HomeMy WebLinkAboutRevised OWTS Design - 05.09.2022
1121 Callicotte Ranch Drive
Revised Onsite Wastewater Treatment System Design
4-BR Single-Family Residence
Proposed Single-Family OWTS System
Carbondale, CO 81623
Parcel No. 2393-242-06-025
Prepared for:
Kraai Design Architecture
417 Monument Rd, Suite 7
Grand Junction, CO 81507
April 2022
Prepared By:
Page 1
1.0 SITE CONDITIONS
The proposed new onsite wastewater treatment system (OWTS) will serve a proposed 4-BR
single-family residence located on a 4.16-acre vacant parcel created as Lot 25 of Callicotte
Ranch Subdivision located at 1121 Callicotte Ranch Drive, Carbondale, Colorado (Figure A1).
The new OWTS serving the proposed 4-BR single-family dwelling will use a total of 88 Quick4
Plus Infiltrators® configured in two (2) Q4 beds each four (4) rows with eleven (11) chamber
units in a minimum 12’ x 47’ footprint for each bed separated by at least six feet undisturbed soil
(Figure A2). Proposed soil treatment area (STA)/leachfield is east of the proposed 4-BR
dwelling in an area sloping approximately 14 % north.
Soils and percolation information were collected by Hepworth-Pawlak Geotechnical December
28, 2001 in accordance with Garfield County On-Site Wastewater Treatment Regulations
(Regulations). Soil profile in exploratory pit and percolation site P10, located in general vicinity
of proposed STA/leachfield site on Lot 25, shows sandy silty clay (sandy loam) soils from 0.0-
6.0 feet overlying dense gravel alluvium down to 8.0 feet maximum depth of excavation
(Appendix A). Groundwater was not encountered in soils observation pit, high seasonal
groundwater table estimated to be greater than 8.0 feet below ground surface (bgs).
Percolation rate for a test hole completed at the 3.5 to 4.5-foot interval adjacent to Exploratory
Pit P-10 shows a 30 minutes per inch (min/in) percolation rate. Site soils providing secondary
wastewater treatment are classified as Soil Type 2A in accordance with the Table 10-1 of the
Regulations. This is based on the following soil characteristics: silty sand loam texture, blocky
structure and percolation rate falling within the 26-40 min/in range. Long-term acceptance rate
(LTAR) used to design the OWTS (Table 10-1 Regulations) is 0.50 gallons per day per square
foot area (gpd/ft2).
2.0 WASTEWATER FLOWS
Average Flow
Maximum Daily Wastewater Flow (gpd): 4-BR Single-Family Dwelling
4 x 150 gallons = 600 gpd
Septic Tank
Septic tank capacity required for a 4-BR dwelling is 1,250 gallons in accordance with Table
9-1 of the Regulations. Septic tank volume corresponds with a 48-hour (2 day) particle
detention time for design capacity of proposed OWTS. The 4-BR Tank Capacity: 600 gpd x
2 (48 hour/2 day detention time) = 1,200 gallons (minimum). Use a 1,250 gallon, two-
compartment septic tank approved for Garfield County per Regulations.
Page 2
3.0 OWTS DESIGN
Silty sand loam occurring at the 1.0 to 4.0-foot depth interval will be used for upper infiltrative
surface for proposed STA (Figure A3). Maximum depth of beds must not exceed 4 feet in
accordance with the Regulations. Double bed excavation will remove approximately 1.0 to 4.0
feet of soil and upper root mass to prepare level surface for installing infiltrators on receiving soil
infiltrative surface providing secondary treatment of discharged wastewater. Soil should not be
wet at time of excavation. Silty sand loam covering STA must be crowned over proposed beds
or match existing grade so water runs off, and is not ponded over any area of STA/leachfield.
Prior to backfilling final soil cover, a pervious soil barrier of non-woven geotextile fabric or
similar pervious material shall be installed over the STA to prohibit soil intrusion.
All setback distances in accordance with the Regulations are applicable to septic system
installation. The septic tank must be at least 5 feet and STA at least 20 feet from existing and
future plumbed structure(s) to be served. STA’s must be outside any easements and at least 10
feet from property lines. Setback distances also apply to natural and artificial waterways,
including a 50-foot setback from STA to open irrigation ditches, creeks, and ponds. The
proposed potable water supply line must be located at least 25 feet from nearest corner of the
leachfield. Designated repair leachfield area must be retained per Regulations as idle land set
aside for future use once primary leachfield fails and no longer accepts wastewater.
The new septic tank will be maintained to provide at least 48 hours detention time for received
wastewater flow from the structures they serve. Internal septic tank inlet and outlet tees must be
installed per Regulations. An effluent filter must be installed instead of tee on the septic tank
outlet. Use the Orenco Systems Biotube Effluent Filter OSI Model FTW0444-36. Effluent
filters typically require cleaning and maintenance every 6 months.
The following design calculations propose to discharge septic tank effluent to two (2) Quick 4
Plus Infiltrator Beds each with four (4) rows of eleven (11) chamber units for a total minimum
disturbed area for each bed of about 12 feet by 47 feet. A total of 88 Quick 4 Standard Plus
Infiltrator units will be installed using 44 chamber units per bed in the double-bed configuration.
The beds will be in different orientations to meet setbacks with one bed east to west and the other
north to south.
Soil Absorption Area Calculations
STA Area (A) = Design Flow (Q)/LTAR
Field percolation rate (t): 30 min/in
Leachfield Area: A = Q/LTAR,
Page 3
Where:
A = Leachfield area square feet
Q = Design Flow/maximum daily wastewater flow
= maximum daily wastewater flow for total of 4-BRs
= 4 x 150 gpd/bedroom = 600 gpd
LTAR = Long Term Acceptance Rate (max. hydraulic loading rate)
= 0.50 gallons per day/ft2
A = 600 gpd/0.50 gpd/ft2 = 1,200 ft2
Quick4 Bed Configuration:
1,200 ft2 x 1.2 (app. method adjustment1) x 0.7 (distribution media adjustment2) = 1,008 ft2;
1,008 ft2 /12 ft2 = 84 Q4 units; Use 88 units.
1 Regulations Table 10-2 size adjustment factor for Methods of Application in STA
2 Regulations Table 10-3 size adjustment factor for Types of Media in STA
Note: County and State approved bottom chamber area for Quick 4 Plus Standard Infiltrator
Unit = 12 ft2.
The two (2) Quick 4 Infiltrator Beds will use a total of eighty-eight (88) units. Each bed will
have four (4) row of eleven (11) Q4 chamber units. Wastewater flow into the proposed double-
bed system will be split using a distribution box. Use the top port of Infiltrator faceplate for all
influent piping. Each bed must be covered with geotextile fabric or similar material to prohibit
soil intrusion into chamber unit louver vents.
4.0 SYSTEM INSTALLATION REQUIREMENTS
Minimum setback requirements must be in accordance with the Regulations. All sewer pipe
couplings must be completed with solvent weld or bell and spigot joints using 4-inch SDR 35
PVC pipe. Schedule 40 PVC 4-inch pipe with a minimum 1-foot soil cover must be used if pipe
is installed in a vehicular traffic crossing. Drain-waste-vent (DWV) rated Schedule 40 PVC pipe
is called out for crossings but may also be used instead of SDR 35 PVC pipe.
Building sewer pipe must be set at a slope between ⅛-inch and ¼-inch per foot slope (1 to 2%),
preferably using the ¼-inch per foot slope as recommended by the International Plumbing Code
(IPC) as administered by the County. Fittings should use sweep 90-degee curves or two (2) 45-
degree elbows at all influent pipe turns. Fittings must be DWV for schedule 40 PVC pipe.
Page 4
Clean-outs (2-way) are required between dwelling and tank and beyond tank where pipe lengths
exceed 100 feet from tank to STA/leachfield.
Installer must adhere to minimum depth requirements for leachfield and ensure gravity drainage
into all septic system components to avoid using a lift pump. System components must be
placed on native soils or re-stabilized soils in excavated areas.
Beds must be dug level to ensure prepared infiltrative surface is level along entire length of STA.
Solid 4-inch pipe is used in the header network out of distribution box.
The owner will ultimately be responsible for septic system maintenance including pumping
septic tank once every 3-4 years and cleaning effluent filter every 6 months.
5.0 SYSTEM INSPECTION
WestWater Engineering is responsible for inspecting OWTS to ensure construction conforms to
design plan and meets all aspects of County Regulations to include:
Inspect system prior to backfilling including piping and septic system components.
Complete as-built drawing of system.
6.0 DESIGN LIMITATIONS
The OWTS design is based on site specific soil conditions and percolation data collected in
vicinity of proposed leachfield and local experience of designing OWTS’s in Colorado. The
design is only valid for proposed new OWTS serving the proposed single-family residence at
referenced location provided in this report. WestWater Engineering assumes no liability for
inaccurate information or conditions that vary from design assumptions listed above. Notify
WestWater Engineering and/or the Garfield County official immediately if actual site conditions
differ from those assumed here in.
Please do not hesitate to contact us if you have any questions regarding this report.
Respectfully,
Dean Goebel, M.S., P.G. Hydrogeologist
Reviewed By:
Keith Mendenhall, P.E.