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Results of. . .iI Hydrogeological InvestigationI-—I for . . .
\^Grand Trunk Western Railroad CoBattle Creek, Michigan
November, 1983Project 20225
I EDI ENGINEERING & SCIENCE9 ENGINEERS / GEOLOGISTS / BIOLOGISTS ' CHEMISTS^ 6' i CASCADE W PKWY.SE GRAND RAPiOS M>*9506 ibl6JW2-0970
0000742
TABLE OF CONTENTS
Page
INTRODUCTION 1Background 1Scope of this Study iLocation 2Methods 2
RESULTS OF INVESTIGATION 5Geology 5Groundwater Flow Conditions 6Groundwater Quality 1CSoil Quality 1*
SUMMARY AND CONCLUSIONS
APPENDICES
A - Methods for Observation Well Construction and Sample Collection
B - Construction Records *or Wells
FIGURES
12
34
56789101112
TABLES
1234567
General Location MapPlan of Study Area Showing Location of Wells andSoil SamplesConfiguration of the Bedrock SurfaceCross Section Showing Relationship between GlacialDrift and BedrockWater Table Configuration, August* 1982Groundwater Flow Direction, September, 1983Probable Distribution of 1,1,1-Trichloroethane
ofofof
ProbableProbableProbable
DistributionDistributionDistribution
1,1-DichloroethyleneTetrachloroethylene1,1-Dichloroethane
Probable Distribution of TrichloroethyleneProbable Distribution of 1,2-Dichloroethane
Follows Page
in pocket6
689
131313131313
Groundwater Elevation Measurements, September 2, 1983 9Results of lr± Situ Permeability Tests 11Results of Volatile Organic Compound Analyses of Groundwater 12Base Neutral Fraction Compounds Detected in On-Site Wells 13Results of DNR Analysis of Soil Samples from Well 1 14Description of Soil Sampling Sites 16Results of Chemical Analysis of Soils 18
0000
INTRODUCTION
Background
Contaminated water wells in and near the Verona well field were discovered bythe Michigan Department of Public Health in September 1981. Subsequentinvestigations by the State of Michigan and USEPA (U.S. Environmental Protec-tion Agency) showed that numerous organic compounds, principally volatilehalogenated organic compounds, had impacted groundwater in both the glacialdrift and bedrock aquifers. The highest concentrations were found in an areanorth of Emmett Street and west of the Grand Trunk Western Railroad (GTW).
The U.S. Environmental Protection Agency and the Michigan Department ofNatural Resources suggested that three local firms might be potential sourcesof the lost chemicals. The MDNR, and later the USEPA, under the authority o*the Federal Comprehensive Environmental Response, Compensation and LiabilityAct of 1980, requested these firms to voluntarily initiate investigations todetermine whether or not they were a source of contamination and if remedialmeasures were necessary. In cooperation with those requests, the GTWconducted a study in July 1982 to evaluate a localized groundwater contamina-tion incident near their heavy repair shop where a solvent leak had beendiscovered and subsequently repaired. The investigation summarized in thisreport expands upon the July, 1982 study and also examines soil quality on GTWproperty closer to the Verona well field.
Studies conducted by other agencies are proceeding more or less concurrentlywith the GTW investigation. These include studies by the U.S. GeologicalSurvey for the City of Battle Creek and a study by CH0M H i l l for the U.S.Environmental Protection Agency.
Scope of this Study
Field work for this study phase was conducted during July, August andSeptember of 1983 and was limited to property owned by the Grand Trunk WesternRailroad. The objectives of the study were to:
-1- 0000744
hi
1. Refine knowledge of the vertical and horizontal extent of groundwatercontamination in the glacial drift aquifer near the Heavy Repair Shop.
2. Verify the direction of groundwater flow in both the glacial drift andbedrock aquifers near the repair shop.
3. Evaluate the hydraulic connection between the drift and bedrock aquifersat the shop.
4. Expand upon knowledge of groundwater quality near the old round house.
5. Evaluate the quality of soils near the old roundhouse and the marshallingyard.
Location
The area included in this study is in the eastern portion of the Battle Creekmetropolitan area and occupies portions of Section 5, Emmett Township (T2S,R7W) and Section 32 and 33, Pennfield Township (T1S, R7W). Emphasis wasplaced on the narrow zone along the railroad tracks extending from the heavyrepair shop northward through the marshalling yard. Figure 1 shows thelocations of important features in this area.
The study area is a flat terrace which separates rolling nil Is to the eastfrom the Battle Creek River and its floodplain to the west. Surface drainageon the terrace has been highly modified by storm sewers and artificialditches.
Methods
The principal data col lection activities during this study phase and theearlier phase involved construction of exploration borings and observationwells, collection of soil and water samples for chemical analysis, measurementof water levels and determination of in situ permeability. Each of thesetasks was supervised by, or conducted by. Environmental Data Inc. (EDI) staff.
.2. 0000745
WE'LL
*
IS, '\
/
W D ROUND HOUSE
HEAVY NEW*
1000 2000 3000
SCALE IN FEET
GRAND TRUNK WESTERNRAILROA'J C
1983 202Z5
000074G
Two drilling methods were used for exploration borings and well construction.The shallow glacial drift holes were constructed using a hoi low stem augermachine. Deep bedrock holes were constructed using hydraulic rotary methodsto bedrock and air rotary methods through the bedrock. Considerable care wasexercised to prevent contamination of the aquifer by dirty equipment or fromchemicals in soils or groundwater above the aquifer. Appendix A describes themethods used in more detail. Figure 2 shows the locations of the we! Isconstructed for this study and other wells of interest.
Observation wells constructed for this study have been numbered sequentiany(e.g. 1 through 9). Wells with a number and no letter suffix are theshallowest wells in a well cluster. The wells are referred to °Uher by theterminology used by the U.S. Geological Survey (i.e. G-l for Grand TrunkWestern welIs) or without the letter prefix. The prefix "GT" is used todesignate production wells owned by Grand Trunk Western. The numbering ofwells constructed by others conforms to the system used by the U.S. GeologicalSurvey (e.g. T-13 is the J3th wel 1 constructed by the U.S. EnvironmentalProtection Agency "TAT" investigation contractor).
Almost all of the water samples collected during this phase were obtained witha Kemmerer type sampling device after five casing volumes of water had beenpurged with a centrifugal pump. The sampling device was cleaned prior tosampling each well. Each sample was placed on ice immediately after collec-tion and the samples were delivered to EDI laboratories the same day.Appendix A contains a more complete description of the techniques used.
Soil samples were collected with a standard metal agricultural soil sampler.The sampler was washed with soapy water and rinsed with clean water betweeneach sampling. Two samples were collected at each site. One samole wasstored in a wide mouth glass bottle for laboratory evaluation with an organicvapor analyzer. The second sample was analyzed with gas chromatograph mas?spectrometer.
0000747
All volatile organic compounds were analyzed by the purge and trap gaschromatographic/mass spectrometer (GC/MS) method as described in the USEPApublication "Methods for Organic Chemical Analysis of Municipal and IndustrialWastewater" (method No. 624). At the beginning of each day that analyses areperformed, the GC/MS system is checked to ensure that acceptable performancecriteria are achieved for bromofluorobenzene. Five mill 1 liter sample aliquotswere purged for 22 minutes followed by 6 minutes of desorption onto a 1*SP-1000, 80/60 Carbopack B chromatographlc column. The CC was proqramnied from60 to 215°C at a rate of 12°C/min to achieve effective separation of volatilecompounds. Solid sediment samples were analyzed as above, except the purgingchamber was immersed in a water bath held at 703C to aid in transferringpurgeable organics onto the trap. The Internal standard method of analysiswas employed for both solid and liquid samples.
All base-neutral compounds were detected and analyzed by the aas chromato-graphic/mass spectrometer EPA method #625, taken frnm the same U5EPA pub-lication cited in the volatile procedure above. Mass spectrometer performancewas assured on each day of analysis by meeting the performance criteriarequired for decafluorotriphenyl phosphine. One liter volunes of sample wereadjusted to a pH of 11 or greater, followed by three serial extractions in aseparatory funnel with 100 ml. aliquots of methylene chloride. The extractswere combined and dried by pouring them through a column containing about 10cm. of anhydrous sodium sulfate. The solvent was then concentrated to a finalvolume of 2 mis. in a water bath adjusted to 60 to 65rC. Immediately beforeinjection, deuterated anthracene was added to each sample as., an internalstandard. The samples were then injected onto a DB-5 fused silica capillarycolumn (30 m. x 0.25 mm) with the GC temperature programmed from 50 to 280°Cat a rate of 12° C/min. Base-neutral priority pollutant compounds weredetected and quantified from the data collected by the mass spectrometer.
The elevation of each observation well was determined using a self-levelinglevel. U.S. Geological Survey well number E-28 was used for a referencedatum. Survey circuit closure was within ;0.02 feet.
000074G-4-
Water level measuresents were made using the chalked-steel tdpe n<?thod. Thesemeasurements were mede on the same day as U.S. Geologic*! Survey measurementsin other observation wells.
In situ permeabi 1 ity measurements were made wi th a specially constructedinstrument consisting of a float operated rheostat, vacuum or pressure pump,and a portable computer. This device al lowed the measurement of water levelchanges of *0.01 foot at 0.2 second intervals. Interpretation of test resultsrelied upon the method described by Schnrid (1967).
RESULTS OF INVESTIGATION
Geology
Two types of geologic formations underlie the study area. The oldest forma-tion of interest is the Marshall Sandstone, which forms th*? bedrock. Overly-ing this sandstone bsdrock are glacial deposits consisting cf unconsolidatedsand, gravel and cl«y. A l l u v i a l material is likely present in the BattleCreek river floodplain located west of the study area, but the nature of thesedeposits has not bee« examined.
The Marshall Formation near the heavy repair shop is a fine to very finegrained, siIty to cUyey sandstone. Interbedded with the sandstone is darkgrey and black shal*. North of the repair shop (e.g. near the old roundhouse) the sandstone fs somewhat coarser gained. The sandstone strata of theMarshall Formation are an important aquifer in this area. The shale layersmay divide the sandstone formation into several distinct aquifers, but mostbedrock wells are ope* to more than one sandstone laypr.
The sandstone and shale strata are inclined toward the north. The rate of dipis approximately 16 feet per mile (.003 feet per foot). This inclination ofthe bedrock formation means that an individual stratum would be about 24 feetdeeper at the Verona uell field than it would be at the heavy repair shop.
000074,')-5-
Bedrock fractures are an important feature since water wellb which intersectfractures are known to produce more water than welli that do not intersectfractures. Well 8A was the only well constructed for this study that, pene-trated an obvious fracture. The location or orientation of individualfractures cannot be predicted with the available information.
The bedrock surface is quite irregular and several buried bedrocV valleys havebeen mapped by the U.S. Geological Survey. One of these valleys exists underthe Heavy Repair Shop. Material penetrated during the construction of recentwells suggests that this particular bedrock valley has been partly filled-inwith clay or clayey material. Figure 3 depicts the location of this valley.
Overlying the bedrock throughout the study area are glacial deposits. Tnesedeposits range from well sorted material (e.g., clay, sand, gravel) t? verypoorly sorted material (e.g., sandy, silty clay). In general, the rr*teriallying directly on the bedrock near the heavy repair shoo is clay or clayeymaterial, but near the old round house, bedrock is overlain by sand or sandand gravel. The sand or sand and gravel formations are high yielding aquiferswhere saturated.
The general relationship between glacial deposits and bedrock formations isshown in Figure 4.
The original land surface has been regraded throughout the study area. Fillmaterial was encountered during the construction of several observation wellsto depths of about 15 feet.
Groundwater Flow Conditions
Local aquifers are recharged by precipitation which infiltrates the landsurface. Some of the water found in aquifers below GTW property may haveresulted from recharge taking place in the uplands more than one mile east.The U.S. Geological Survey estimates that the average annual precipitationhere is 33 inches and that 8 to 12 Inches of this total infiltrates andrecharges local aquifers.
Water level measurements made during this study and studies by the USGS showthat groundwater moves toward the Battle Creek River except for an area
-6- 0000750
/,
7W--N V -^ ^/x c
^^1000—I— zcoo 30CO
_ISCALE W FEET
NOTE; THIS FIGURE IS A MODIFIC*TIOt OF A MAPPRERAREO BY THE U S OGDUOGICAL SURVEY, 198?.THE DASHED LINES REPRESENT THE MODIFICATIONS.
GRAND TRUNK WESTERNRAILROAD COMFttNY
SURFACE CONFIGURATION OF THEMARSHALL FORMATION
FIG. 3SEPT, 1983 ?0225
0000751
HORIZONTAL SCALE: Ita * COOft
SKIHHINV
BEDROCK AQUIFER
GRAND TRUNK WESTERNRAILROAD COMFWNY
surrounding the Verona well field. Pumpage from the well field has created acone of depression which appears to divert the flow of groundwater as much as0.5 to 1 mile away from the well field. The regional flow pattern as itexisted in August 1982 1s shown in Figure 5 which is reproduced from a USG5report (U5GS 1982, Fig. 3). Of special interest is the groundwater dividewhich extends approximately parallel to and just south of Emmett Street.Groundwater south of the divide flows westerly toward the river, but north ofthe divide the flow is toward the Verona well field. The position of thisdivide will change in response to changes in groundwater pumpage and precipi-tation.
Groundwater elevation measurements (see Table 1) made on September 2, 1983,confirm that groundwater flow 1n the glacial drift aquifer is westerly at the
v_ieavy repair shop and moves directly toward the Battle Creek River. Thegradient at this location is about 10 feet per mile (.002 feet per foot).Figure 6 illustrates the Inferred flow direction 1n the glacial drift aquifer.The flow in the sandstone bedrock aquifer is westerly to southwesterly at therepair shop with a gradient of 21 feet per mile (.004 feet per foot),
~ The water level measurements show that the water level elevation is differentin the bedrock aquifer compared to the glacial drift aquifer. A water leveldifference between two aquifers shows that there is a potential forgroundwater to flow from the aquifer having the higher water level to the
^ aquifer having the lower water level. The bedrock aquifer water level isve the glacial drift aquifer water level at some locations and below at
others.
"-'From past measurements near the repair shop, it is anticipated that thevertical water level gradient and gradient direction may change with time, andany change will be due to variations 1n local precipitation and punpage. The
-7-0000753
vertical gradient near the Verona well field is typically downward in responseto pumping from the Verona well field. This fact, coupled with the absence ofclayey material between the shallow glacial drift aquifer and the sandstonebedrock aquifer, means that groundwater can readily move downward into thebedrock aquifer. While movement between the two aquifers is possible at theVerona well field, this type of movement is greatly inhibited near th* heavyrepair shop because of the clay which separates the two aquifers.
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It"V
-8-0000754
^ ^ — GROUNDWATER DIVIDE
NOTE : THIS FIGURE IS REPRODUCED FROM"GROUNOWATER FLOW AT VERONA WELL FIELD
BATTLE CREEK, MICHIGAN" US GEOLOGICALSURVEY PROVISIONAL REPORT,1982 FIGURE '.PAGE I2A
0 1000 2000 3OCOI——————I—————I______ISCALE IN FEET
GRAND TRUNK WESTERNRAILROAD COMfiftNY
WATER TABLE CONFlGURATtON,AJG,e2
SEPT. 1983
0000755
TABLE 1GROUNDWATER ELEVATION MEASUREMENTS
September 2, 1983
Aquifer andWell No.
Glacial Drift1
1AIB2
2A3
3A44A578
T-13
Bedrock1C5A6
7A8A9
9AT-16
TOCElevation
833.47834.18834.58836.43836.24834.94834.74935.06835.12827.95828.32835.30831.88(1)
833.64828.76829.69829.18834.11838.45838.89841. 19*1'
Water DepthBelow TOC
15.2015.9916.3617.6017.3316.8516.6717.1517.2510.6511.6417.3913.18
14.9610.456.7513.1615.7410.8911.3412.78
WaterElevation
818.27818.19818.22818.83818.91818.09818.07817.91817.87817.30816.68817.91818.70
818.68818.31822.94816.02818.37827.56827.55828.41
NOTE:TOC refers to "top of casing"(1) The measuring point used for these wells was the top of 2-inch
casing. The TOC elevation of T-16 determined in this study differsfrom previous reported elevation (841.19 vs 841.36).
-Q.000072
i
• I
i •
r—
Cr-f
1000 2000_T
3000_l
SCALE IN FEET
GRAND TRUNK WESTERNRAILROAD COMRftNY
DIRECTION OF GROUNDWATER FLOW IN THESHALLOW GLACIAL DRIFT AQUIFER,
SEPT. 1983FIG 6
20235
During the September 1983 water level measurement, the water level of the oilskimming pond was higher than adjacent groundwater by 1.28 feet. The waterlevel of the Battle Creek River oxbow west of the repair shop was 0.17 feetbelow the water level in Well No. 5.
One of the important aquifer characteristics which influences the rate atwhich water can move through an aquifer is permeability. Permeability (orhydraulic conductivity) is a measure of the ability of water to pass throughthe aquifer. Twelve in-situ permeability tests were performed during thisstudy to provide an estimate of the permeability of both the bedrock andglacial drift aquifers. The results of these tests, as summarized in Table 2,show that the glacial drift aquifer at the repair shop is considerably morepermeable than the underlying bedrock aquifer. However, the bedrock at well9-A is very permeable.
The average velocity of groundwater in the glacial drift aquifer at the repairshop can be estimated by the following relationship:
Where:v * average velocity
K « permeability (average 60.1 ft/day)
^ h « hydraulic gradient (0.002)£ « porosity (0.2)
With this relationship, the calculated average velocity is .6 feet per day.At this rate, a molecule of water would require over 360 days to migrate fromthe repair shop to the west side of the railroad tracks.
Groundwater Quality
A considerable number of water samples have been analyzed by government andprivate laboratories since the contamination problem was first discovered.These analyses have refined the understanding of the area impacted bycontamination and the types of contaminants. The principal contaminants
-10- 000075G
TABLE 2RESULTS OF IN SITU PERMEABILITY TESTS
_____^_________Permeability______Aquifer and centimeters feet gal Ions per day
Well No. per second per day per square foot
Glacial Drift1-A 0.032 90.7 6782 0.005 14.2 1063-A 0.027 76.5 5725 0.008 22.7 1707 0.034 96.4 7218 (1) (1) (1)
Bedrock(2)1-C 0.004 11.3 84.85-A 0.0015 4.3 31.86 0.0003 8.5 6.367-A 0.005 14.2 1068-A 0.0002 6 4.249-A 0.228 646 4834
(1) The permeability of the zone screened in Well 8 is too low to measurewith the equipment available during this study.
(2) For this analysis, it was assumed that only the sandstone section of thebedrock wells yielded water and the shale sections were impermeable. Theaverage permeability of the entire thickness of the Marshall Formationwould be less than the values shown here.
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.11. 000075
.t.
LEGEND
—— tQ-——100-
SROUNDWATER GENERALLY EXCCCDS 16HOUNOWATCA tENCMALLY CXCIEDS W MICHO6RAWS/ LITER0ROUNDW*T£H OINCMLLT EXCEEDS 100 MiCMOGRAMS/LITER
THE DlSTRtnuTlQN SHOWN HIRE IS RASED ONC H f M H A L A N A L Y S I S I'CnFOHMiO ^RQM
SCPTtMl l fR I9H3
tOOO ZOX)
SCALE IN FEETT.
3000
GRAND TRUNK WESTERNRAILROAD COMR4NY
PROBABLE DISTRIBUTION OF1 , 1 , 1 TRICHLOROETHANE
FIG ?SEPT 1983 20225
0300760
II
I1
r
LEGEND
NCT£
1000 2000
SCALE IN FEET
3000_i
UNEULLr CXCtEOS I HICKOaiUM/LITEItS"OU»0»lTtll atNCMtLr CXCCEDS 10 miCKM'Uli / \.nt1
ICNCMLLT (XCIEOS 100 MICKOGMMS/LITEII
0" 000 761
GRAND TRUNK WESTERNRAILROAD COMPANY
PROBABLE DISTRIBUTION OF1,1- D(CHLOROCTHL7ENE
FIG 8SEPT. 1983
found are in a class described as volatile chlorinated organic compounds.These compounds are primari1y used as solvents for fats, waxes, oils andgreases.
Early information on the area near the heavy repair shop suggested thatcontamination was principally restricted to the shallow glacial drift aquiferbecause of the clay material which separates the shallow sand and gravelaquifer from the sandstone bedrock aquifer. This hypothesis has been con-firmed by recently collected geologic and water quality information. Table 3contains the results of recent chemical analyses for volatile organic com-pounds. These analyses show that the glacial drift aquifer has been impactedby spills or leaks, but the sandstone bedrock aquifer is virtually unimpacted.
Samples from each of the 22 on-site wells listed in Table 3 were also analyzedfor 47 base-neutral fraction priority pollutants. These compounds were notdetected (at a detection limit of 0.01 milligrams per liter) in most of thesamples except as shown in Table 4. Except for naphthalene, the other com-pounds found are classified as "plasticizers" which are not used in the repairshop. The presence of phthalate in the bedrock aquifer, but minimal distri-bution in the glacial drift aquifer, suggests that this material did notoriginate on GTW property.
-12- 0000762
TM.E 1RESULTS OF VOlAtllE ORGANIC COWOUW ANALYSES OF CIWUNDWAirH
Aqul'er 1 Vinyl Chloro-
•ell No. Chloride ethane
Claeldl Drift1 U.OI 0.01
I-AI-BI
I-A1 0.09 0.01
J-A 0.0*,
* -A
S 0.01 p7 0.015
1-11
Bedrock1-C5-A6
i-A P
e-A9
9-At-16[-18
Gl-tGl-1
NOTE: AH r«*ult> ihomi are in ullll
Detection Malt •«» 0.01 •*/!
I.l-Olchloro- I.l-Olchloro- t-l ,1-Dlchloro- 1 ,1-OlchIoro- 1.1,1-trl- Irichloro- Ictrechloro- Ethyl Nethyleneethyl eoe ethan* ethyl ene ethane chloroethane ethylene Beniene ethylene Bentene Chlor io>(t > Cf
1.5 *.9 0.9« O.M 69 1) P 0.01 0.19 0.010.017 0.016 0.001 0.70 0.71 -- 0.01
0.001 0.001 -- 0.001 0.0%) 0-0*5 -- 0.0510.1* 0.6« -- 0-006
--0.009 0.05 0.011 0.001 0.100 0-040 0.00% O.O97 0.0150.01% 0.097 0.057 0.005 O.*00 0.180 0.001 0.160
o.ooi •• -- o.oiiO.OW 0.011 0.016 0.001 0.09* 0.150 0.001 0.01*
O.OM 0.00%0.001 0.019 0.015 -- O.OB? 0.0010.000 0.067 0.060 0.001 0.00% 0.067 0.001 0-001•-
p
----
0.001 0.001-•----
0.001 — •- 0.0)8 •- O.OOI--- -
gra*» per liter or parti per •itllon,
for constituent* «ith *naly*ei reported to hundredth* *nd 0.001 «q/1 for conitituent* with «n«lyiet reported to thouiandth*.
•• indicate* that the indicated constituent *a* n»t (ound or •» below deteetebi 1 Uy .
thirty volatile or9*ntc compound* »ere included In the analytical »can. Compound* not detected are not ihwm in thu (able.
Ooooo>CJ
(1) Me thy len* chloride «*y be due
Rnutti reported here <re froa
to laboratory eontM!n«t ion.laople* collected in Auqust and $epten^>«r 1981, Sanplei fro* Melli r,T-1 dnd i.l-2 have been *n*lyr«] niMMroui tiiHri in the '*it year.
Chlarofur* Io'u*n«
0.01
TABLE 4BASE-NEUTRAL FRACTION COMPOUNDS DETECTED IN ON-SITE WELLS (mg/1
Bis-Aquifer and (2-ethyl hexyl
Number Naphthalene Acenaphthene Phenanthrene Phthalate
Glacial Drift1
IA3A
T-13
0.32
0.17
0.01
0.01
0.01
0.010.03
0.08
Bedrock1-C8-A9
0.040.060.35
T
The available chemical analyses from all groundwater samples collected in theVerona well field and surrounding area were examined to determine if plumepatterns might provide a clue to the source of chemicals. A separate map wasprepared showing the distribution of wells impacted by each chemical found todate. It is not currently possible to subdivide the analyses to show theextent of chemical plumes in different aquifers or at one point in time. Theresults of this effort are summarized in Figures 7 through 12. These figuresare interpreted to show the following:
1. The plume of chemicals impacting the Verona well field is separate anddistinct from the plume found at the heavy repair shop. Therefore, theheavy repair shop contaminants are not contributing to the problem at theVerona well field.
2. The groundwater divide which roughly parallels Emmett Street has beenlocated south of the Thomas Solvent Annex site most of the time but thelocation has shifted at times to allow southwestward migration of somechemicals.
0000764-13-
LEGEND
——10-—— 100-
1000 2000SCALE IN FEET
3000I
SROUNOWATER MNCMLLY EXCEEDS I MICftOOIUM/LITEft
GROUNDWATER GENERALLY EXCEEDS 10 MlCROGRAMS/ LITER
6MOUMOWATCM ftCNCRALLV CXCCCDS KX> MICMOOHAMS/ LITEH
NOTETHE OiSTHiBUTiOM SHOWN HERE 'S BASED 0*CMEMiCtu AN/.i.i'SES PE«rO«ME? 'ROM OCTOBE" , ' 98 'THROUGH SEPTEMBER 1963
GRAMD TRUNK WESTERNRAILROAD COMFftNY
PROBABLE DISTRIBUTION OFTETRACMLOROETHYLENE
FIG 9SEPT. 1983 20225
000076 r)
f-
LEGEND
—-w-——-100-
1000 2000
SCALE IN FEET
3000_i
ftROUNDWATER 9ENERALLY EXCEEDS I MtCROQRAM/LITEROROUNDWATER 8ENERALLY EXCEEDS K> MlCROttRAMS/LITER•ROUNOWfATER GENERALLY EXCEEDS KM MICROORiMS/LITER
NOTETHE DISTRIBUTION SHOWN M£HE is (USED ONCr tEV iCAL A N A t T S E S PERFORMED C«OM OCTOi£*,i96'THROuCH SEPTEMBER 1983
GRAND TRUNK WESTERNRAILROAD COMfttNY
PROBABLE DISTRIBUTION OFI, I- DICHLOROETHANE
FIG.10SEPT. 1983 20225
000076G
LEGEND
100
0 1000 2000 3000
SCALE IN FEET0HOUNDWATCM OCNEMALLY EXCEEDS IGftOUNDWATE* GEMEttACLT EXCEEDS (0 MiCAOGNAMS/ LITE*6WUWOW*TEI» OENEMtLT EXCEEDS 100 MlC*00*AMS/UTCH
S'WiBJ'.C'J SHOWN ME*£ IS BiSEO ON
GRAND TRUNK WESTERNRAILROAD COMR&NY
PROBABLE DISTRIBUTION orTRICHLOROETHYLENE
FIG. IISEPT 1983
000076
eiPii
o
1000 2000
-i ——— OMOUNOWATCR WNEMLLY IXCKIOS I MICROOR4M/LITER-W—— IftOUNDWATIR •CNCRALLY CXCCIDS 10 MCH04KAMS/LITER100—" 8*OUNOWATCR 9CNERALLT CXCffDS 100 MICffOONAMS/ LITER
SCALE IN FEET
3000_I
NOTETHE DiSTRiajTiQN SHOWN HC«E IS BfiSEO ONCHEMICAL A N A L Y S E S PE«F"OBMED F«OM OCTOBE». i98'THROUGH SEPTEMBER 1983
GRAND TRUNK WESTERNRAILROAD COMPANY
PROBABLE DISTRIBUTION OF\,2 - DICHLOROETHANE
FIG 12SEPT. (983 20225
000076S
IN
I
I
I
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Soil Quality
Soil samples were collected and analyzed by MDNR from GTW property prior tothis study phase. The first samples were collected adjacent to the heavyrepair shop from well number 1 which is located near a leak from a solventstorage tank. The soils to a depth of 16 feet were found to be contaminatedby solvents, principally 1,1,1-Trichloroethane (1,1,1-TCA), as shown in Table5.
TABLE 5RESULTS OF DNR ANALYSIS OF SOIL SAMPLES FROM WELL 1.
ii
ti
••i••
Location
Site of Well 112'41
7'6"10'12'14'16*
1,1.1-TCA TCE CHCL, PCE 1,1-DCA
1.515.09.82.18.2
16.06.3
0.032----..
0.0250.750.55
0.0015
0.150.69
NOTE:Results are milligrams per liter (parts per million)1,1,1-TCA « 1,1,1-Trichloroetnane
TCE « TrichloroethyleneCHCL., • Chloroform
Tetrachloroethylene1,1-Dichloroethane
'3PCE
1,1-DCA
In addition, surface soil samples were collected along 6 railroad switchesnorth of Emmett Street by DNR. These locations are shown in Figure 2.Analysis of these samples did not detect the presence of any volatile organiccompounds.
-14- 0000769
An expanded soi 1 sampling program was implemented by GTW because of thepossibility that materials carried by the railroad may have been lost in theMarshal ling Yard.
Soil sample sites were selected where large spills or leaks would likelyaccumulate. The samples were collected in open ditches near the discharge endof pipes which drain adjacent areas both on and off Grand Trunk Westernproperty. Soils directly below the railroad tracks were not sampled becauseof the thick ballast. The sites are described in Table 6 and general loca-tions are shown in Figure 2.
Eleven of the twelve soil samples collected during this study phase containedlow levels of volatile organic compounds. Trichloroethylene was the compoundfound most often as shown in Table 7. These results suggest that volatileorganic compounds may have been lost in the area of the old roundhouse andmarshalling yard, but the observed concentrations are so low that they may bebackground levels. These low levels of chemicals may also come from propertyadjacent to the railroad property as samples 9, 10 and 12 were collected atlocations which receive off-site runoff.
0000770-15-
•• m u mTABLE 6
DESCRIPTION OF SOIL SAMPLING SITES
EDISoilSampleNumber Site Characteristics
SampleOdor Description Depth
Dry ditch. Downstream of 8-inch pipe which drains catchbasins in southwest portion of marshalling yard. Ditchdrains north toward sampling location 15.
None Dry Sand 12"
As above.
As above, but track area drained is larger.
Dry ditch. Next to 12-inch pipe which drains catch basinsin northwest portion of marshalling yard.
Musty
None
None
Dry Sand
Moist Sand
Dry Sand
12"
12"
12"
oooo
Dry ditch. Upstream of concrete junction box. This ditchbegins about 700 feet south of sample location II andturns west to the river at this site.
Dry ditch. Upstream of concrete junction box. This loca-tion is the southern end of the ditch before it turns westto the river.
None
Musty
Moist ClayeySand
Dry Sand
3"
12"
Dry ditch. Next to discharge of 12-inch pipe which drainscatch basins in the northeast portion of marshalling yard.
None Dry Sand 12"
m m.TABLE 6
DESCRIPTION OF SOIL SAMPLING SITES(Continued)
EDISoilSampleNumber Site Characteristics Odor
8 Ditch with standing water. Next to 24-inch pipe which Nonedrains entire southeastern portion of marshalling yard,including the car repair shop. Clear oil droplets on watersurface.
9 Dry ditch. Upstream of dry well. Ditch receives runoff Mustyfrom residential (and commercial?) area south of thislocation.
10 Ditch with standing water. Next to culvert which drains Fuel Oiloff-site area.
11 Dry ditch. Next to pipe which drains "car cleaning Familiartracks'1. ChemicalO
ooo
SampleDescription
Black Clayand Silt
Sandy Clay
Clayey Sandand Black Clay
Moist ClayeySand, Some
White Material
12ro
Ditch with rapidly flowing, clear water. Next to pipewhich drains area to east.
None Sand and Gravel
Depth
12"
12"
24"
12"
12"
M, mm. mmTABLE 7
EDISoilSample
• No.
1234567891011
o 12OOo
RESULTS OF CHEMICAL ANALYSIS OF SOILS
Trans 1,2-Methylene Trichlorofluro- Oichloro- 1,1,1-Tri- Trichloro- Tetrachloro- Chloro-Chloride methane ethylene chloroethane ethylene ethylene Toluene benzene
0.050 — — 0.0270.037 0.033(1) — -- - 0.006
0.0060.015 — 0.006
0.007--
0.0130.009 -- -- -- 0.009
0.0340.012 0.032
0.0150.007
CO (1) A second "freon" compound, I,lt2-trich1oro-l,2v2-trifluoroethane, at 0.31 mg/kg was found in this sample.This compound is not an ERA priority pollutant.
The above results are in miUigrams per kilogram or parts per million.
SUMMARY AND CONCLUSIONS
No evidence was found during this investigation that chemicals found ingroundwater at the heavy repair shop have contributed to the contaminant plumeimpacting the Verona well field. The plume at the heavy repair shop ismigrating toward the Battle Creek River, and is restricted to the generalvicinity of the shop. In addition, the chemicals are almost exclusivelylimited to the glacial drift aquifer because of the clay zone which separatesthe glacial drift aquifer from the sandstone bedrock aquifer.
Soil samples collected during this study contain low levels of volatileorganic compounds but these levels may be only background levels. Some ofthese compounds have migrated to GTW property from off-site sources.
-19- 0000774
APPENDIX A
METHODS FOR OBSERVATION HELL CONSTRUCTION AND SAMPLE COLLECTION
0000775
BEDROCK WELLS
All bedrock wells were constructed using^standard hydraulic rotary techniquesto produce an open hole for the four-inch casing and air rotary techniques toproduce an open hole in the bedrock formation after casing had been installed.Procedures that were followed for each of the wells except 1-c were asfollows:
1. The drilling rig and all materials were washed thoroughly and rinsed withclean water prior to entering the job site. The casing was capped withaluminum foil after being washed and was stored on the water truck untilplaced in the hole.
2. All drilling water was obtained from an uncontaminated off-site source(the driller's water well).
3. No thread compound was used on casing threads or drill rod joints.
4. The open hole was terminated when solid sandstone was encountered.Casing was installed at this point ana grouted in-place. Groutingconsisted of the following steps:
a. The casing was solidly seated on the bottom of the open hole and themud inside the casing flushed using air and clean water.
b. Forty gallons (30 gal 1n Well 9-A) of neat cement grout was mixedand poured into the casing. The mixture consisted of one 94 poundbag of Portland Type IA cement to 10 gallons of water.
c. A wiper plug was positioned above the grout and forced to the baseof the casing with water pressure and/or the drill rods.
d. The casing was forced into the bedrock several inches with a rigoperated hammer to assure a seal.
e. The casing was filled with clear water, capped and allowed to restfor approximately 24 hours.
A-l 000077G
5. All equipment, including drill rods and mud pit, were flushed with cleanwater.
6. After the cement had cured, the water was flushed from the casing and anopen hole constructed below the casing.
7. Each well was developed by pumping with air until relatively particle-free water was produced.
8. A locked, vented cap was installed on each well.
Well 1-C was constructed in a similar manner except the casing was not groutedin place. The casing In this well was driven several feet into the bedrock.The casing was not cleaned prior to installation.
GLACIAL DRIFT WELLS
The glacial drift wells were constructed using hollow-stem auger techniques.The procedures used for wells 5, 7, 8 and 9 were as follows:
1. The drilling machine and augers were cleaned with soapy water and thor-oughly rinsed prior to entering the study area. The augers were scrubbedwith soapy water and rinsed with clean water between each hole. Thecasing was also cleaned and rinsed prior to being brought to the drillsite. The casing was stored on a trailer until placed in the hole.
2. Drilling water was obtained from an uncontaminated source (Grand TrunkWestern water supply).
3. No thread compound was used on the casing threads. No pipe was cut orthreaded on-site.
4. An exploration hole to obtain split spoon cores was constructed prior toinstallation of the well. This exploration hole was plugged withcuttings and bentonite.
A-2 0000777
5. The well was installed using the following techniques:
a. The augers were advanced to one foot above the desired top of thescreen and sediment in the augers flushed with clean water.
b. Casing and screen were lowered to the bottom of the hole and driveninto undisturbed sediments until the top of the screen was one footbelow the augered hole.
c. The augers were pulled back approximately one foot and bentonitepellets (Volclay) dropped into the annular space as the augers werebeing removed. Approximately three to five feet of annular spacewas filled with the bentonite pellets.
d. The augers were removed from the hole and the annular space abovethe bentonite was backfilled with native soils and bentonite.
6. Each well was developed by pumping it with a rig operated rod pump untilrelatively particle free water was produced.
7. A vented cap with a padlock was installed on each well.
Glacial drift wells 1 through 4A were installed using the same basic tech-niques except:
1. Bentonite seals using bentonite pellets were not installed in the annularspace.
2. The casing and screen were not driven below the augered hole.
3. The augers and casing were not cleaned prior to construction of eachwell.
4. Thread compound may have been used on casing joints. Some threads mayhave been cut on-site using thread cutting lubricant.
A-30000778
WELL SAMPLING PROCEDURE
Water samples for laboratory analysis were collected with care to assure thesample was representative of the formation tapped by the well. With theexception of Well 8, which was a low producer, the sample was collected aftera minimum of five casing volumes of water had been removed from the well. Thesample collection procedure consisted of the following steps:
1. The quantity of stagnant water in the well was determined.
2. A centrifugal pump was used to remove at least five times the quantity ofstagnant water in the casing (see the form following this section).
3. A brass Kemmerer type sampler was used to collect the water sample.Teflon tape was used to cover the rubber stoppers. Each sample wascollected in the open hole section of the well or directly above thescreen.
4. Samples for volatile organic analysis were place in standard 40 ml vials.Care was taken to assure that the bottle did not have an air bubble.Duplicate samples were collected from each well.
5. A one-gallon sample was collected for analysis of base neutral compounds.
6. Samples were stored on Ice Immediately after collection and delivered tothe EDI laboratory the same day collected.
Three wells could not be sampled as described above because of low yield or anobstructed casing which prevented use of the Kemmerer sampler. For wells 4and T-13, a small diameter copper bailer with an open top and bottom checkvalve was used to collect the sample. Well #8 was both purged and sampledwith the copper bailer.
A"4 0000779
APPENDIX B
CONSTRUCTION RECORDS FOR WELLS
0000730
Company
OWNER
A Divition of Livnr-Wtmrn Co.
401 SOUTH DELORENZI AVENUE. P.O. BOX 468. MISHAWAKA. INDIANA 46544
WELL & PUMP INSPECTION REPORT
Grand Trunk Railroad
CITY609 W. Jameson Street, Battle Crekk, MI 69016
WELL NO LOCATIONRound House ft f A.
oe,TH 121' SCflEENID none Tvpg rock LgNcTM casing 63' V
DATE DOLLED
. . .~18—*0^T3 •*• ". c..'n. . O A T E S O F CLEANING
JEPTH TO TOP,sterilized 1973
DATE INSPECTED 11-26-62 TO CONTACT P°"* Williamson 616-9^-5233
CONTACT LOCATION
CAPACITY
ORIGINAL
A F T E f LASTCLEANING
PRESENT AT LINEPRESSURE
DATE
I960
1978
1982
STATIC
8 . 5 *
9 (
10'
GPM
1065
683
692
PUMPING | I SPECIFICLEVEL 1 PRESSURE CAPACiTv
! w / t e s t i12. 5 DUTTID 261u-3 ' 710 ' 273
12.5 j 55-'' i 277
AIRLINE LENGTH Prpbe
TEST WILL BE COMPLETE THROUGH
TOP OF CHECK ___ METER _ FLANGE on THREAD SIZE
TOTAL PUMP SETTING 65'6"____MOTQR HP *0 PHASE 3 CVCL^U ypiTS 220 /6AO
PUMP MFC Lavne 12" RKLC-6______________ «„ NO. 22191________________
RATED CAPACITY 600 GPM 200' .TOM; OPERATING PRESSURE
DATE INSTALLED ngu ntimn 1950 DATES OP OVERHAUL _1_95_6«61.66.73.78SIZE OF
IS CHECK VALVE LEAKING' YES_NO_ DOES STUFFING §OX HAVE SPRING' Y£S_NO _ PACKING
FOLLOWING C TO 9E "E RFORMED DURING EACH INSPECTION
OIL & GREASEM*tri eOT>pi»irt)
PUMP IS PRESENTLY DEVELOPING
RE PACK PUMP GREASE PUMP.
600.GPM:
176'
ELECTRICAL DATA WITH PUMP IN OPERATION £r."£r_.i_ AMPS.PUMP RUNS ________ HRS PER DAY UNDER NORMAL CONDITIONSREMARK'S 'Naif tny M>no"n«i
,TDH; SMUT-OFF HEAD.
._ _ VOLTS; _
122#FT.
PHASE
Pump performance down 16//t could wait another year, but is due for overhaul
INSPECTED BY. N. Mago/B. Guy
LNo-14
0000781
Nh.
II
x,
II
I
GT-I CURVE NO.FTi:.:)
I
SINGLE STAGS LABORATORYHEAD & HORSE POV/CR
THRUST "K" -9.0
GALLONS PER MINUTE
0000782
IIrir
&T-|
\ TF* Id Pc'MP hN
Tt.v.v
C
H
I
I
t -r . o'L
\ -551
rii
P
D/5CHELL
T300-T30IT~30?-'?£
7-
c H
ir-ff-
\
.-.2--&£C£3
.101 J)?L6fl/b
ice/mat, of
•
/,v
?——f
I'rintrd in t'.s A.
42B2000-0783
L,-* '-:-jsr
D ep
1 1 1 C-M3!"?£> L1-".1 nI.
—— \
th 1
3'
Depth 121*
nUl--^
-,L,1 -• Coner- j ta
SrisratxLer -?^
^_ . ————— Oririr.al
^J ijfBlack JhTFfrlc PipeWeiint 51 Ibs. per ft.Dyers Y.frou£ht Iron Pipe
: ——— — 12ti woided teo with 12^ standard coupling flar
*-" —— • Steel Drive Shoe
« ———— 12" Rock Hole
StatPufflpatjj
DrilDateor
Q&JZ
G-U:.!E
I A Y
Static Level 6* 6"GPM
Level
Driller" JAI3S KESSD*te Finishedl2-22-39
L.1YITE ROCK WELL ^2For
G-lA-a) TSUilK Vr-STERK TIAILIOAD CO.Battle Creek, Vichi;en
LAYME HOITHER;] GO, i»o.MISHAWAKA. INDIANA
Not drawn to scaleAll depths measured froa Ground Level] Al
OHAWN 0V
APPROVED 0V H.Kflith
DATE 1-Q-iO
HO.
375
0000784
6T-I
LAYNE-NORTHERN COMPANYM15HAWAKA, INDIANA
WELL LOG No.__2 _ . . . City _"/-J-J-E. C^l-K,.,
Owner "-^rp T3'T>! V.I.'I ." ".'.IT.7;^Y_.^^AIS
Location of Well __i:L.FI^AT_;»Oj1IUP_i:OUS3 __ ._„
_ __County .Township
State __.;;;;i
FORMATION FOUND
»i*Soft Sfjid ?oclc
Zrolcsn Srr.d T.ock
Sar.d Kosk
3 oft Shale
Sird r.oc!:
3hll-9
__J
. T. . _.j
. _ . . _ _
j
THICKNCUUK
STRATUM
30'
3P!
i5!_
ir
27*i1
-
DEPTH TOBOTTOM OFSTRATUM
30V
£01.75.'Q:I
53-1-.120'
1£U..
-
STATICWATERLtVCL
_9'5"
L-
- - - - -
TtMP.
-
REMARKS
i
— - — - - - - . _
Date Started 12-1JJ-39 . . . Finished. 12-22-J5 _ _ _ _DR1LLZR
(•KETCH OF LOCATION ON BACK OF THIS LOG SHEFT)
0000785
6,-r ^
Company
OWNER
C<TV
A Divtuon of Lavnt-W«»i»r'> Co.401 SOUTH OELORENZI AVENUE, P.O. BOX 466, MISHAWAKA. INDIANA 46544
WELL & PUMP INSPECTION REPORT
Grand Trunk Railroad __
409 West Jameson Street, Battle Creek, MI 49016
LOCATION Round HouseWELL NO * _ ____ _____ ______
DIA 16' QEPTH H6 SCREEN I D. None TYPE ROCk LENGTH Casing O£PTH TO TOP
>12-jg-39^-- • .-• PATgsQg CLgANtNG None Sterilized 1973_________
DATE INSPECTED 11-26-82_____ _ PERSON TO CONTACT___Doug Wllltamson 616-966-5233
CONTACT LOCATION
CAPACITY
ORIGINAL
A P T E P LASTCLEANING
PRESENT AT LINEPRESSURE
DATE
1939
1978
1982
STATIC
8'
9*
10'
GPW
1100
710
703
PUMPINGLEVEL
11*II1
12'
PRESSURE
W/testpump
76ft
40"
SPECIFICCAPAC'T V
366
355
351
AIRLINE LENGTH
TOTAL PUMP SETTING _ _, , ,.3 /* _____
PUMPMFG Layne 12" RKLC-4
TEST WILL BE COMPLETE THROUGH
TOPO*CH£CK ___ METER ___ FLANGE OR WWI*D SIZE _ §."
MOTOR HP __^2_. __ 'HASE 3 _ CYCLE 60 ^VOLTS 220/440 ______
NO 98 UA
PATED C A P A C I T Y
DATE INSTALLED
600 .GPM. 200' .TDH; OPERATING PRESSURE 54 to 580
1-3-40 DATESo* OVERHAUL 1951.56.new bowl 61. 66. 73. 78SIZiOF
IS CHECK VALVE LEAKING? rtS__ NOJt. DOCS STU^'ING BOX HAVE SPRING' VtS_NOS— PACKING _3/8_
TMg FOLLOWING IS TO BE PERFORMED Pl/RiNG EACH
CHANGE MOTOR OIL 4 GREASE _________*_____i«rh ^h»n complf IKII
REPACK PUMP, GREASE PUMP.
PUMP IS PRESENTLY DEVELOPING. 600 .GPM:
ELECTRICAL DATA WITH PUMP IN OPERATION J9-A1-&3 AMPS:PUMP RUNS ______ HRS PE» DAY UNDER NORMAL CONDITIONSREMARKS INott i"v •b'WffWl condttion) ____________^___
132* TOH: SHUT.QFFMJAO 65// 160*
__... VOLTS. 1 PHASE
FT.
Note - 360 drop in pressure - see attached curve
1978 report Indicates discharge column should be replaced at next overhaul
INSPECTED BY. N. Maao/B. Guv
LNo-14
000078G
CURVE NO.rTlE.D
»*IMTCO iri u a
0000787
NORTHERN COMPANY
PUMP INSTAIUTION REPORTFiloNo.9_Bl_L A__.___
Soloi Ordor No. .MS_Oi5Q.
Pump Mfg. T_ayn»____
Do,. ^-..-.
Wolt No.
Owner —£r-aod Trunk
locollon of w«ll
MOTOR: Moko _____
City..Battle_Crjeek_ <tat« Michigan
Typo _CE1I Fromo _932. . _ Sor. No. 192182
Votti 220/640 t(n. Vottogo RPM
Wat Motor Tokon lo a repair shop at thii timo?GEARDRIVE: Moho_____ _________
ENGINE: MoU
rw
REMARKS
1-7S i
_ Serial No. __ _ _ _ _ _ _ _
_ Modol ______________
Gtor Ratio _
Serial No __
PUMP HEAP Typo Old T.ayne Head
Oiichorgo Pipe Site8"
_s>pve——s5?;:.r..-«Flonged __, Thr*oded _
Seporoit Bolt Plotet L YeS ___ _ _ _
Htod Sho* tonglh &*"____
Dio. JJj.1!.—_ Coupled D-|ow ___ ~~~
MOTOR SHAFT; Dia. __IV Length __
-——• P;~M Thread Silt in Hood .HjVeywoy .I/.?___
PUMP BOWl typo
Dio. 12" No. ol S»oge*
Shoft. SS length
COLUMN pipo Sirt _6J1_
.__ Coup'*d
Oil Lube . __
Shaft Siio JL^
tubing Site _
_ Wottr lubo X___
__ SS JLerCS_. .
__ SH _ or Br __
SUCTION PIPE
length m
6"
ol
fhreod* on BoNoml _.
Rubbor Bumpor?
W»tl
kttom Pioco NOTe . At| ^ooiuromonHlong from top of pump foundation. INFORMATION
115 Static _ 9' Tubularlypo: Rock __Iniido Dio. ____ ____ Otplh-
Air lino longth __DPJie__
Typo Airllno ___________ Plailic _____. .Copper Tubing ____ Stool Plpo _
Stropped to Column?
PUMPING TEST • Pumped L^——— _.__ GPMat _ _______Ft. Pumping level
with __3(E_______ Ibl. di»tKorgt preiiuro after __________________ hour*
Pump to Wo I It Outiido _ __ .__ Instdo _______ Slto THD.O.
Itnglh of Potoi
initructioni _.
Po-«r
PULIING INSTRUCTIONS
Regular ————————— — Spociot oquipmont or putting
|nitall«r __ fj f Ma o. ___.__ .
LSiOGOO
: "??.-'•'• ,?~t-~*±''\
v
f-epth / I1
Ground L*v»l
"* . .V c V r, I'uS, o: ;"
1^- "Black Ste11 ———— Weight Sllbs.
( •!• l^'TD ^
* ——— Steel Drive Sr
« ——— V'i " Rock Hoi
Not, drawn to scaleAll depths measured frcu Ground Level
Static Level 6*Pumped 1100 eraatil1 puapisj Level
Driller J» K^cr A ;'.Date Finished I --1-'.-;;
UYI::=: ROCX WELLForC;:/:.L- ?;'.T;; v.ur...':
/" '
LAY9E NORTHER?] CO, i;!8,MIGHAWAKA. INDIANA
DHAWN 0V
ovli .Ji '
' 0000790
LAYNE-NORTHERN COMPANYMISHAWAKA. INDIANA
S-i Ic" Kock VV/ELL LOG No._l_ . Ci ty___ rttle cr*ok_ .County _C.rI
•~Township _'. '
.SectionState_llic;.
Location of Well ;:i:3
FORMATION FOUND
Fill . . .. _ . .
r^rty Sn^d
Send
Dirty £*p4 -
Shn]c - .^
-3ai;d-Rock ——— .......
Stpd Rock
$?.r.d Kock
S«r^ Pnrk
Sn-irf '^"V
Thr] fl
-Str.d-Hoofc —————————————
F*nnl«
THICK NtSSOF
STRATUM
il.-..-.-
1L
.12 ._
g-7 — ———
-2--a
-76. ._J,
M*t* — ——
-fc ————
J,
DEPTH TOBOTTOM OFSTRATUM
-U -18 .
*o
YQ— : ?7———
Ui- .
-57 — 1h-63— ,L£?_
1OP
nl?
11
STATICWATERUVLt
. ,. .,
«iI ————
TtAIP. REMARKS
Shulfl I.'4^e4_
5hAl«
Date Started __ J*' Finished 18»18*59DRILLER
<5KFTCH Of LOCATION ON RACK Of THIS LOG SHEET)
OV00791
SHEET. .OF
Environmental Data Inc.CLIENT Grand Trunk Western Railroad
•ig PROJECT NO., 20129
22, 1982
PERMIT NO.
PROJECT
LOCATION Battlf Creek Yard
Stearns - Acker AD II
TECHNICIAN G.S.
BORING NO. , l________SURFACE ELEV. Casing: 833.47
HOLE PLUGGED WITH Natural soils and bentonite
BORING LOCATION
>r
\<,.«*><
KWP~EET
MOM
0.01.01.77.0
13.5
»-. •f
to
1.01.77.0
13.516.0
Sand and gravel
NO. ILOW8 LAST 12 IN
NO. KOWS 3rd « IN
NO. BlOWS 2nd « IN
NO- BLOWS 1st 0 INOerTM Of TEST
Wood - old R.R. tiesSand and cinders, very soft, black, oilySand, brown, fineSand, fine, gray, wet
PECC0<2'4'6'81
10'12'
1L
—
—
—
—
VER150^25%50%75%75%70%70%
60%
——
hit
~_
sto
——
ie
GROUNDWATER
ENCOUNTERED AT
AFTER COMPLETION
AFTER I/2 HR8 -
BORING CAVE IN ——
13.7
13.5
.FT.
.FT.
.FT.
.FT.
WELL DATA
CASING USED
Screen set @
TVPC galvanized
QlAUFTgR Ik"
*Pumps some silt LENGTH 16>0"
HT. ABOVE GROUND-
0000792
usesELEVATION
833 «n
sn. v
013 5
H-r
if.S
W T
Ji.O'
•CAP WITH LOCK
> • ,:X
GROUND SURFACE
a" MOLE
CASING
NATIVE SOILS AND BENTONlTE
JOHNSON "WATER MARK SURER"STAINLESS STEEL DRIVE POINT7- SLOT, 34" OPENINGS
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No.J__
AUG. IMS
0000793
SHEET. .OF
Environmental Data Inc.CLIENT Grand Trunk Western Railroad
20129-87PROJECT NO—
DATE August 12. 1982
PERMIT NO.
PROJECT .
LOCATION Battle Creek
pniiipucMT Stearns Acker AD II
TECHNICIAN G.S.
BORING NO- _liSURFACE ELEV. Casing: 834. ifl
HOLE PLUGGED WITH Natural.soils and bentonite
BORING LOCATION
f<*<*
SWPFEET
«ROM
U.O
8.015.0
119.0
- ———
^
TO
8.015.0
19.028.0
Rubble
NO. BLOWS LAST 12 IN
NO. SLOWS 3rd 6 IN.
NO. BLOWS 2nd 6 IN
NO BLOWS 1ft 6 IN
DCPTM C* TEST
Sand - fine, brownSand - fine to medium, occ stoneSand and gravel
Pumped for 35 minutes 9 3H gpm « 122 gallons
——
———
GROUNDWATER
ENCOUNTERED AT 15'
AFTER COMPLETION
AFTER ———— MRS -
BORING CAVE IN ——
FT.
.FT.
.FT.
.FT.
WELL DATA
CASING USED TYPE galvanized
PIAUFTCP 2"
LENGTH 26*s'SCREENA SLOT SIZE ot
HT. ABOVE GROUND 3-°'
usesELEVATION •CAP WITH LOCK
931.1
e-e.z
7f/-
-787 7
2
-\i
1
i
I
j>.:>
Ji
f t1 ——— '
c
0
^r—W.T
0'
£
>.^i '•4
•*.
> *
;';i
»*
.'*
XMM* *
rn
! !t iV ** 1• «
i*
kt>
>*.,*i*,t*<• *»'o>, «
'W
••
k *,
r^
GROUND $1
— — •" MOLC
-- —— 2" CALV. CA3
^ — NATIVE SOIL
———— JOHNSON "*STAINLESS7 - SLOT , 4
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERNWELL Ma- / ••••
AUG. IMS
0000795
Environmental Dafa Inc.
SHEET—L_ OF
CLIENT Grand Trunk Western Railroad
PROJECT Mn 20129-87_________
DATE August 12, 1982________
PERMIT NO. - f ?.? ••* 'i.
PROJECT .
LOCATION Battle Creek, yard
EQUIPMENT. Acker AD II
TECHNICIAN G.S.
BORING NO. TW *1B
SURFACE ELEV. Casing: 834.58
HOLE PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
11I\
i
BORINGDEPTH
FEETFROM
0.0
8.015.020.033.0
r 41.5
TO
8.015.020.033.041.5
8-17-«
Rubble
NO. BLOWS LAST 12 IN.
NO BLOWS 3rd ft IN.
NO. BLOWS 2nd ft IN
NO BLOWS tit ft IN
DEPTH Of TEST
Sand - fine, brownSand - fine to medium occ cobbleSand and gravelSand - fine to medium, very clayeyClay
2 Pumped 9 19 gpm for 10 minutes
381318232833
41S
9769
1136
26
569
11643
26
nil5
1213854
21
—
roi1121241497
47
GROUNDWATER
ENCOUNTERED AT 15
AFTER COMPLETION
AFTER ———— MRS -
BORING CAVE IN ——
FT.
.FT.
.FT.
.FT.
WELL DATA
CASING USED TYPE galvanized
PIAUPTPP 2"
LENGTH 36>0"
0000795SCREEN LENGTH stainlessA SLOT SIZE ?"YflS" 7 S1 Ot
HT. ABOVE GROUND 3'Q"
usesELEVATIONB^ 5-e
•CAP WtTM LOCK
tf'fi.Z
•79** 6
0
W.T
33
fc.'
l.O't
.*
t*'
GffOUNO SURFACE
8 HOLE
Z"GALV. CASING
NATIVE SOILS AND 8ENTONITE
JOHNSON"WATE* MARK SUPE*"STAINLESS STEEL DRIVE POINT1 . SLOT, 42" OPENINGS
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL Mo- t'&
AUG. IMS
0000797
SHEET OF
Environmental Data Inc.CLIENT Grand Trunk Western Railroad
PROJECT NO.. 20129-87
DATE A"gust 9, 198&
PERMIT NO 1402-822-413
PROJECT On-Site Hydro£eoloeical Study
LOCATION ________Battle Creek____
EQUIPMENT.
TECHNICIAN _
BORING NO.
Klienfelt Cyclone - R300
G.S.
Well *1C
SURFACE ELEV Casing: 833.64
HOLE PLUGGED WITH Bentonite and Casing
BORING LOCATION
Seated into rock
STOPFEET
PROM
0.0
-
8.012.015.0
W-°41.043.546.053.054.584
r 9 7
TO
_
8.012.015.035.041.043.5
46.053.054.584
97102
6 5/8 bit to 88'3 7/8 bit to 88 '-100'
Fill * ballast * wood oily smell
NO. HOWS LAST 12 IN
NO. BLOWS 3rd 6 IN.
NO. BLOWS 2nd 6 INNO. BLOWS Iff fl INDerrn of TBST
Lost circulation from 4* * 6'Sand - fine, silty, clayeySand cemented and cinders oily smellGravel and Sand oily smellSand - coarse, sharp, oc 1" stoneClay - gray, sandy firmClay - gray, very sandy, softClay - gray, very firmClay - gray, firm, sandyClay - gray, sandy with pieces of weathered sandstoneSandstone, hardShale
—
—
107 no ShaleENCOUNTERED AT
AFTER COMPLETION ——
AFTER 1/4 HRS ——il
BORING CAVE IN —————
FT.
.FT.
.FT.
.Ft
WELL DATA
CASING USED:
Rock drilled with airand water injection
TVPC Black Steel
DIAMETERLENGTHSCREEN LENGTHA SLOT SIZE —— &Z&
000079S HT ABOVE GROUND.
usesELEVATION
fill-
8/8 -7
KDROCX TOT
722-'
1 I
// '
2
iI/.$
WITH LOCK
%
sunncc
« %"HOLE CONSTRUCTED 9YHYDRAULIC ROTARY
PL/-"*.4" «*t* . STEEL CASING
NATIVE SOILS AND UNTQNITE
Ii—«CAT CTMCNT GROUT
3 T/«" OPtM MOLE CONSTRUCTED8t AIR ROTARY
DATE CONSTRUCTED
INC.
GRAND TRUNK WESTERN
WELL Mo •'-
0000799
Environmental Data Inc.
SHEET————OF ————
CLIENT Grand Trunk Western Railroad
PROJECT NO.-___?0129___________
OATE August 13, 1982_________
Battle Creek yard
IIIIPMPMT Stearns Acker AD II
NO. TW #2
J ;E ELEV. Casing: 836.43
"M.E PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
\
w
3RINGEPTHFEETM
^
333
1
MiT
—— i
w
Mr
TO
0.56.5
15.022.0
^x-*1 '""-
Sand - fine, black, oily
NO. BLOWS LAST 12 IN
NO BLOWS 3rd 6 IN
NO. BLOWS 2nd • IN
NO. BLOWS 1st 6 IN.
DEPTH OF T6ST
Sand - fine to medium, brownSand - Fine to medium, gravely. binder, brownSand - medium to coarse and gravel, some fines
Pumped for 90 minutes @ 1.7 gpm « 150 gallons*
———
iROUNOWATER
ENCOUNTERED AT ——ILL
t . - -^t
FT.
WELL DATA
CASING USED
AFTER COMPLETION
AFTER ____ HRS -
BORING CAVE IN ——
.FT.
TVPC galvanized
2" (.*•*':!
.FT. LENGTH 21'°"
.FT.stainless • ' V f
HT. ABOVE GROUND
0000500
usesELEVATION
"3
t'f.
61?
CAP WITH LOCK
T T
\s
GROUND SURFACE
8" HOLE
CASING
NATIVE SOILS AND BENTONlTE
JOHNSON "WATER MARK SUPER"STAINLESS STEEL DRIVE POINT7- SLOT, <n" OPENINGS
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No. *__
AUC- 1963 20225
000080J
SHEET. .or
Environmental Data Inc.CLIENT Grand Trunk Western Railroad
PROJECT NO-_____20129-87______
DATE ____August 12, 1982____'
PERMIT NO.
'ROJECT .
.OCATION Battle Creek yard
EQUIPMENT.
BORING NO- TW #2A
3UW*CE ELEV. Casing: 836.24
SOLE PLUGGED WITH Natural soils and bentonite
BORING LOCATION
SWP_FPET __. TO
.0
.§
.5H
5
0.56.5
15.037.540.0
•\-x
W————
Sand - fine, black. o11v
NO. ilOWS LAST 12 IN.
NO. BLOWS 3rd 6 IN
NO BLOWS 2nd 6 IN
NO BLOWS 1tt 6 IN
DEPTH OF TEST
Sand - fine to medium, hrnwn
Sand - fine to medium, binder, brownSand - medium to coarse and gravel, some finesClay - gray, sandy, moist
Well developed and pumped 9 10 gpm for 45 minutes * 450 gal.
3.5
? -5
131*18*f23'j28'f32l$38^
24
10139191230
26
132212262636
37
17
1810393240
5
13304022655876
3ROUNDWATER
ENCOUNTERED AT 14.5
AFTER COMPLETION
AFTER ____ HRS —
BORING CAVE IN __
FT.
.FT.
,FT.
.FT.
WELL DATA
CASING USED TVPC galvanized
2"
36 '0"LENGTHSCREEN LENGTH.StainlessA SLOT SIZE 2 x48"
ABOVE
r
usesELEVATION
83^24
goc Z
33
•CAP WITH LOCK
/*.
W.T
t*\
4.
:x
ii.O'
_L
•i%\
GROUND SURFACE
8" HOLE
2 GALV. CASING
NATIVE SOILS AND BENTON1TE
JOHNSON"#ATE* MARK SUPER 'STAINLESS STEEL DRIVE POINT10- SLOT, «i" OPENINGS
DATE CONSTRUCTED •-••*•••!
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No 2-A
AUG. (963 20223
0000803
SHEET. .OF
Environmental Data Inc.CLIENT Grand Trunk Western Railroad
PROJECT NO___12ii2———————————
OATE _____August 16. 1982______
PERMIT NO
PROJECT .
LOCATION Bdttle Creek yard
EQUIPMENT Stearns - Acker AD II
G.S.TECHNICIAN
BORING NO. TW #3
SURFACE ELEV. Casing: 834.94
HOLE PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
'' 5.-
?PHGFEET
PROM
0.01.0
11.016.0
"^
TO
1.011.016.021.0
Sand - black. oMv
NO ILOWS LAST 12 INNO. BLOWS 3rd 6 IN
NO. BLOWS 2nd 8 IN
NO. BLOWS lit 6 IN
Of^TM Of TEST
Sand - fine to medium brownSand - fine to s1Uy wetSand and gravel strong fuel oil odor
Pumped 9 0.4 gpm for 90 minutes 36Pumped 3 0.9 gpm for 60 minutes 54
90 gallons
———
——
GROUNDWATER
ENCOUNTERED AT 14
AFTER COMPLETION
AFTER ———— MRS -
BORING CAVE IN ——
,FT.
.FT.
,FT.
.FT.
WELL DATA
CASING USED TYPE
DIAMETER
LENGTHSCREEN LENGIH-ftlt 7 e,ntft SLOT SIZE z y48 7 slot
HT. ABOVE GROUND 3.0'
0000804
usesELEVATION CA* WITH LOCK
P3J.9
.:
— '
/
1'
fii:
1
?'
F>
4 '
I
i
9
i*~*P ——
w.T.
\.0'
f
•« i
«
> \
""*;•;<
*w>*.;:i:
y*•*.'i » *M
3
••:
••«
£. .
:"-r
k;
»N».•o*,*«
f'»•«'*,*•.*
» -
GROUND SI
-^— 9 " MOLE
*- — TGALV, CA
S* —— NATIVE SOU
— -JOHNSON "vSTAINLESS7 - SLOT , 4
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL M« 3
AUG. (903
0000805
SHEET. .OF
Environmental Data Inc.CLIENT Grand Trunk Western Rai l road
PROJECT NO.___J2H9__________
PATE August 13, 1982________
PERMIT NO. _
oROJECT .wLOCATION Battle Creek yard
Stearns - Acker AD II
TECHNICIAN G -S -•»"
BORING NO. Tw *3A
ELEV, Casing: 834.74
HOLE PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
V
BORINGDEPTH
FEET
F^M
wo.oi 1.0Ln.o! 16.0**B.O,29 ^^
w
TO
1.0
11.016.028.029.032.0
8-16-8
NO BLOWS LAST 12 IN
NO. BLOWS 3rd « IN.
NO. BLOWS 2nd • IN.NO. BLOWS 1« • IN
oerrM Q* TESTSand - black, oilySand - fine to medium, brownSand - fine to s1lty» wetSand and gravel *fuel oil - strong odor*Sand - fine, gray, clayeyClay blue, very sandy, very firm
2 Pumped for 90 minutes 9 0.4 gpm • 36Pumped for 90 minutes 9 4.0 awn • 360
396
3
8
13
182328
31
——
354
15.511
39
366
11.517
40
4
67
252
32
—
7121336
"49"
——
——
——
GROUNOWATER
ENCOUNTERED AT 14'
AFTER COMPLETION
AFTER ———— HRS -
BORING CAVE IN ——
,FT.
.FT.
.FT.
.FT.
WELL DATA
CASING USED TYPE galvanizedDIAMETER 2"
LENGTH 27<
SCREENA SLOT SIZEHT. ABOVE GROUND 3-°'
0000806
usesELEVATION •CAP WITH LOCK
fl/fl '
603.7
1t
•
2
i
.
•
,
/J
1
^^v
a-
\ '
1
i
. 7
iL^ —
W.T
\.0'\
'":*
it ^vV.s*
•*,> *
:i;
••*»,• »
k *,t »
••*
» V
TT
• < I
i« '
E !•• 1
•**•
Si.
> "x• *
k''
JS">
:Ar*
$
^ *
»•»';
*-J
*»'!
«-
GROUND S
--—— 8 " HOLE
^- —— 2"GALV. CA
^ —— NATIVE SOU
1 ———— "JOHNSON "\STAINLESS7 - SLOT , <
DATE CONSTRUCTED
ENVlftONMCNTAL DATA INC.
GRAND TRUNK WESTERN
WELL No 3-«
AUG. 1963 20Z25
0000807
Environmental Data Inc.
SHEET——OF ———CLIENT Grand Trunk Western Railroad
PROJECT NO ____20129__________
DATE August 16, 1982________
PERMIT NO.
PROJECT .
LOCATION Battle Creek yard
Stearns - Acker AD II
TECHNICIAN G.S.
I BORING NO. TW 14
SURFACE ELEV Casing: 835,0*
HOLE PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
. iid'
»WPFEET
FROM
0.0
i 5.0
j
TO
5.021.0
Sand - fine to medium^ brown
NO BLOWS LAST 12 IN
NO BLOWS 3rd 6 IN
NO BLOWS 2nd e IN
NO BLOWS 1st 6 INDEPTH OF TEST
Sand - medium to fine, brown, binder
Pumped 9 17 gpm for 10 minutes » 170 gallons
——
GROUNDWATER
ENCOUNTERED AT 14.5
AFTER COMPLETION
AFTER ____ HRS -
BORING CAVE IN __
FT.
.FT.
-FT.
.FT.
WELL DATA
CASING USED TYPE galvanized
PIAUCTEP 2"
LENGTH __2O1_SCREEN LENGTH* SLOT SIZE JL
7 slotHT. ABOVE GROUND ———
000080S
usesELEVATION CAP WITH LOCK
17
t.Q
W.T.
ii.O'
_L
-
•«
GROUND SURFACE
•" HOLE
2" GALV. CASING
NATIVE SOILS ANO KNTONITE
JOHNSON "WATER MARK SUPER"STAINLESS STEEL DRIVE POINT7 - SLOT, 41" OPENINGS
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No 4
AUG. tM3 ZOZ25
000080S
Environmental Data Inc.
SHEET————OF
CLIENT Grand Trunk Western Railroad
PROJECT MO 20129___________
August 16, 1982
PERMIT NO.
PROJECT .
LOCATION Battle Creekyard
Stearns - Acker AD II
TECHNICIAN G.S.
BORING NO. TW #4A
SURFACE ELEV. Casing: $35.12
W>LE PLUGGED WITH Natural soils and bentonlte
BORING LOCATION
RHRSBrtOM
w .05.0
Jl.O30.0
,J3.047 _,• ^x
INGTH•T• 1
TO
5.021.0
30.043.047.049.5
8-16-88-17-8
Sand - fine to medium, brownSand - medium to fine, brown, binderSand - medium to fine. occ. lens of brown claiSand and gravelSilt - grayClay - gray, sllty
1 Pumped for 30 minutes 9 0.4 gpm « 12 gallonsI Pumped for 3 hours • 1.0 gpm « 180 gallon;
192 gallon;
NO. SLOWS LAST 1
NO. SLOWS 3rd 6
NO BLOWS 2nd 6
DEPTH OF TEST
/
2 IN
N.
N.
.
?
81?182328333843
4$
.15
76109
211«.
Ie6
ID9
1210111
12
?771119168153
13
513131119281826
4
25
GROUNDWATER
ENCOUNTERED AT 14.5
AFTER COMPLETION
AFTER ———— HRS -
BORING CAVE IN ——
.FT.
.FT.
.FT.
.FT.
WELL DATA
CASING USED TYPE galvanized
2"
LENGTH
7 SHT. ABOVE GROUND
usesELEVATION
23*. '2
853.1
CAR WTH LOCK
13
— 1
3
\
4
1
I<1 — I
/ v
1
.
7].
ft'
I
I
*T
I0'
f
"'.'
'/•*
,*"i '9
V-%*
•* »l
*•'
^;
'*'.;
i • *i ^i
!S
:;
•»iBU. A
" •»'
'••*
V"'
V**.
^
\'••'
;••
y\
^
GROUND Si
—^-8' HOLE
^- — 2"GALV CA
^~ —— NATIVE SOU
-*~ —— JOHNSON "<STAINLESST . SLOT . <
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL NO. VA
AUG. 1903 202297
0000821
Environmental Data Inc.'/ PM
SHEET————OF
CLIENT Grand Trunk Western Railroad
PROJECT NO. 20225______________
DATE_________________________
PERMIT NO. 1402-822-413__________
'PROJECT On-S1te Hvdrooeloqical Study
LOCATION Calhoun County. Emmet TownshipStearns Drilling, Hollow Stem AugerKleinfelt & Sons. Hydraulic rotary
'TECHNICIAN Pierce & Swansor.
BORING NO. 5 and 5A
S«3ftFACE ELEV.
VHOLE PLUGGED WITH cement grout, hantonlta
BORING LOCATION
drift wells)bedrock)
Sec. 5 T25, R7W(Refer to location map
Well 5A is 5 ft. north of 5.
and/or cuttings. NO. BLOWS LAST 12 IN
•M3
c *0
^6
i^_^
w
20
25
TO
6
11
20
25
30
NO. BLOWS 3rd 6 IN
NO. BLOWS 2nd fl IN
NO. BLOWS iff 6 INDEPTH OF TEST
Sand, fine to coarse: nravel. fine to med. and clav brownsilty
as above, but black, some wood chips
Gravel, fine well sorted, some wood chips (base of fillat 15 feet?) Split spoon sanple at 20 feet: sand, greyv fine to ned, some pebbles (to IV).
Gravel, fine to med. black shale chins.
Gravel tine; and sand, coarse, faint fuel oil odorsplit samples at 30 feet: sand, fine to coarse and aravel
_^_
i
——
GROUNDWATER f1ne to med
ENCOUNTERED AT ————
AFTER COMPLETION
AFTER ____ HRS
BORING CAVE IN
.FT.
.FT.
.FT.
.FT
WELL DATA Refer to DiagramCASING USED: TYPE ——
DIAMETER
LENGTHSCREEN LENGTHA SLOT SIZE ——
HT. ABOVE GROUND
0000812
jng No. 5A Client
Project No
Date
No. Blows last 12"
BoringDepth•>mw
30
45
^
*6~
60'w
70
'1w
-^75
35
J-
94
To
45
50
60
70
71
75
85
90
94
97
103
No. Blows 3rd 6"No. Blows 2nd 6"No. Blows 1st 6"Depth of T«tt
Gravel, fine to coarse. More distinct fuel oil odor.Split spoon, sample at 40 feet: Gravel, fine to coarse, andsand, fine to coarse, silty, clayey.
Gravel, fine to med. with some fine to coarse sand.Fuel oil odor. Split spoon sample at 49 feet: Gravel fineto med. and sand, med to coarse, some silt and clay.
As above, but no odor. Occassional sandstone fragment.
Gravel, sandv. siltv. clavev. Grades to .fine to coarsegravel at 70 feet. Some thin clay lenses.
Clay, grey, plastic some sand and silt.^
Clay, grey with lame oebbles and interbedded aravel. fineto med.
Gravel, fine to med. sone sand, med to coarse, Intebeddded
clay, grey.
Clay grey, somewhat sandy and silty.
Gravel. Interbedded with clay as above. Clav 1s more sandv
Clay.JIfflht OttV stlckv. elastic, hard drillino.
Sandstone, grey fine to very fine, siltv. clavev. someblack shale fragments.
——
0000813
~^f
joring No. 5A Client
Project No
Date
BoringDepth
^6m
103
'23^^
135
V A
^
w
w
^w
>s^
V- ~
To
123
135
140
>
No. Blows last 12"No. Blows 3rd 6"No. Blows 2nd 6"No. Blows 1st 6"Depth of TǤt
Shale, arev. oilv film on mud pit
Sandstone. grey, v .v . fine to fine, sllty. clayey.
Shale, dark grey, slightly sandy (v. fine to fine)
^
—
0000814
usesELEVATION x^CAP WITH LOCK
i
,
gn- 3, _^_
?
-7*3-9 1
J
3
7%>.c
k J
J
_
irL
.9'
-
1
^
4nr
•• -i
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\'\k\' . •t •
V.*,
•*•!
rc
•<» *.'.'k •i »:Xj^*\\v:
I.0'
fITS
a
PH
si\>
GROUND SURFACE* «• •*x•,'••k'1
* '
»**• ^. *!sj
* *,
;"jj&*;,K •^ %
• •*
^Pl
t'J*.;
-* — «" MOLE
^- —— -2"GAUV. CASING
^——NATIVE SOILS AND BENTONITE
^ —— VOLCLAY 8ENTONITE PELLETSI 3 TO 5 fEET)
r^- — — JOHNSON "WATER MARK SUPER"STAINLESS STEEL DRIVE ROiNT10- SLOT, 36" OPENINGS
DATP CONSTRUCTED J
GRAND TRUNK WESTERN
WELL No 5
AUG. IMS 20225 ^
'
r
\•|i
ii\i
•
ti
i*
i
t*
»
»it;*
,
0000815
rusesELEVATION
w fi/63
BEDROCK TOP IH-
\*>
V
ENVIRONMENTAL DATA INC.
WITH LOCK
/2"
-
/^
1
1 !
W
i
i
*
•
9.7
?^ NMP'^^^
W Tl
r.z
fT
" .1
« *
V* •<
-N» *V
1 •'"•i
t*.,
\*
1*^
*«•*
GROUND SURFACE
'• ,
i,» **'*t
i V
»t*fc i
*%
*Ij
iv
>5•Ta
^ —— ft 3/4" HOLE CONST*HYDRAULIC ROTARY
- —— - 4' GALV. STEEL GAS
^ — NATIVE SOILS AND
^ —— NEAT CEMENT GROl
_^. -3 T/8" OPEN HOLE <^ BY AIR ROTARY
7
GRAND TRUNK WESTERN
WELL Mfl f^
AUG. I9S9 20229
w 0000816
f ;ii
Environmental Data Inc.
SHEET————OF
CLIENT___Grand Trunk Western Railroad
PROJECT NO. .20225——————————————
DATE ________________________
PERMIT NO. 1402-822*413___________
On*S1te Hydroqeloolcal Study
• LOCATION Calhoun County. Enaet Township; Stearns Drilling, Hollow Stem AugertEQUIPMENT Kleinfelt & Sons' ttvdrauUr rotary
'KHNICIAN Pierce & Swanson_____________w
BORING NO. 6______________
: Si 'ACE ELEV. ———————————————————————
HOLE PLUGGED WITH cement grout T h»ntnm'»»
BORING LOCATION
drift wells)[bedrock)
Sec. 5 T2S, R7W(Refer to location mao
^ and/ or cuttings.
w*f]
5
^
ij .
•^0
30
^
TO
5
10
16
20
30
50
NO BLOWS LAST 12 IN
NO BLOWS 3rd 6 IN
NO BLOWS 2nd • IN
NO BLOWS tn « INDEPTH OF TEST
Gravel, fine to med.. sandv. very sllty. clayev.
Clav. brown, aravellv. sandv. wood.
Clay, black, sandy, aravellv. wood Chios
Gravel, fine to ned.. sandy, slltv. somewhat clavev.
Sand, fine to coarse, some fine aravel. some silt.
Gravel, f1n*f turned .^ and sand, med. to coarse; some fineto very finer **nd.
;
———
I
OROUNOWATER
ENCOUNTERED AT
AFTER COMPLETION
AFTER ____ HRS _
BORING CAVE IN __
FT.
.FT.
.FT.
.FT.
WELL DATA Refer to DiagramCASING USED: TYPE ——
DIAMETER
LENGTHSCREEN LENGTH& SLOT SIZE ——
HT. ABOVE GROUND
0000817
coring No. Client
Project No
Date
^
BoringDepth
From-+;- ~"' 50hi
55•*-•
^I
^
75
f -0
90
95
^
105
133
136
To
55
60
75
85
90
95
105
133
136
140
No. Blows last 12"No. Blows 3rd 6"No. Blows 2nd 6"No. Blows 1st 6"Depth of Test
iiSana, fine to coarse; and gravel fine to med; some fineto v fine sand.
Gravel, fine to v. coarse (1/2"); and sand, med; some v. 9fine sand and silt. 1
Gravel, med. to coarse, sandy, silty » clayey. Gravel becomes Hfiner with depth. |
Clay, grey, sand, silty, gravelly, Gravel decreases withdepth.
-Clay, grey, v. sandy; sandstone fragments (topof "rock"?) |
Clay, grey, tough, sticky, plastic, somewhat sandy.
Clav. orev. sandv.siltv: Freauent sandstone fraoments, fineto very fine grained.
•
Sandstone, grey, fine to v, fine grained, silty.
Shale, dark arev. somewhat slltv.
Sandstone, grey, fine to v. fine, silty,
——
0000818
ELEVATION WITH LOCK
TV3SCDROCH
-722-0
46-7
17.'
A
/'
.
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GROUND SURFACEi *
|v
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i X
;li
%y^
^ —— « 3/4" HOLE CONSTBHYDRAULIC ROTARY
- —— — 4"GALV. STEEL CA*I
^^— . NATIVE SOILS AND
^ —— NEAT CEMENT GROU
^ —— 3 W OREN HOLE CX^ §Y AIR ROTARY
DATE
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL NO. 6_
*U6' *"* 29929
0000819
Environmental Data Inc.
SHEET.
CLIENT
.OF
Grand Trunk Western Railroad
PROJECT NO .20225_____________.———.
DATE __________________________
PERMIT NO. 1402-822-413___________
PROJECT On-SItt Hydroqeloqlcal Study
LOCATION Calhoun County. Emmet TownshipStearns Drilling, Hollow Stem Auger
EQU I PME NT Kleinfelt & Sons. Hydraulic rotary
^ TECHNICIAN
BORING NO. 7 and 7A
ELEV.
HOLE PLUGGED WITH cement grout, hpntnnit.»
BORING LOCATION
drift wells)bedrock)
Sec. 5 T25, R7W(Refer to location map
Well 7 is 11.4 ft, north of 7A
and/or cuttings.
M3
1OM
0
5
A
TO
5
9
29
^- !
29 46
(
i1 ——
Gravel, fine to med: and sand, fine to coarse.
NO BLOWS LAST 12 IN
NO. BLOWS 3rd 6 IN.
NO. BLOWS 2nd 6 IN
NO BLOWS 1W 6 IN
DEPTH OP TEST
siUv.
Clay, brown and black, sandy, gravelly.
Graveli fine to med.- and sand, fine to coarse,silty.
somewhat
as above, but gravel becoming coarser and s*nd more abundant.Split spoon sample at 29 feet: Sand, fine to coarse andgravel fine to coarse some $11t. Split sooon sample at 40feet: Gravel fine to med.. sandy, fine to med.Split spoon sample at 45 feet: As above, but gravel rangesto coarse.
ii
—
i
K
GROUNDWATER
ENCOUNTERED AT
AFTER COMPLETION
AFTER ———— MRS _
BORING CAVE IN __
,FT.
.FT.
.FT.
.FT
WELL DATA Refer to DiagramCASING USED: TYPE ——
DIAMETER
LENGTHSCREEN LENGTHft SLOT SIZE ——
HT. ABOVE GROUND
0000820
^' Boring No. Client
Project No.
Date
BoringDepth
-from
46
f—
^mf
101
115•~f
\ ——, v^
•w
Y"
*s
To
55
101
115
120
No. Blows last 12"No. Blows 3rd 6"No. Blows 2nd 6"No. Blows 1st 6"Depth of T«st
Clay, grey, very sandy, gravelly (fine to med); fragmentsof arey shale and sandstone, somewhat clastic.Split spoon sample at 47.5 feet: Clay, qrev. hard, siltvocc. small (1/8") pebble.
Sandstone, grey, fine to very fine, s1Hy, clayey,(Interval from 61-75 contains gravel?)
Shale, dark grey.
Sandstone, grey, fine to v. fine grained
x-
• •W —
0000821
usesELEVATION WITH LOCK
?. 3
I
98
W.T.
3V.
' \*»
tS.J!
i.O't_
S.f
GMOUNO
8 HOLE
Z" GALV. CASING
NATIVE SOILS AND BCNTONlTE
VOLCLAY BENTONITC{3 TO S FEET
JOHNSON "WATER MARKSTAINLESS STEEL DRIVE POINT10. SLOT, 36" OPENINGS
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No •'
AUG. 1903 20229
0000822
ELEVATIOK.
171BEDROCK TOT
7S2.Q
* W
>^
WITH LOCK
*
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,1
1 ' 1:
^^
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i 1
17
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•*».*,Y*
^
GROUND SURFACE
*«^-
>* \*>'* 'k *,•:**•, •,'*i•->
%f^f
. —— « 3/«" MOtE CONST!HYDRAULIC ROTARY
———— 4" G ALV . STEEL CAS
^ — NATIVE SOILS AND
^^— NEAT CEMENT GROl
^ —— 3 7/8" OPEN HOLEX^ BY AIR NOTARY
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL MQ "••"
'*>3
0000823
Environmental Data Inc.
SHEET.
CLIENT
.OF
Grand Trunk Western Railroad
PROJECT NO. 20225_____________
DATE __________________________
PERMIT NO. 1402-822-413___________
PROJECT On-Site Hydroaeloqical Study
LOCATION Calhoun County. Emmet TownshipStearns Drilling, Hollow Stem AugerKlelnfelt & Sons. HvdrauHe rotrv
TECHNICIAN Plerrg A Swanson
BORING NO 8 and 8A
SURFACE ELEV.' HOLE PLUGGED WITH cement grout. h»ntnm't»
BORING LOCATION
'drift wellsibedrock)
Sec. 5 T25, R7W(Refer to location mao)
Well 8 is 4.9 ft, north of 8A
fc/
BQRDEP
FROM
w _
• "5
>w
-iV-
w22
24
INGFH
TO
5
18
22
24
42
and/or cuttings . NO BLOWS LAST iNO. BLOWS 3rd 6
NO. BLOWS 2nd 6
NO. BLOWS HI « iDEPTH C* TB5T
Gravel . fine to n»d.
Sand, brown, fine to v. f1n*;s11tv. clav*v: snmp aravel .fine. Split spoon sample at 18 feet; Sand, brown, fine tov. fine, very clayey and sllty.
Clay, brown, sllty, sandy; some gravel, fine.
Gravel, coarse to clay. grey, very ooorlv sorted.
Clay, grey to gravel, fine. Poorly sorted. Solit sooonsample at 26 feet: Sand fine to coarse very silty. clavevsome fine gravel.
2 IN
N
IN.
GROUNDWATER
ENCOUNTERED AT
AFTER COMPLETION
AFTER ____ MRS
BORING CAVE IN _
FT.
.FT.
.FT.
.FT.
WSLL DATA Refer to DiagramCASING USED: TYPE ——
DIAMETER.
LENGTH
SCREEN LENGTHA SLOT SIZE ——
HT ABOVE GROUND
0000824
Boring No. __fl Client
Project No.
Date
v-
BoringDepth
From
L 42
60
70
W
90
f~^
104
'20w
i >
w—
To
60
70
87
90
95
104
120
130
No. Blows last 12"No. Blows 3rd 6"No. Blows 2nd 6"No. Blows 1st 6"Depth of T««t
Clay, dark grey, plastic, somewhat sandy, somewhat gravelljr.
Clay, as above, but with fragments of sandstone and shale.
Clay, grey. v. sticky, plastic, sandy.
Sandstone (sample mixed with gravel, sand and clay.)Fracture at 87 feet— lost some fluid.
Si Its tone, grey, some fine sand.
Sandstone, grey, fine to v. fine grained.
Shale, dark grey..
Sandstone, grey, fine to v, fine grained.
-
——
——
——
——
————
0000825
(n
r^^
usesELEVATION CAP WITH LOCK
^~/ e/z 3
t
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3
I
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1
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^- —— 2" fiALV. CAJ
^^ —— NATIVE SOU
^ ——— VOLCLAY BE( 3
———— -JOHNSON "*STAINLESS10- SLOT, 3
3 TO S FEET)
DATE CONSTHUCTEO J-.
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No. *__
AUG. IM3
OOQ082G
U3GSELEVATION
\~/g'B."/
745•CDROCK
-70*.
i 1
9V
T.
55.5
ENVIRONMENTAL DATA INC.
CAR WITH LOCK
*>
GROUND SURFACE
* 3/4' HOLE CONSTRUCTED 9YHYDRAULIC ROTARY
4*GALV. STEEL CASING
NATIVE SOILS AND KNTONtTC
NEAT CEMENT GROUT
3 7/8" ORtN HOLE CONSTRUCTEDBY AIR ROTARY
GRAND TRUNK WESTERN
WELL No. ' ^.
AUG. 1913 20213
0000827
Environmental Data Inc.
SHEET————OF
CLIENT Grand Trunk Western Railroad
PROJECT NO 2D225____________——
DATE ____________________________
PERMIT NO 1402-822-413_________
PROJECT .
LOCATION
On-Site Hydrogeloglcal Study
Calhoun County..Emmet TownshipStearns Drilling, Hollow Stem AugerKlelnfelt A Sons. Hydraulic rotary
TECHNICIAN Pierce & Swanson
3ORING NO. 9 and 9A
SURFACE ELEV.
PLUGGED WITH cement grout, henton-ft*
BORING LOCATION
'drift wells)[bedrock)
Sec. 5 T25, R7W(Refer to location mao)
• Well <i is 11.6 ft northeast of 9A
and/or cuttings.
BORINGDEPTH
PPOM
0[
5
"12
TO
5
12
45,
MO BLOWS LAST 12 IN
NO BLOWS 3ro 6 IN
NO BLOWS 2nd 6 (N
NO BLOWS MI a INDEPTH 0^ TEST
Clay, red to arev. siltv. sandv. aravellv.
Gravel, fine to med; and sand, roed to coarse:some fine sand.
Sandstone, grey, fine to v.fine grained, soft at surfacebut beconing hard with depth.
Sol it Sooon Samoles:
I ! 15 fe»t:$*nd and sandctrtn*. blue arev. v. fine to coarse.^> 20 feet: Sandstone, grey. v. fine to fine. soft.
20 feet:s1ltstone.grev. friable, occ. oebble ofsandstone as above.
—
—
——
————
——
—
—
—
—
GROUNDWATER
ENCOUNTERED AT
AFTER COMPLETION
AFTER ____ MRS -
BORING CAVE IN ——
FT.
.FT.
.FT.
.FT
WELL DATA Refer to DiagramCASING USED: TYPE ——
DIAMETER.
LENGTHSCREEN LENGTHA SLOT SIZE ——
HT. ABOVE GROUND.
000082S
usesELEVATION •CA* WITH LOCK
S^
w
w/
gZi 8
. C ''
!
/
ILF
W T
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GROUND SI
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* *
?;;
\
•:-44
3111
— -^-a" HOLE
^ —— t" CALV. CA
^. —— NATIVE SOU
L*-—— VOLCLAY B1
r- —— * JOHNSON "\STAINLESS10 - SLOT . 3
BENTONlTE PELLETSTO 5 FEET)
DATE CONSTRUCTED
w
1ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No •••
AUG. I9«3 2022S
0000829
usesELEVATION WITH LOCK
827. fc
8ZSKDROCK 1W
79?.
-79/8
1 i
] _ . • •
•
£
GROUND SURFACE
$ 3/4" HOLE CONSTRUCTED 9YHYDRAULIC ROTARY
4 GALV. STEEL CASING
NATIVE SOILS AND KNTONfTE
NCAT CEMENT GROUT
3 7/8' OREN HOLE CONSTRUCTEDBY AIR ROTARY
DATE CONSTRUCTED
ENVIRONMENTAL DATA INC.
GRAND TRUNK WESTERN
WELL No.JL-L
AUG. IMS 20229
0000830