on the detailed
subsurface geology of the vicinity, the hydrogeology of the vicinity, and the
cumulative hydrogeological effect of all existing and future onsite wastewater
systems within the area.
(G) A non-chemical disinfection unit, capable
of meeting laboratory testing parameters in Table 7.3, and a maintenance
schedule consistent to Section
R317-4-13 Table 7.1 and
R317-4-13 Table 7.3, shall be
used in excessively permeable soils.
(H) Conformance with the minimum setback
distances in Section R317-4-13 Table 2, except for
the following that require a minimum of 50 feet of separation:
(I) watercourses, lakes, ponds,
reservoirs;
(II) non-culinary
springs or wells;
(III) foundation
drains, curtain drains; or
(IV)
non-public culinary grouted wells, constructed as required by Title
R309.
(I) The minimum
required effective absorption area shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6 and may be
reduced by 30%. The use of chambered trenches with a packed bed media system
may not receive additional reductions as allowed in Subsection
R317-4-6(14)(d)(v).
(J) The bottom of the absorption system shall
have a vertical separation distance of at least 12 inches from the anticipated
maximum ground water table.
(K) A
minimum of two observation ports shall be provided within the absorption
area.
(L) Drip irrigation
absorption may be used for packed bed media absorption system effluent
dispersal based on type of soil and drip irrigation manufacturer's
recommendations.
(I) Materials shall be
specifically designed and manufactured for onsite wastewater
applications.
(iv) Each
intermittent sand filter system shall conform to the following:
(A) Either sand media or sand fill may be
used.
(I) The minimum depth of sand media or
sand fill shall be 24 inches.
(II)
The effective size of the sand media or sand fill shall be 0.35-0.5
millimeters.
(III) The uniformity
coefficient of the sand media or sand fill shall be less than 4.0.
(IV) The maximum fines passing through #200
sieve shall be 1%.
(B)
The maximum application rate per day per square foot of media surface area
shall be:
(I) 1.0 gallons for sand media;
or
(II) 1.2 gallons for sand
fill.
(C) The maximum
dose volume through any given orifice for each dosing shall be 2
gallons.
(D) Effluent entering an
intermittent sand filter shall be at levels at or below the defined parameters
of non-domestic effluent.
(v) Each recirculating sand filter system
shall conform to the following:
(A) The
minimum depth of washed sand shall be 24 inches.
(B) The effective size of the media shall be
1.5-2.5 millimeters.
(C) The
uniformity coefficient shall be less than 3.0.
(D) The maximum fines passing through a #50
sieve shall be 1%.
(E) The maximum
application rate per day per square foot of media surface area shall be 5
gallons.
(vi) Each
recirculating gravel filter system shall conform to the following:
(A) The minimum depth of washed gravel shall
be 36 inches.
(B) The effective
size of the media shall be 2.5-5.0 millimeters.
(C) The uniformity coefficient shall be less
than 2.0.
(D) The maximum fines
passing through a #16 sieve shall be 1%.
(E) The maximum application rate per day per
square foot of media surface area shall be 15 gallons.
(vii) Each textile filter system shall
conform to the following:
(A) Media shall be
an approved geotextile fabric.
(B)
The maximum application rate per day per square foot of media surface area
shall be 30 gallons.
(viii) Each peat filter system shall conform
to the following:
(A) The minimum depth of
peat media shall be 24 inches.
(B)
The maximum application rate per day per square foot of media surface area
shall be 5 gallons.
(ix)
Each sand lined trench system shall conform to the following:
(A) The minimum depth of suitable soil or
saprolite between the sand media in trenches and the anticipated maximum ground
water table shall be 12 inches.
(B)
Each sand lined trench system may be built over naturally existing:
(I) soil types 1 through 4; or
(II) soils or saprolite with a percolation
rate between 1 and 60 minutes per inch.
(C) The minimum depth of suitable soil or
saprolite shall be:
(I) 36 inches between the
sand media in trenches and bedrock formations or unsuitable soils; or
(II) 24 inches above soils or saprolite that
have a percolation rate faster than one minute per inch.
(D) Each sand lined trench shall conform to
the requirements applicable to absorption trenches except for the following:
(I) For each trench in suitable soil, the
minimum required effective absorption area shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6.
(II) For each trench in saprolite, the
minimum required effective absorption area shall be based on percolation rate
using Section R317-4-13 Table 5. This rate
shall be determined by conducting percolation tests. The soil shall be allowed
to swell not less than 24 hours or more than 30 hours;
(III) The use of chambered trenches with a
sand media system may not receive additional reductions as allowed in
Subsection R317-4-6(14)(d)(v).
(IV) The maximum width of an absorption
trench excavation shall be 36 inches.
(V) The entire trench sidewall shall be
installed in natural ground. An at-grade system design may not be
allowed.
(VI) The minimum depth of
sand media shall be 24 inches.
(VII) Each sand lined trench with drain media
shall have a minimum depth of 6 inches of drain media under the pressure
lateral distribution pipe.
(VIII)
Each sand lined trench with drain media shall have a minimum depth of 2 inches
of drain media over pressure lateral distribution pipe.
(IX) The minimum depth of soil cover or
saprolite over drain media shall be 6 inches.
(X) For each sand lined trench with Type A
chambers. the minimum depth of soil cover or saprolite over chambers shall be
12 inches.
(XI) The minimum number
of observation ports per trench shall be 1.
(E) Effluent shall be uniformly distributed
over the sand media using pressure distribution. Pressure distribution design
shall generally be based on the Utah Guidance for Performance, Application,
Design, Operation and Maintenance: Pressure Distribution Systems
document.
(x) Each
membrane bioreactor system installed as part of an alternative onsite
wastewater system is intended to be installed as a complete unit. The design of
any the treatment tank and all accessory components, treatment pods, aerators,
blowers, pumps, membranes, and control panel shall conform to manufacturer
specifications specific to the daily flows and wastewater strength proposed to
be treated. Each membrane bioreactor system shall conform to the following:
(A) For a single-family dwelling the design
shall be based on a minimum of 300 gallons per day for two bedrooms and 100
gallons per day for each additional bedroom.
(B) All other flow estimates shall be based
on Subsection R317-4-6(4).
(C) Special design considerations shall be
given for non-domestic effluent.
(D) Each membrane bioreactor system installed
shall meet the requirements listed in Subsection
R317-4-6(7).
(E) Each septic, equalization, recirculation,
pump, or other tanks used in conjunction with any membrane bioreactor system
shall meet the requirements listed in Section
R317-4-6.
(F) MBR tank volume shall have a liquid
capacity adequate for the minimum operating volume that includes the dead
space, dosing volume, and surge capacity, and shall have the emergency
operation capacity of:
(I) storage capacity
for the system design daily wastewater flow;
(II) at least two independent power sources
with appropriate wiring installed; or
(III) other design considerations approved by
the regulatory authority that do not increase public health risks if pump
failure occurs.
(G) Each
membrane bioreactor system shall have a minimum of two membrane filter units
installed in a manner that any unit can be maintained independently of other
filter membrane units.
(H) Each
membrane bioreactor overflow shall discharge directly to the septic
tank.
(I) Each membrane bioreactor
unit shall be installed according to manufacturer's specifications.
(J) Any membrane bioreactor system
constructed above ground shall be housed in an easily accessible service
building that is climate controlled. The service building shall meet the
appropriate permitting and setback distances required by the building
authority.
(K) Each membrane
bioreactor absorption system shall conform to the following:
(I) The minimum separation distance between
the natural ground surface and the anticipated maximum groundwater table shall
be 12 inches.
(II) An absorption
system receiving effluent from a membrane bioreactor may be built over
naturally existing soil types per Section
R317-4-13 Table 5 or
R317-4-13 Table 6 provided the
minimum depth of suitable soils above soils that have a percolation rate faster
than one minute per inch is 24 inches.
(III) An absorption system receiving effluent
from a membrane bioreactor may be built over naturally existing soil types per
Section R317-4-13 Table 5 or
R317-4-13 Table 6 provided the
minimum depth of suitable soils between the natural ground surface and bedrock
formations or unsuitable soils is 36 inches.
(IV) An absorption system receiving effluent
from a membrane bioreactor may be built over naturally existing soil types per
Section R317-4-13 Table 5 or
R317-4-13 Table 6 provided the
minimum depth of suitable soils between the natural ground surface and bedrock
formations or unsuitable soils is at least 18 inches between the natural ground
surface and bedrock formations or unsuitable soils determined by an evaluation
of infiltration rate and hydrogeology from a professional geologist or engineer
that is certified at the appropriate level to perform onsite wastewater system
design and having sufficient experience in geotechnical engineering based on
the subsurface geology of the vicinity, the hydrogeology of the vicinity, and
the cumulative hydrogeological effect of all existing and future onsite
wastewater systems within the area.
(L) A non-chemical disinfection unit, capable
of meeting laboratory testing parameters in Table 7.3, and a maintenance
schedule consistent to Sections
R317-4-13 Table 7.1 and
R317-4-13 Table 7.3, shall be
used in excessively permeable soils.
(M) Conformance with the minimum setback
distances in Section R317-4-13 Table 2, except for
the following that require a minimum of 50 feet of separation:
(I) watercourses, lakes, ponds,
reservoirs;
(II) non-culinary
springs or wells;
(III) foundation
drains, curtain drains; or
(IV)
non-public culinary grouted wells, constructed as required by Title
R309.
(N) The minimum
required effective absorption area for an absorption system receiving effluent
from a membrane bioreactor system shall be calculated using Section
R317-4-13 Table 5 or
R317-4-13 Table 6 and may be
reduced by 30%.
(O) The use of
chambered trenches with any membrane bioreactor system may not receive
additional reductions as allowed in Subsection
R317-4-6(14)(d)(vii)(C).
(P) The bottom of the absorption system shall
have a vertical separation distance of at least 12 inches from the anticipated
maximum groundwater table.
(Q) A
minimum of two observation ports shall be provided within the absorption
area.
(R) Drip irrigation
absorption may be used for membrane bioreactor absorption system effluent
dispersal based on type of soil and drip irrigation manufacturer's
recommendations.
(S) Materials
shall be specifically designed and manufactured for onsite wastewater
applications.
(U) A membrane bioreactor manufacturer shall
submit NSF/ANSI Standard 40 - Residential Wastewater Treatment Systems
certification for any model proposed to be approved for use in Utah. The
division may approve any membrane bioreactor model as equivalent to an NSF
certified model, if the manufacturer submits a written recommendation bearing
the seal of a professional engineer licensed to practice in Utah who is
certified as a Level 3 Onsite Professional as defined in Rule
R317-11.
Notes
State regulations are updated quarterly; we currently have two versions available. Below is a comparison between our most recent version and the prior quarterly release. More comparison features will be added as we have more versions to compare.
No prior version found.