HomeMy WebLinkAbout6043; PALOMAR AIRPORT ROAD WIDENING AT PASEO DEL NORTE; GEOTECHNICAL INVESTIGATION - INFILTRATION TESTING; 2019-01-31January 31, 2017
Project No. 108040005
Mr. Daniel Zimny, PE
City of Carlsbad
1635 Faraday Avenue
Carlsbad, California 92008
Subject: Infiltration Testing Results
Palomar Airport Road Right Turn Lane to Paseo Del Norte
Carlsbad, California
Dear Mr. Zimny:
In accordance with your request and authorization, we have performed infiltration testing for the
design of storm water Best Management Practices (BMP) to be constructed for the subject pro-
ject. Based on our understanding, the project will include the construction of a dedicated right
turn lane along the south side of the east bound lanes of Palomar Airport Road leading to Paseo
Del Norte in Carlsbad, California. In addition to the new pavement section, concrete flatwork
and infiltration devices will be constructed. To accommodate the new turn lane, the existing
roadway will be widened to the south.
SCOPE OF SERVICES
Our scope of services for the infiltration testing included the following:
Reviewing background information including available utility plans and topographic maps.
Siting and staking of the exploratory boring locations for clearance by Underground Service
Alert (USA).
Acquiring a Right-of-Way permit from the City of Carlsbad.
Manually excavating, logging, and sampling of two exploratory borings (IT-1 and IT-2) to a
depth of approximately 5 feet. Bulk samples of the encountered soils were collected and
transported to our in-house geotechnical laboratory for testing.
Performing infiltration testing in the borings.
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc 2
Performing geotechnical laboratory testing of representative soil samples to evaluate in-
place moisture content and gradation (sieve) analysis.
Preparing this report providing our findings and the results of our testing.
SUBSURFACE EXPLORATION AND LABORATORY TESTING
On January 17, 2017, Ninyo & Moore manually excavated two soil borings (IT-1 and IT-2) to a
depth of approximately 5 feet for infiltration testing at the locations shown on Figure 1. A Ninyo &
Moore representative logged the borings and collected bulk soil samples. The borings encountered
fill overlying materials mapped as old paralic deposits (Kennedy and Tan, 2005). The fill materials
were approximately 3 to 4 feet thick and generally consisted of brown to gray, moist, medium
dense, silty sand. The underlying old paralic deposits generally consisted of light gray, moist, me-
dium dense to dense, silty sand. Logs of the borings are presented in Attachment A.
Geotechnical laboratory testing was performed on representative samples of the soils encoun-
tered. The testing included an evaluation of in-situ moisture content and gradation (sieve)
analysis in accordance with ASTM International (ASTM) D 2216 and D422, respectively. The
results of the moisture content testing are presented on the boring logs in Attachment A. The re-
sults of the gradation (sieve) analysis tests are presented in Attachment B.
INFILTRATION TESTING
To prepare the borings (IT-1 and IT-2) for infiltration testing, approximately 2 inches of gravel was
placed on the bottom of each prepared boring. A 2-inch diameter, perforated PVC pipe was in-
stalled in the boring and the annulus was then backfilled with pea gravel. The infiltration tests were
performed in general accordance with City of Carlsbad BMP Design Manual (2016). As part of the
test procedure, a presoak was performed to represent adverse conditions for infiltration. The pre-
soak consisted of maintaining approximately 1 foot of water in each boring for approximately
4 hours. The water level was then allowed to drop overnight. Infiltration testing was performed on
January 18, 2017 in the presoaked borings at depths of approximately 5 feet. The borings were
filled with approximately 6 inches of water and measurements of the water depth were generally
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc 3
recorded every 30 minutes until consistent measurements were obtained. The borings were refilled
as needed to maintain the water level until the infiltration rate stabilized. For testing purposes, a
stabilized rate was defined as two consecutive readings without a change of more than 0.01 foot in
the depth of the water column. Infiltration rates were then calculated using the Porchet method.
Measurements and calculations are included in Attachment C.
As indicated on the table below, adjusted infiltration test results for tests IT-1 and IT-2 were less
than 0.1 inches per hour (in/hr). Infiltration test measurements are included in Attachment C and
the results are summarized in the following table.
Infiltration Test Results Summary
Infiltration Test
(depth)
Soil Description at Test Depth
(Geologic Unit)
Infiltration Rate
in/hr
IT-1
(5 feet)
Silty SAND
(Old Paralic Deposits) 0.09
IT-2
(5 feet)
Silty SAND
(Old Paralic Deposits) 0.04
DISCUSSION AND RECOMMENDATIONS
The purpose of our study was to provide infiltration test rates for use in the design of storm water
BMPs for the project. Based on the results of our testing, the site subsurface soils indicated infiltra-
tion rates of 0.09 and 0.04 in/hr. Based on our knowledge of the site geology, similar infiltration
characteristics can be expected at other locations on the site.
In general, infiltration rates less than 0.5 inches per hour (in/hr) are not considered adequate for infil-
tration structures or measures (United States Environmental Protection Agency [EPA], 2010).
Although specifics have not been provided to our office, the following general recommendations
for site infiltration devices are being provided. As described earlier, the tested infiltration rates
indicate the presence of relatively impermeable soils are present at the site. Accordingly, the use
of infiltration devices such as pervious pavements or bioretention swales will result in lateral mi-
gration of subsurface water and potentially adverse effects to adjacent site improvements. These
adverse effects may include settlement of trench backfill and yielding subgrade conditions be-
neath pavements. Therefore, if infiltration devices are to be used on the project, we recommend
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc
REFERENCES
City of Carlsbad, 2016, Engineering Standards, Volume 5: Carlsbad BMP Design Manual for
Post Construction Treatment BMPS: dated February.
County of San Diego, 1963, Topographic Survey, Sheet 346-1671, Scale 1: 2,400: dated September.
County of San Diego, 1975, Topographic Survey, Sheet 346-1671, Scale 1: 2,400: dated Sep-
tember 17.
Google Earth, 2017, http://www.googleearth.com.
Kennedy, M.P., and Tan, S.S., 2005, Geology of the Oceanside 30' x 60' Quadrangle, California,
Scale 1:100,00.
Ninyo & Moore, 2016, Proposal for Infiltration Testing, Palomar Airport Road Right Turn Lane
to Paseo Del Norte, Carlsbad, California: dated October 19.
United States Environmental Protection Agency (EPA) Region 1, 2010, Storm water Best Man-
agement Practices (BMP) Performance Analysis: revised March.
@A@A
±
NOTE: DIRECTIONS, DIMENSIONS AND LOCATIONS ARE APPROXIMATE
LEGEND
@A
0 90 18045
SCALE IN FEET
INFILTRATION TEST LOCATIONS FIGURE
1PROJECT NO.DATE
IT-2TD=5.0
SOURCE: GOOGLE EARTH, 2017.
PALOMAR AIRPORT ROAD
INFILTRATION TESTTD=TOTAL DEPTH IN FEET
1_108040005_IT.mxd 1/24/2017 AOB1/17108040005
PALOMAR AIRPORT ROADRIGHT TURN LANE TO PASEO DEL NORTECARLSBAD, CALIFORNIA
IT-2TD=5.0IT-1TD=5.0
PASEO DEL NORTE
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc
ATTACHMENT A
BORING LOGS
0
5
10
15
20
XX/XX
SM
CL
Bulk sample.
Modified split-barrel drive sampler.
2-inch inner diameter split-barrel drive sampler.
No recovery with modified split-barrel drive sampler, or 2-inch inner diameter split-barrel
drive sampler.
Sample retained by others.
Standard Penetration Test (SPT).
No recovery with a SPT.
Shelby tube sample. Distance pushed in inches/length of sample recovered in inches.
No recovery with Shelby tube sampler.
Continuous Push Sample.
Seepage.
Groundwater encountered during drilling.
Groundwater measured after drilling.
MAJOR MATERIAL TYPE (SOIL):Solid line denotes unit change.
Dashed line denotes material change.
Attitudes: Strike/Dip
b: Bedding
c: Contact
j: Joint
f: Fracture
F: Fault
cs: Clay Seam
s: Shear
bss: Basal Slide Surface
sf: Shear Fracture
sz: Shear Zone
sbs: Shear Bedding Surface
The total depth line is a solid line that is drawn at the bottom of the boring.
BORING LOG
Explanation of Boring Log Symbols
PROJECT NO. DATE FIGUREDEPTH (feet)BulkSAMPLESDrivenBLOWS/FOOTMOISTURE (%)DRY DENSITY (PCF)SYMBOLCLASSIFICATIONU.S.C.S.BORING LOG EXPLANATION SHEET
SOIL CLASSIFICATION CHART PER ASTM D 2488
PRIMARY DIVISIONS SECONDARY DIVISIONS
GROUP SYMBOL GROUP NAME
COARSE-
GRAINED
SOILS
more than
50% retained
on No. 200
sieve
GRAVEL more than 50% of coarse
fraction retained on No. 4 sieve
CLEAN GRAVELless than 5% fines
GW well-graded GRAVEL
GP poorly graded GRAVEL
GRAVEL with DUAL
CLASSIFICATIONS
5% to 12% fines
GW-GM well-graded GRAVEL with silt
GP-GM poorly graded GRAVEL with silt
GW-GC well-graded GRAVEL with clay
GP-GC poorly graded GRAVEL with clay
GRAVEL with FINES
more than 12% fines
GM silty GRAVEL
GC clayey GRAVEL
GC-GM silty, clayey GRAVEL
SAND 50% or more
of coarse fraction
passes No. 4 sieve
CLEAN SAND
less than 5% fines
SW well-graded SAND
SP poorly graded SAND
SAND with
DUAL CLASSIFICATIONS 5% to 12% fines
SW-SM well-graded SAND with silt
SP-SM poorly graded SAND with silt
SW-SC well-graded SAND with clay
SP-SC poorly graded SAND with clay
SAND with FINES more than
12% fines
SM silty SAND
SC clayey SAND
SC-SM silty, clayey SAND
FINE-
GRAINED
SOILS
50% or
more passes
No. 200 sieve
SILT and
CLAY liquid limit less than 50%
INORGANIC
CL lean CLAY
ML SILT
CL-ML silty CLAY
ORGANIC OL (PI > 4)organic CLAY
OL (PI < 4)organic SILT
SILT and CLAY liquid limit 50% or more
INORGANIC CH fat CLAY
MH elastic SILT
ORGANIC
OH (plots on or
above “A”-line)organic CLAY
OH (plots below “A”-line)organic SILT
Highly Organic Soils PT Peat
USCS METHOD OF SOIL CLASSIFICATION
Explanation of USCS Method of Soil Classification
PROJECT NO.DATE FIGURE
APPARENT DENSITY - COARSE-GRAINED SOIL
APPARENT
DENSITY
SPOOLING CABLE OR CATHEAD AUTOMATIC TRIP HAMMER
SPT (blows/foot)
MODIFIED SPLIT BARREL (blows/foot)
SPT (blows/foot)
MODIFIED SPLIT BARREL (blows/foot)
Very Loose < 4 < 8 < 3 < 5
Loose 5 - 10 9 - 21 4 - 7 6 - 14
Medium Dense 11 - 30 22 - 63 8 - 20 15 - 42
Dense 31 - 50 64 - 105 21 - 33 43 - 70
Very Dense > 50 > 105 > 33 > 70
CONSISTENCY - FINE-GRAINED SOIL
CONSIS-TENCY
SPOOLING CABLE OR CATHEAD AUTOMATIC TRIP HAMMER
SPT (blows/foot)
MODIFIED SPLIT BARREL
(blows/foot)
SPT (blows/foot)
MODIFIED SPLIT BARREL (blows/foot)
Very Soft < 2 < 3 < 1 < 2
Soft 2 - 4 3 - 5 1 - 3 2 - 3
Firm 5 - 8 6 - 10 4 - 5 4 - 6
Stiff 9 - 15 11 - 20 6 - 10 7 - 13
Very Stiff 16 - 30 21 - 39 11 - 20 14 - 26
Hard > 30 > 39 > 20 > 26
LIQUID LIMIT (LL), %PLASTICITY INDEX (PI), %0 10
107
4
20
30
40
50
60
70
0 20 30 40 50 60 70 80 90 100
MH or OH
ML or OLCL - ML
PLASTICITY CHART
GRAIN SIZE
DESCRIPTION SIEVE SIZE GRAIN SIZE APPROXIMATE SIZE
Boulders > 12”> 12”Larger than basketball-sized
Cobbles 3 - 12”3 - 12”Fist-sized to
basketball-sized
Gravel
Coarse 3/4 - 3”3/4 - 3”Thumb-sized to
fist-sized
Fine #4 - 3/4”0.19 - 0.75”Pea-sized to thumb-sized
Sand
Coarse #10 - #4 0.079 - 0.19”Rock-salt-sized to pea-sized
Medium #40 - #10 0.017 - 0.079”Sugar-sized to rock-salt-sized
Fine #200 - #40 0.0029 -
0.017”
Flour-sized to
sugar-sized
Fines Passing #200 < 0.0029”Flour-sized and
smaller
CH or OH
CL or OL
0
5
10
15
20
15.4
12.7
SM
SM
FILL:Brown, moist, medium dense, silty SAND; scattered roots.
@ 3.5': Slight hydrocarbon odor.Light gray.
OLD PARALIC DEPOSITS:Light gray, moist, medium dense to dense, silty SAND.
Total Depth = 5 feet.
Groundwater not encountered during drilling.
Backfilled on 1/18/17.
Note: Groundwater, though not encountered at the time of drilling, may rise to a higher
level due to seasonal variations in precipitation and several other factors as discussed in
the report.
The ground elevation shown above is an estimation only. It is based on our interpretations
of published maps and other documents reviewed for the purposes of this evaluation. It is
not sufficiently accurate for preparing construction bids and design documents.
BORING LOG
PALOMAR AIRPORT ROAD RIGHT TURN LANE TO PASEO DEL NORTE
CARLSBAD, CALIFORNIA
PROJECT NO.
108040005
DATE
1/17
FIGURE
A-1DEPTH (feet)BulkSAMPLESDrivenBLOWS/FOOTMOISTURE (%)DRY DENSITY (PCF)SYMBOLCLASSIFICATIONU.S.C.S.DESCRIPTION/INTERPRETATION
DATE DRILLED 1/17/17 BORING NO.IT-1
GROUND ELEVATION 75' (MSL)SHEET 1 OF
METHOD OF DRILLING 6" Hand Auger
DRIVE WEIGHT N/A DROP N/A
SAMPLED BY BTM/ZH LOGGED BY BTM/ZH REVIEWED BY CAT
1
0
5
10
15
20
23.0
16.6
SM
SM
FILL:Brown, moist, medium dense, silty SAND; scattered roots and clay.
@ 2.5': Increased in moisture.
OLD PARALIC DEPOSITS:Light gray, moist, medium dense, silty SAND.
Total Depth = 5 feet.
Groundwater not encountered during drilling.
Backfilled on 1/18/17.
Note: Groundwater, though not encountered at the time of drilling, may rise to a higher
level due to seasonal variations in precipitation and several other factors as discussed in
the report.
The ground elevation shown above is an estimation only. It is based on our interpretations
of published maps and other documents reviewed for the purposes of this evaluation. It is
not sufficiently accurate for preparing construction bids and design documents.
BORING LOG
PALOMAR AIRPORT ROAD RIGHT TURN LANE TO PASEO DEL NORTE
CARLSBAD, CALIFORNIA
PROJECT NO.
108040005
DATE
1/17
FIGURE
A-2DEPTH (feet)BulkSAMPLESDrivenBLOWS/FOOTMOISTURE (%)DRY DENSITY (PCF)SYMBOLCLASSIFICATIONU.S.C.S.DESCRIPTION/INTERPRETATION
DATE DRILLED 1/17/17 BORING NO.IT-2
GROUND ELEVATION 75' (MSL)SHEET 1 OF
METHOD OF DRILLING 6" Hand Auger
DRIVE WEIGHT N/A DROP N/A
SAMPLED BY BTM/ZH LOGGED BY BTM/ZH REVIEWED BY CAT
1
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc
ATTACHMENT B
LABORATORY TESTING
Coarse Fine Coarse Fine Silt Clay
3" 1-1/2" 1" 3/4" 1/2" 3/8" 4 8 16 30 50 100 200
PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 422
Symbol Plasticity
Index
Plastic
Limit
Liquid
Limit
Depth
(ft)CcCu U.S.C.SD60
Medium
GRAVEL SAND FINES
D30D10
Passing
No. 200
(%)
Sample
Location
IT-10.0-3.5 -- -- -- ---------- 27 SM
PALOMAR AIRPORT ROAD B-1RIGHT TURN LANE TO PASEO DEL NORTE
108040005 1/17 CARSLBAD, CALIFORNIA
0
10
20
30
40
50
60
70
80
90
100
0.00010.0010.010.1110100PERCENT FINER BY WEIGHTGRAIN SIZE IN MILLIMETERS
U.S. STANDARD SIEVE NUMBERS HYDROMETER
GRADATION TEST RESULTS
PROJECT NO. DATE
FIGURE
108040005 SIEVE IT-1 @ 0.0-3.5.xls
Coarse Fine Coarse Fine Silt Clay
3" 1-1/2" 1" 3/4" 1/2" 3/8" 4 8 16 30 50 100 200
PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 422
PALOMAR AIRPORT ROAD B-2RIGHT TURN LANE TO PASEO DEL NORTE
108040005 1/17 CARSLBAD, CALIFORNIA
-- -- -- -- 32 SMIT-1 3.5-5.0 -- -- -- --
U.S.C.SD60
Medium
GRAVEL SAND FINES
D30D10
Passing
No. 200
(%)
Sample
LocationSymbol Plasticity
Index
Plastic
Limit
Liquid
Limit
Depth
(ft)CcCu
0
10
20
30
40
50
60
70
80
90
100
0.00010.0010.010.1110100PERCENT FINER BY WEIGHTGRAIN SIZE IN MILLIMETERS
U.S. STANDARD SIEVE NUMBERS HYDROMETER
GRADATION TEST RESULTS
PROJECT NO. DATE
FIGURE
108040005 SIEVE IT-1 @ 3.5-5.0.xls
Coarse Fine Coarse Fine Silt Clay
3" 1-1/2" 1" 3/4" 1/2" 3/8" 4 8 16 30 50 100 200
PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 422
Symbol Plasticity
Index
Plastic
Limit
Liquid
Limit
Depth
(ft)CcCu U.S.C.SD60
Medium
GRAVEL SAND FINES
D30D10
Passing
No. 200
(%)
Sample
Location
IT-20.0-3.0 -- -- -- ---------- 34 SM
PALOMAR AIRPORT ROAD B-3RIGHT TURN LANE TO PASEO DEL NORTE
108040005 1/17 CARSLBAD, CALIFORNIA
0
10
20
30
40
50
60
70
80
90
100
0.00010.0010.010.1110100PERCENT FINER BY WEIGHTGRAIN SIZE IN MILLIMETERS
U.S. STANDARD SIEVE NUMBERS HYDROMETER
GRADATION TEST RESULTS
PROJECT NO. DATE
FIGURE
108040005 SIEVE IT-2 @ 0.0-3.0.xls
Coarse Fine Coarse Medium SILT CLAY
3" 2"¾"½" ⅜"4 8 3050
PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 422
USCS
--
D60
SM-- -- -- 32
Passing
No. 200
(%)
CcCu
IT-2 3.0-5.0 -- -- -- --
GRAVEL SAND FINES
Symbol Plasticity
Index
Plastic
Limit
Liquid
Limit
1½" 1"
Depth
(ft)D30
Fine
Sample
Location
100
D10
16 200
108040005 1/17
B-4PALOMAR AIRPORT ROAD
RIGHT TURN LANE TO PASEO DEL NORTE
CARSLBAD, CALIFORNIA
0.0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
100.0
0.00010.0010.010.1110100PERCENT FINER BY WEIGHTGRAIN SIZE IN MILLIMETERS
U.S. STANDARD SIEVE NUMBERS HYDROMETER
GRADATION TEST RESULTS
PROJECT NO. DATE
FIGURE
108040005 SIEVE IT-2 @ 3.0-5.0.xls
Palomar Airport Road Right Turn Lane to Paseo Del Norte January 31, 2017
Carlsbad, California Project No. 108040005
108040005 L.doc
ATTACHMENT C
INFILTRATION TESTING
Palomar Airport Road Right Turn Lane to Paseo Del Norte
Carlsbad, California
Attachment C
Project No. 108040005
Test Date:Infiltration Test No.: IT-1
Test Hole Diameter, D (inches): 6.0 Excavation Depth (feet): 5.0
Test performed and recorded by: BTM Pipe Length (feet): 5.00
(min/in) (in/hr)
9:27 4.40 9:57 4.42 30 0.02 125 0.59 0.08
9:57 4.42 10:27 4.45 30 0.03 83 0.57 0.13
10:27 4.45 10:57 4.50 30 0.05 50 0.53 0.23
11:03 4.40 11:33 4.42 30 0.02 125 0.59 0.08
11:33 4.42 12:03 4.46 30 0.04 62 0.56 0.18
12:03 4.46 12:33 4.50 30 0.04 62 0.52 0.19
12:35 4.40 13:05 4.42 30 0.02 125 0.59 0.08
13:05 4.42 13:35 4.45 30 0.03 83 0.57 0.13
13:35 4.45 14:05 4.47 30 0.02 125 0.54 0.09
14:05 4.47 14:35 4.50 30 0.03 83 0.52 0.14
14:37 4.40 15:07 4.42 30 0.02 125 0.59 0.08
15:07 4.42 15:37 4.44 30 0.02 125 0.57 0.09
Test Date:Infiltration Test No.: IT-2
Test Hole Diameter, D (inches): 6.0 Excavation Depth (feet): 5.0
Test performed and recorded by: BTM Pipe Length (feet): 5.00
(min/in)(in/hr)
9:30 4.21 10:00 4.22 30 0.01 250 0.79 0.03
10:00 4.22 10:30 4.23 30 0.01 250 0.78 0.03
10:30 4.23 11:00 4.24 30 0.01 250 0.77 0.03
11:00 4.24 11:30 4.25 30 0.01 250 0.76 0.03
11:30 4.25 12:00 4.26 30 0.01 250 0.75 0.03
12:00 4.26 12:30 4.27 30 0.01 250 0.74 0.03
12:30 4.27 13:00 4.28 30 0.01 250 0.73 0.04
13:00 4.28 13:30 4.29 30 0.01 250 0.72 0.04
13:30 4.29 14:00 4.30 30 0.01 250 0.71 0.04
14:00 4.30 14:30 4.31 30 0.01 250 0.70 0.04
14:30 4.31 15:00 4.32 30 0.01 250 0.69 0.04
15:00 4.32 15:30 4.33 30 0.01 250 0.68 0.04
d1 = initial depth to water in hole at t1
t2 = final time when incremental water level reading is taken
d2 = final depth to water in hole at t2
Δt = change in time between initial and final water level readings
ΔH = change in depth to water or change in height of water column (i.e., d2 - d1)It= tested infiltration rate, inches/hour
H0 = Initial height of water column ΔH = change in head over the time interval, inches
in/hr = inches per hour Δt = time interval, minutes
r = effective radius of test hole
Havg= average head over the time interval, inches
1 Based on the "Porchet Method" as presented in:
Riverside County Flood Control, 2011, Design Handbook for Low Impact
Development Best Management Practices: dated September.
Percolation Rate
Infiltration Rate
1/18/2017
t1
d1
(feet)t2t1
Infiltration Rate
Havg
(feet)
Havg
(feet)
ΔH
(feet)
ΔH
(feet)
Δt
(min)
d2
(feet)
d1
(feet)t2
d2
(feet)
Δt
(min)
1/18/2017
Percolation Rate
ܫ௧ ൌ ∆ܪ ൈ 60 ൈ ݎ
∆ݐ ݎ2ܪ௩
108040005 T Attachment C.xls 1 of 1