HomeMy WebLinkAboutEngineer's OWTS Design PlanK— l.a .9 0.r V 11 P.O. Box i4o
Mae . co 615
q7°,25o.o 7z / kachayla,cronkooutlook.ernn
Onsite Wastewater Treatment System Design
April 20, 2026
Garza. Project
I458 County Road 233
Rifle, CO 8I650
Parcel No. 2I77-03I-00-437
Prepared By:
K-Cronk Engineering, Inc.
P.O. Box 140
Mack, CO 8I525
970-250-0572
Site History
There is an existing primary residence on the site that is served by an existing onsite wastewater treatment
system (OWTS) that will remain in use. There is also an existing duplex on site with two, 1-bedroom
apartments. The OWTS serving the duplex is unpermitted and also showing signs of failure and must be
replaced.
The site consists of approximately 39.23 acres of cultivated native soil. Drainage is approximately 3% to
the southwest. A soils evaluation and site study were conducted on the property of reference on 04/18/26
by Kachayla Schroedero.
This OWTS design has been prepared for the project based on information disclosed during the site study
mentioned above. A discussion of the engineered OWTS design follows. The location of the soils evaluation
trench is shown on the Plot Plan included in this report.
Development of DesijM Parameters
Soils evaluation trench A was extended to a depth of 84" below ground surface (BGS). There was no
evidence of ground water or periodically saturated soils in the open excavation to a depth of 84" BGS. No
limiting layer was identified to a depth of 84" BGS. The soils evaluation indicates two distinct soil horizons
underlie the site. A lithological description follows:
depth in. description
0" — 16" sandy loam w/ minor rock (<35% rock), dark brown
(Soil Type 2, USDA — sandy loam, blocky, strong structure)
16" — 84" sandy loam , brown
(Soil Type 2, USDA — sandy loam, blocky, moderate structure)
Soils evaluation trench B was extended to a depth of 84" below ground surface (BGS), and showed the
same soils lithology as described for trench A above.
Based on the results from the 04/18/26 soils evaluation, a conservative Soil Type 2A and corresponding
long term acceptance rate (LTAR) of 0.50 are chosen for overall system sizing for an infiltrator trench soil
treatment area designed to discharge to subsoils below the 24" depth.
° Kachayla Schroeder holds a Certificate of Attendance and Examination from the CPOW Visual and Tactile
Evaluation of Soils Training.
-1-
Svstem Design
The installer shall confirm the feasibility of gravity discharge of sewage effluent from the foundation line
to the soil treatment area by field verification of required parameters. Gravity sewer lines that transport
solid waste material must maintain a minimum fall of 1/4" per foot (2% slope); gravity effluent lines that
transport only liquid waste material must maintain a minimum of 1/8" per foot (1% slope).
If site conditions do not allow for the requirements mentioned above to be maintained, gravity discharge of
septic effluent cannot be assured, and a lift station may be required. Please contact the design engineer and
Garfield County to address any design modifications necessary if these design assumptions are not upheld.
A chamber trench soil treatment system is proposed for discharge of septic effluent at the site. Construction
of the system will consist of excavating level trenches in the area comprising the soil treatment area.
Grading daring construction may affect slope, therefore contractor shall verify slope at time of
installation. Soil treatment: area orientation may be adjusted per site variations to facilitate consistent
trench depth running parallel to final contours. The initial excavation shall be continued to a level depth
of 24" BGS (see Soil Treatment Area Cross Section). If consistent french depth cannot be maintained.
INFILTRATOR chambers may be installed level at 24" minimum and 36" maximum BGS. After removal
of surface soils, the open excavations shall be disked or scarified to promote subsurface absorption
Following completion of the trench excavations, chambers will be used to construct a septic effluent
distribution system in the open excavations. The chambers will be installed in accordance with the
manufacturer's specifications, available here for Infiltrator Quick4 Standard Chambers:
h11ps://www. infiltratorwater.com/Custoiiier-ContentI www/CMS/files/charnber-manuals/PLUS09
052913.pdf
After the chamber distribution system is installed, non -woven geotextile filter fabric will be placed over the
chambers and the system will be covered with a soil cap. The soil cap will consist of approximately 12"
min. of sandy loam. The soil cap will be mounded 5% above the existing ground surface to promote surface
run off away from the soil treatment area.
There is an existing septic tank on site that will be abandoned in place or removed. Abandonment shall
consist of pumping the tank, crushing in the top and sidewalls, and filling all void space with gravel or sand.
A 1,000 gallon, two compartment septic tank is required to provide a minimum of 48 hours retention time
for sewage generated from the proposed project. The tank must be approved and accepted by CDPHE for
use as a septic tank. A list of such tanks may be found here: https:/1cdphe.colorado.govIDWTS under
"Regulation 43: product acceptance lists". Water -tight risers to surface with securely fitted lids for access
to all compartments of the septic tank will be provided. A non -corrodible filter shall be installed at the final
outlet tee of the septic tank to limit the size of solids and sludge passing into the soil treatment area. The
filter must be accessible for cleaning and replacement from the ground surface. A distribution box is
required to provide equal distribution of septic effluent from the septic tank to the soil treatment area
laterals. The distribution box must be placed on stable native soil or compacted structural fill to prevent
settling and assure equal distribution of septic effluent. The distribution box must be accessible for cleaning
and replacement from the ground surface.
-2-
DESIGN CALCULATIONS
DESIGN LOADING RATE OF 2 BEDROOMS @ 150 GAL./BEDROOM-DAY = 300 gal./day
DESIGN SOIL TYPE 2A
DESIGN LONG TERM ACCEPTANCE RATE (LTAR) = 0.50 GAL./SQ.FT./DAY
A = WHERE,
'
A = SOIL TREATMENT AREA (SQ. FT.)
Q= DESIGN FLOW (GAL./DAY)
LTAR = LONG TERM ACCEPTANCE RATE (GAL./SQ.FT./DAY)
A = 200 = 600 SQ. FT.
0.50
SOIL TREATMENT AREA ADJUSTMENT FACTOR FOR GRAVITY TRENCH DESIGN = 1.0
SOIL TREATMENT AREA ADJUSTMENT FACTOR FOR USE OF CHAMBERS = 0.7
ADJUSTED SOIL TREATMENT AREA = 600 SQ.FT. X 1.0 X 0.7 = 420 SQ. FT.
LENGTH OF 3' WIDE TRENCH REQ'D = 420 SQ.FT. / 3 FT. = 140 FT.
USE 3 TRENCHES WITH 12 QUICK4 STANDARD INFILTRATORS (or equivalent) EACH, FOR A
TOTAL OF 36 UNITS
SOIL TREATMENT AREA SIZED AT 3 TRENCHES 3 FT. WIDE X 48 FT LONG = 432 SQ. FT.
As shown in the included graphics, the trench soil treatment system will consist of three (3) trenches
Y wide x 24" deep x 48' long with twelve (12) INFILTRATOR QUICK4 chambers (or equivalent) each
for a total of thirty-six (36) units. The soil treatment area will encompass an area of 432 sq. ft.
-3-
Installation - Setbacks, Notifications, and Inspections
The owner and installer shall be aware of and comply with the following installation and system operation
requirements.
• The final cover shall not be placed on sewer lines, septic tank, or the soil treatment area
until the system has been inspected and approved by the design engineer and Garfield
County. The installer shall provide 48-hour notice for all required inspections.
• The installer must be approved and licensed by Garfield County for the installation of onsite
wastewater treatment systems.
• All installation activities shall be conducted in accordance with current Garfield Coup OYYTS
Regulations. if at any time during construction. subsurface site conditions are encountered
which differ from the design arameters previously described construction activities will stop.
and the design engineer and Garfield CouBty will be contacted to address anvnecessM design
modifications.
• Installation procedures including grade, location, setbacks, septic tank size, and soil treatment
size shall conform with the attached graphic details. Construction activities and system
components will not encroach upon existing easements or utility corridors.
• The installer must maintain all setbacks to utility lines, easements, property lines, or other
adverse conditions, whether they are known and shown on the attached graphics or have been
disclosed during construction. Minimum setbacks for system components are:
Septic Tank,
DosingTank
Building Sewer,
Effluent Lines
STA
spring/well/cistern
50
50
100
_potable water supply line
10
5
25
structure w/ crawls ace
5
0
20
structure w/o crawls ace
5
0
10
property lines, piped or
lined irrigation
10
10
10
subsurface drain,
intermittent irrigation
10
10
25
lake, water course,
irrigation ditch, stream
50
50
50
cut slope steeper than
3 H:1 V
10
10
25
septic tank
__
_
5
Four -inch, 2-way SCHD 40 clean out must be installed within 5 ft of the outside of the building.
Gravity sewer lines that transport solid waste material must maintain a minimum fall of 1/4"
per foot (2% slope); gravity effluent lines that transport only liquid waste material must
maintain a minimum of 1/8" per foot (1% slope).
All gravity sewer/effluent piping shall meet minimum ASTM-3034 PVC standard, be 4-inch
in diameter, and have glued joints. Gravity sewer lines that transport solid waste material shall
employ sweep 90's or 2-45's at all turns. Sewer/effluent lines under driveways shall meet
minimum SCHD 40 PVC standards. Additionally, sewer/effluent lines in traffic areas with less
than 24" of cover shall be encased in 6" CMP or flow fill and covered with minimum 2" high
density blue board insulation.
• Sewer/effluent lines or domestic water lines shall be encased in minimum SCHD 40 with water-
tight end caps or a minimum of 6" of flow fill at all points with less than 5' separation between
sewer and domestic water lines.
• Four -inch clean outs shall be installed at maximum 100' intervals in all gravity sewer lines that
transport solid waste material that exceeds 100' in length.
• A minimum of 12" of soil cover (18" recommended) shall be maintained over all gravity
draining OWTS components to prevent freezing of septic effluent (excepting septic tank access
ports which must be extended to the ground surface).
• The system contractor shall be aware of the potential for construction activities to reduce soil
permeabilities at the site through compaction, smearing, and shearing. The following
precautions and construction procedures should be employed during installation to minimize
disturbance to native soils:
i. Excavation should proceed only when the moisture content of the soil is below the
plastic limit. If a sample of soil forms a rope instead of crumbling when rolled
between the hands it is too wet and should be allowed to dry before excavation
continues.
ii. Excavation and backfill equipment should work from the surface where at all
practical to avoid compaction of the soils at depth.
iii. The bottom and sidewalls of the excavation should be left with a rough, open
surface. The appearance should be that of broken or ripped soil as opposed to a
sheared, smeared, or troweled surface. Any smoothed or smeared surfaces should
be removed with a toothed rake or shallow ripper, taking care to remove loose
residues from the bottom of the excavation by hand if necessary.
iv. Care should be taken in placing fill materials in the excavation to avoid damaging
the exposed soil surfaces.
ls.E
Operation - Maintenance and Inspections
• The owner shall install a structural barrier if necessary and take precautions to prevent vehicular
traffic, excessive surface watering, accidental flooding, or other activities in the vicinity of the
soil treatment area which may compact, saturate, or otherwise alter the subsurface soil
parameters used in designing the septic system.
• The owner will plant and maintain grass or other shallow rooted cover crop to prevent erosion
and promote evapotranspiration over the soil treatment area.
Every month:
• Inspect backfill over the septic tank and soil treatment area for signs of settling — provide
additional mounding as needed.
• Inspect area of septic tank and soil treatment area for signs of intrusion by burrowing
animals and deep rooted plants and take measures to prevent future intrusions as needed.
Every
• Remove tank lids and inspect outlet effluent filter for damage and clean as needed.
■ Inspect soil treatment area through the ports provided at the beginning and ends of each
lateral trench for signs of excessive moisture or pooling water.
■ Inspect tank risers for signs of high water level markings that may indicate slow drainage
Ever four our years:
• Remove accumulated sludge from the septic tank by pumping all compartments —
interval may be adjusted to less than four years or more than four years depending on
family specific usage and habits.
OWTS Component Descriptions:
Component:
Model:
I Notes:
Se tic Tank
Infiltrator IM-1060-2CP, orequivalent
Tank Riser
Infiltrator EZsnap Riser SNAPIS-24##
2", 6", & 12" available
& Lid, or equivalent
Optional Safety Star: SNAPSAFT-
2400
Effluent Filter
Orenco Model FTW0436-28
Distribution
Infiltrator Quick4 Standard Chambers +
Media
endca s orequivalent
Filter Fabric
Non -woven permeable geotextile fabric
max. 2 oz. / sq. yd),ore uivalent
Limitations
This report is a site -specific design for the installation of an onsite wastewater treatment system and is
applicable only for the client for whom our work was performed. Use of this report under other
circumstances is not an appropriate application of this document. This report is a product of K-Cronk
Engineering, Inc. and is to be taken in its entirety. Excerpts from this report may be taken out of context
and may not convey the true intent of the report. It is the owner's and owner's agent's responsibility to read
this report and become familiar with the recommendations and design guidelines contained herein.
The recommendations and design guidelines outlined in this report are based on: 1) the proposed site
development and plot plan as furnished to K-Cronk Engineering, Inc. by the client, and 2) the site conditions
disclosed at the specific time of the site investigation of reference. K-Cronk Engineering, Inc. assumes no
liability for the accuracy or completeness of information furnished by the client. Site conditions are subject
to external environmental effects and may change over time. Use of this plan under different site conditions
is inappropriate. If it becomes apparent that current site conditions vary from those anticipated, the design
engineer and Garfield County should be contacted to develop any required design modifications. K-Cronk
Engineering, Inc. is not responsible and accepts no liability for any variation in assumed design parameters.
K-Cronk Engineering, Inc. represents this report has been prepared within the limits prescribed by the
owner and in accordance with the current accepted practice of professional engineering in the area. No
warranty or representation, either expressed or implied, is included or intended in this report or in any of
our contracts.
SEAL
;s 61140
a.�;z��zolz�r
Kachayla, Schraede_r
Kachayla Schroeder, RE,
NOTE: This OWTS design is meant to include the following five pages:
1) plot plan
2) septic layout plan
3) project notes
4) soil treatment area plan view
5) soil treatment area cross section.
The plan is not to be implemented in the absence of these sheets.
-7-
1 /
i
i
I�..........
► ;
I �
/ I J ►t approx, location of
Irrlgatlon overflow
approx. location / �_ - / high level flow line
of creek high ► i
level flow line ► _
approx. location of
soli evaluation top of cut (shaUo.
' pits slope less than
3H11V)
J A
► 3� e
approx, locat1oo�
NOTEi
CONTACT DESIGN ENGINEER AT
KACHAYLA,CRONKROUTLOOK,COM
PRIOR TO INSTALL TO ❑BTAIN
ENTIRE ❑WTS DESIGN DOCUMENT.
DRAWINGS MUST BE USED IN
CONJUNCTION WITH 'GARZA
PROJECT ❑WTS DESIGN' DATED
APRIL 20, 2026
09arage
39,23 acres
j -1 of existing OWTS
41
zt!
41
lean-o duplex
r area of ,
reference �
s
► well arvd� 1 �' 0 �
cistern !!!!! 1
1
I
r
r'
existing ^ - -
shop
I ,
r
GARZA PROJECT
1456 COUNTY ROAD 233 I
2177-031-00-437
IPLOT PLAN
APRIL 20, 2026
:SCALE, 1'=50'
GRAPHIC SHEET 1 OF 4 NORTH
PROJECT NOTES:
NOTE
1. CONTACT DESIGN ENGINEER AT
THE FOLLOWING SETBACKS MUST BE MAINTAINED:
KACHAYLA,CRONK@OUTLOOK,COM PRIOR TO INSTALL TO
SEPTIC
OBTAIN ENTIRE OWTS DESIGN DOCUMENT, DRAWINGS MUST
TANK
STA
BE USED IN CONJUNCTION WITH
SPRINGS/WELLS
50'
100'
"GARZA PROJECT ❑WTS DESIGN' DATED APRIL 20, 2026
2. OWNER/CONTRACTOR TO PROVIDE
_
_
LAKE/STREAM/IRRIG. DITCH-50'
50'
STRING LINE DEPICTING
INTERMITTENT IRRIG. DITCH-10'
25'
50' FROM HIGH LEVEL WATER LINE OF DITCH AND
{
GATED PIPE
10,
25'
IRRIGATION OVERFLOW FOR INSPECTORS TO MEASURE
t
SOLID PIPE/LINED DITCH
10'
10'
OFFSETS FROM.
I
I
DOMESTIC WATER CISTERN
—50'
100,
3, EXISTING SEPTIC TANK TO BE ABANDONED IN PLACE OR
DOMESTIC WATER LINE
10'
25'
REMOVED. IF THE TANK IS TO BE ABANDONED, IT MUST BE
/
STRUCTURE W/CRAWLSPACE
— 5'
20'
PUMPED OUT PRIOR TO CRUSHING, AND THE REMAINING VOID
STRUCTURE W/OCRAWLSPACE
— 5'
10'
IS TO BE FILLED WITH GRAVEL, SAND, OR COMPACTED
SOIL.
PROPERTY LINE
10'
10,
4. REPAIR AREA SHALL BE PROVIDED OFF PAGE TO THE EAST
1
ACROSS DRIVEWAY,
approx. location
of creek high
level flow line
1
r
'I approx. location
of existing ❑WTS
j;
94s
� f f
Il 1
1
' l\ lean-to
approx, location of I
irrigation overflow
I high level flow line
approx, location
/ of top of cut
(shallow slope
i less than 3H,1V)
S
1,000 gallon, two
compartment sepi
Ln tank w/ effluent
o filter (OSI Model
FTW0436-28)
duplex
SCHD 40
clean out
1 j
1 �
1 �
NOTE
CALL 811 FOR UTILITY LOCATES
' r
GARZA PROJECT I
1458 COUNTY ROAD 233
well and
2177-031-00-437
cistern
SEPTIC LAYOUT PLAN
APRIL 20, 2026
SCALE: 1'=30' NORTH
GRAPHIC SHEET 2 OF 4
soil treatment area (STA)
consisting of 3 rows of 12
Qu1ck4 Standard Infiltrators
(or equivalent) for a total of
thlrty-six units
THE INSTALLER SHALL CONFIRM THE FEASIBILITY OF
GRAVITY DISCHARGE OF SEWAGE EFFLUENT FROM THE
FOUNDATION LINE TO THE SOIL TREATMENT AREA BY FIELD
VERIFICATION OF THE REQUIRED PARAMETERS. GRAVITY
SEWER LINES THAT TRANSPORT SOLID WASTE MATERIAL
MUST MAINTAIN A MINIMUM FALL OF 1/4' PER FOOT (2%
SLOPE); GRAVITY EFFLUENT LINES THAT TRANSPORT ONLY
LIQUID WASTE MATERIAL MUST MAINTAIN A MINIMUM OF
L/8' PER FOOT (1% SLOPE),
11 SITE CONDITIONS D❑ NOT ALLOW FOR THE
EQUIREMENTS MENTIONED ABOVE TO BE MAINTAINED,
RAVITY DISCHARGE OF SEPTIC EFFLUENT CANNOT BE
SSURED, AND A LIFT STATION MAY BE REQUIRED.
1 —CR O V K F. L. $nx ado
iWack. CO &525
z�v:o�ia / �Curl�vla:�onk���t�rdvak.co�ir
NOTES FOR YOUR INSTALLER
This is a STAMPED. ENGINEERED design — yes, septics are "simple" and water runs downhill.
However, like anything that is engineered, it is critical that you follow the design so the system
performs as intended — I cannot approve a system that was not installed to plans!
If, FOR ANY REASON, you need to:
1. Change the location/rotation of the septic tank (i.e. plumbing was stubbed out of
different wall, etc.)
2. Change the location/rotation of the soil treatment area (i.e. slope differed from the
design, owner has changed the site plan, etc.)
YOU MUST CONTACT THIS OFFICE FOR A REVISED DESIGN!
The revision must be submitted and approved through the County (with a County $ revision
fee) prior to calling in for inspection. Revisions take time, so please be prompt when
contacting us to ensure the project is not delayed.
Next, and I cannot stress this enough - DO NOT install the chambers DEEPER than the maximum
depth stated in the design — the depth is determined by factors that the design engineer cannot
control. This includes SATURATED/POOR SOIL CONDITIONS & COUNTY OWTS
CODE. Our designs give the widest range of depth possible for the specific site — if the required
depth cannot be met, other options may need to be explored.
If the soil treatment area is installed at a depth greater than allowed, there are very few solutions
to resolve the problem. Examples include:
• Removing all components and reinstalling them in a different location at correct depth.
• Backfilling trenches to an acceptable depth (using WASHED CONCRETE SAND
ONLY), installing a pump chamber, effluent pump, and pressurizing the system.
Please reach out at any time during the installation process if you have any questions — this office
has experienced several installations that have failed County inspections due to issues described
above — I would like to see every system PASS without comment as this makes everyone's job
easier.
y� �rt,�
Kachayla Cronk, P.E. — (970) 250-0572
sep
infli
three (3) rows of twelve (12) INFILTRATOR
QUICK4 STANDARD chambers (or equivalent)
for a total of thirty-six (36) units
pprox. 53' w/ endcaps, typ
h , AAA' of rhnmhr+— t..n _
at each endcap as'shown
SCREW DETAIL
NTS
S❑IL TREATMENT AREA - PLAN VIEW
TYPICAL 3 OF 3
SCALE, 1'=10'
fasten adjacent chambers w/
(3) 3/4' screws at
approximately 10 o'clock, 12
o'clock, and 2 o'clock position,
typ,
NOTEi
CONTACT DESIGN ENGINEER AT
KACHAYLA,CRONK@OUTLOOK,COM
PRIOR TO INSTALL TO OBTAIN
ENTIRE OWTS DESIGN DOCUMENT.
DRAWINGS MUST BE USED IN
CONJUNCTION WITH 'GARZA
PROJECT OWTS DESIGN' DATED
APRIL 20, 2026
K Cif ONK
GARZA PROJECT
1458 COUNTY ROAD 233
2177-031-00-437
SOIL TREATMENT AREA -PLAN VIEW
APRIL 20, 2026
SCALE 1'=10'
GRAPHIC SHEET 3 OF 4
provide Inspectlon port
at each endcap as shown
existing
~ ^
`
provide sandy loam
ground
soli cap (mound 5%),
surface
,
typ,
w/ slope
j
I
�- '
non -woven, permeable
!
?1 � I
I 44
geotextile fabric, typ,
individual trenches must be level
10' recamit ended
N
2
nloe gCentire lengthy __ trenches Are
not required to be level relative
to each other - equal dlstrlbution
_ l _ _ _ _ _ _ _ _ _ _ _ _ _
, 35'
r
I
-16'
ensured by dlstrlbution box
typical chamber trench
cross section ��
�
#2
NOTE
disk or scarify
IF CONSISTENT TRENCH DEPTH
each trench
CANNOT BE MAINTAINED, CHAMBERS
MAY BE INSTALLED LEVEL AT 24'
Infiltrator Qulck4 Standard .
MIN. AND 48' MAX BGS.
chambers, or e ulvSt nt
q
SOILS LOG
(SEE NOTES)
SOIL TREATMENT AREA — CROSS SECTION
TYPICAL 3 OF 3
SCALE; 1'=5'
ELEVATION DESIGN SPECIFICATIONS
DESIGN DISTANCE FROM EXISTING TANK TO INLET OF PROPOSED TANK = 15'
DESIGN DISTANCE FROM OUTLET OF SEPTIC TANK TO STA = 25'
ASSUMED ELEVATION OF GROUND SURFACE AT ENTRY TO STA = 100.00'
ELEVATION OF BOTTOM OF CHAMBERS AT ENTRY TO STA = 98.00'
INVERT ELEVATION OF SEWAGE LINE AT ENTRY OF DIST, BOX = 98,58'
INVERT ELEVATION OF SEWAGE LINE AT OUTLET OF SEPTIC TANK = 98,83'
INVERT ELEVATION OF SEWAGE LINE AT INLET OF SEPTIC TANK = 99,08'
INVERT ELEVATION OF SEWAGE LINE AT EXISTING = 99,38'
SOILS LOG NOTES
#1 SOIL TYPE 2, USDA - SANDY LOAM, BLOCKY, STRONG STRUCTUREi W/
MINOR ROCK ((35% ROCK)
#2 SOIL TYPE 2, USDA - SANDY LOAM, BLOCKY, MODERATE STRUCTURE
NO GROUNDWATER OR EVIDENCE OF PERIODICALLY SATURATED SOILS PRESENT
TO A DEPTH OF 84' BELOW GROUND SURFACE (BGS)
OUTLETS AS REQUIRED
NOTE:
SPEED LEVELERS SUCH AS TUF-TITE SL-4
(OR EQUIVALENT) MAY BE INSTALLED AS
NEEDED AT OUTLETS OF DISTRIBUTION BOX,
INLET
TO ENSURE EQUAL DISTRIBUTION TO EACH
TRENCH
COMPACTED NATIVE SOIL OR STRUCTURAL
FILL TO PREVENT SETTLING .aTTi =tl
DISTRIBUTION BOX DETAIL
SCALE' 1'=1'
NOTE;
CONTACT DESIGN ENGINEER AT
KACHAYLA.CRONKROUTLOOK,COM
PRIOR TO INSTALL TO OBTAIN
ENTIRE OWTS DESIGN DOCUMENT.
DRAWINGS MUST BE USED IN
CONJUNCTION WITH 'GARZA
PROJECT ❑WTS DESIGN' DATED
APRIL 20, 2026
GARZA PROJECT
1458 COUNTY ROAD 233
2177-031-00-437
'SOIL TREATMENT AREA - CROSS SECTION
,APRIL 20, 2026
.SCALE+ AS SHOWN
GRAPHIC SHEET 4 OF 4
K-CRONK
ESTIMATE
SSSE, LLC Ronsergeant@gmail.com
PO Box #3 +1 (701) 595-2628
Molina, CO 81646 www.sergeantseptic.com
Bill to
Eddy/Jessica Garza
Diesel Edge
Estimate details Property Address: 1458 County Rd 233
Estimate no.: 1066 Rifle, Cc
Estimate date: 04/28/2026
# Date
Product or service
Description
1. 04/28/2026
Pump, Crush and Fill Existing Septic Pump, Crush and Fill Existing Septic
Tan k
Tank
2, 04/28/2026
Plumbing
Plumb from under porch at new 4" 2
way clean out. Continue new plumbing
to new septic tank
3. 04/28/2026
1000 Gallon Septic Tank
Installation on new 1000 Gallon infiltrator
Plastic septic tank with new baffle and
fi Iter.
4. 04/28/2026
Leach Lines
Installation on 3 new leach lines
consisting of 48' In ft of new infiltrator
quik 4 chambers and distribution box
5. 04/28/2026
Backfilling of System after Final
Backfill tank, lines and assoc ditches to
inspection
an exceptabel contractor grade. Any
excess soil to be left on site.
Total
Ways to pay
tinsn * o6 —1 M aMK
Contact Sergeant & Sons Septic and Excavating to pay.
50% down payment at start of job when we arrive onsite to install,
remainder due at approval of Engineer on Record (K Cronk)
Accepted date Acce ted by
S$pant
s1 OAS
Yo a� J d►I•°
(a�.Ydo
3/S¢ Scf►
Ship to
Eddy/Jessica Garza
Diesel Edge
Qty
Rate
Amount
1
$1,500.00
$1,500.00
1
$2,000.00
$2,000.00
1
$7,000.00
$7,000.00
1
$6,000.00
$6,000.00
1
$0.00
$0.00
$16,500.00
Deposit
$8,250.00
due