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Appendix 1. Borehole geophysical logging field notes.
science for a changing world
Century I Caliper log Tool serial number: 9065a
WELL NAME: rs-oq $ nr 1<.. O'>(~CJ(\0 Date: 1 _.I -:- j '· NWIS 15-digit id: Operators: (f;d~ .. ~tJ\!_J/ j ~; fcto1~
. -7'6,~40.~).<;,,4147 /g'&O WoJlFo.X Rof, / Location: (2. £ _ , ' watch time: t 304 j / J
\Project: ox oro t;.(Vllt t; ?A-.S...pfrhJr;;~ computer time: I 304': ;{_ l c
Geophysical log reference: measuring pt o-~~~'0
Well information: · Describemeasurementpoint(MP): Ff~-e. 0/h -bD 11){: CS.Jt•
- 6 Depth of well: J-<t!3 ;J.. .ff_b.elow land su ace Height of MP above land surface: ~ r·:S 6 ft · Water level from MP Ql t; , 0 ;;t... • ft @ 1::2oo Depth to bottom of casing: j 3 ft Nominal diameter G inches
Notes on well (water quality,need for PPE, or problem areas:
-7~f} ~~0~ 36:, .LJ-(4-l_
1 3-0 1- .·- r s. Top of tool zeroed to land surface:
starting time of log: _....:/_,:S--"=s~{;:;.___
Ending time of log: __ /_· _3_·$t_O __ _
Logging speed: //, $"" -f'f;~".;l') Logging direction: ...::.U..:.....P __
Sjlmpling ra~: · / Q Unte.tval .il1l ·
Round trip rror check of depth:
2-pt Calibration: ( 1 \()' Point 1 : \P fi> .) \ rnch
Point 2: ~J) ~nch Note any problems or points of interest:
should be <2% of the total depth
CPS: 31 5:8·~· 3·' CPS: 10 S~<(, (o
:;)\
science for a cl1anging world
Century I Combo tool log Tool serial number: 8043a
WELL NAME: p~~ &1; n I /Z;)( bora Date: 1 -/ -- /1 NV\(IS 15-dlgit id: --------
Location: I 8'60 Ho.\l{:oyr R.~. Operators: ( rA l J (JJ e .... I l I S-fa-vb
I
Project: \)_{))\ b!rcS> CJM ~ f. PA-watch time: It I 0 computer time: 14fO
Geophysical log reference: measuring pt o~~~~~0
Well information: .
Describe measurement point (MP): .fJ 0\ll\ 'X'7.. 0 t'l lop·· of· C.!;~ Depth of well: /-4 5J., "'!' .. : ft below land surface Height of MP above land surface: t, 5' (jj · ft Water level from MP "i-. (9 , Q OL ft @ / j..Q'e Depth to bottom of casing: 4 3 ft Nominal diameter b inches
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surfac~1: . ~heck) E-log mud~probe grounded: ·~heck) Log Down . . ·'!
tLL{® · Start time of log: .IT . ·
Log Up
Start time of log: l4 ?.1 End time of ;og: _;_ J!.Jf:dJi· End time of log: .l4Q~
Logging speed: /..0 Ft:-/se Logging speed:~~~ F t::,./M. I. n
c onr/+o.;_!j ·< ... ld ce~p u--lllr
Round trip error check of depth:
Note any problems or points of interest:
,.
Depth
Sampling rate: F t:., r .. ,l·l·J;.'·~ i .. frr·~"' -.: .... i';. j. ;~ ... ~·· ~· .
"' ., ·'~~hotild .oe ~2o/o·~·fthe total depth
us scie11ce.fora changing world
Mount Sopris I AL T OTV log (OBI 40)
NWIS 15-digit id: ---------
Location: / Zf fJo ,1/tJ; fO.;.. -fl..J, Project: f..o>thof'D /:? P A-Geophysical log ~eference: measuring pt o~
Tool serial number:
watch time: computer time:
Well information: / · Describe measurement point (MP): --,--rf=-::>""r'-_0..__,11..,~~· =-· _O__,t\'-'\\·..:;~..;..~--_o_f_._C=-.S:.-J:r:~il'-~-~·-· _. __ Depth of well: J_ 4 'J ~ , ft below land surface Height of MP above land surface: ~ , ~J? ft Water level from MP 0t {?, 0 ft @ !;)r:JO (time) Depth to bottom of casing: 1/__ "'1- .3 . ft Nominal diameter (9: inches
Notes ori well (water quality,need for PPE, or problem areas:
1..\_ Magnetometer/lnclinomete~check: . ! ~ · Tilt check (-45°): [0 OK Directional (N,S,E,&W) tilt gpckk:
.. "'- \ ~ Q O North check (placing object in fr~nt of amera window at north): liZfoK ~odJ 0,., I(){ y .J!. Top of tool zeroed to land surface: (check) _, { 10 :'1 · · 11J\ vf,awA / 1 oo> . / <1. tl ) · ;}.(" Starting time of log: I :::::;, ~ 7 Depth Start: 7 ' J o.· ft
. ,t _,p r.> r.>Jtll I ?4G- -1' rot .: J ttt .-;;;-(e..- Ending time '6¥ log: · . depth End: 1 • ft
e,_ctf0
. Logging speed: '6, 3 (<Bftlmin) Depth Bottom: . ft Logging direction: ho + t... Round trip error check of depth: !Should be <2% of the total depth
\) r I Oif-0e J ep~ :>tarf.-~ { 4-U; ~· 1;;;4tt; . &.epf4fl.·~t1d ~ J q cE 16 f) 7 Collection
Note any proble s or pojnts of i t~rest: . (-/-.co I) Window --~~e=o+p_ht~<~c.~a~M~~~-~~/~,~f~~~~:_1~7- ~~~7.~~--_o_·?_~-~-~~~---t~J~d~~~J:h~~--~·-··_. __ · ___________ TooiBottom
I'/ ""' ,,. r:.,,;-p··
Checks: • 0 9 (, 1. Data sampling interval: 0':'9-1..5..fi Pts/turn: 360 v Light: €l or 8 --
in dark rocks choose a higher light intensit~ 2. Prior to actual data collection you can do the real-time mode data collection as a check .
. Be sure to record the depth before you start the time drive!!
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nce!
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k m
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ate
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ms
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL fl;i -tYJ"S Date: 3 -¥"- (f Pumping rate __ gpm Height of MP 1), S'"b ,(:..,-
Operators: {JJS~/ t!"l:$ watch time: I 0 0 S ,.,..computer time: I 0 0 .S
These data are used to compute the open hole specific capacity. With additional programs you can 'calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at 3S ft below MP Note any observations in the discharged water: smell, turbidity, color ...
I'
.' · .. /
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. /)J/ I '3 ;3Cf ~ ~ t> These data along with fluid temp and resistivity data collected after pumping may help in "/72 bU. 0 I ~ '?ll: S~ f'M. the interpretation the flow meter data and the hydraulics of the borehole.
Watch Discharge rate measurement water drawdown time level rate vol(~ time (s) Q (gpm) Comments:
Frl!l«l IV\ P:::: • S'f. (1"oC.... lft--Pr~ " ~115!!=') . .,):.:,,q I I I/ ! 7
'Jl/ ?J ;),!;','f()
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/:119' 2,:;:-, CJ I
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141-'f ~'(,.:7/ .• , •· :·· ..
L437 ~ s.q.4. . +toll ;;)tg_<'[J 14.~;). d'1· '(, /. ::?1 ,Sf!{ ,;:~9,()~
f")'Z.O l7q~"?:.S" zq~7·'7 I '\3\..f· ?-i:J ~ tf'3 ~2.9~~'7 1:'5:-5·9 L. sOl- ·~~95 t5'.r!f 1 ':J. o/ ;;;.-:J ~1/;r .1) (!) f-h g./54 l3 -f"NJ (( ,
MP=measurlng pomt, dd= drawdown, Q=dtscharge (or lnJectJqn rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft/min
·~1,::fj
..
2.
~oU- ~f\l 12t7.1l1 6L~ =- l ff. 13 5 4 ~1.:;. 2('~11
HPFM_and_Q-test2.xls 7/ [email protected] 2/24/2011
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EUSGS science for a changing world
Century I Caliper Jog
WELLNAME: ps-oq4 Tool serial number: 9065a
Date: ::?-;2 =- //
NWIS 15-digit id: -------
Location: 11 6 $"" ~{o"IJ ~ O.X ~ J, Operators: .$ fc~,vb Co....f J ~;;e../ f
0 , . ,. -~ G , watch time: ~ 30 Project: f<\...Q'X' bt'. ('{(_) (;: f A- ;r(Vl fl computer time: 7'.3..0. · {) S
Geophysical log reference: measuring pt or& · ~-. l -·' .
... Depth of well: ft below land surface Height of MP above-:1-an-d=-s-u-=rfa-c;;e;:: ~~<~:9~\:;:~~~~~=ft Water level from MP 3 t:?.4:/(b ft . @ Depth to bottom of casing: ·<:f.Dl;· . ft Nominal diameter ·b inches
(
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: ~heck) Starting time of log: __ 9.!.-::..J._O{.,-'----Ending time of log: ----'~-4--~----
J19, ;).7 J...,.,.,.., . Co •l•pu1e" + r K 3. . -~vw · 1/, ~, .. ·
Depth Start: ld.ft-;4 ft ~J!l,27 · 1 iiL 4.4
Logging speed: I l Logging direction: ...:U:..:..P __ _
Sampling rate: f O ~ .·
Round trip error check of depth:
2-pt Calibration: Point 1:
Point2:
{;,.5/ inch
({ 6"J>'. h o. me
Note any problems or points of interest:
-too I "~I' · tfJ Depth End: .... • i~ ·~ '6 ft --; ..1 S
Depth Bottom: J -::?.1:4- ft
should be <2% of the total depth
CPS:3/173. 4 CPS1{);;;<~@·f, ~
EUS science for a changing world
Century I Combo tool log
WELl:. NAME: fS-- O~br.
Tool serial number: 8043a
Date:~-;)--//
3~ J4 51.~ '-JC6 ;sb 30. b
NWIS 15-digit id: Operators: 5 fcwb ( oJ ~ w(;ll Location: pel ;7.$· lfa.C't~ ~ &
watch time: I 0 0.2., Project: ti.oK~dtn G?lt fr/ltl f-f- computertime: J()O a_. Geophysical.log reference: measuring pt o~ Well information: Describe measurement point (MP): +o f" (;) .(::" b ( d {II'~ 0 1\ C 0. '- r Y1 (J: Depth of well: ( .f:'~~~) I C).,Ol.. ft below land surface Height of MP above land surface: v q I ft qo Water level from MP · :3 0, /. (,;. ft @ 0 Depth to bottom of casing: 4 tJ,.. ft Nominal diameter ra inches
Notes on well (water quality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ~heck) E-log mud-probe grounded: ~eck) Log Down Log Up
Start time of log: / 0 0 S Start time of log:
/<!J/8 End time of log: End time of log:
JOJ.O
/D~O
Logging speed: ),;~ Logging speed:__l_1:_ , f::" -~~;;~~;;~~--~-t>-7.~~~rt=~oT~7:-s)--~~~;i,-~~;~-;~~-TP~';?(J-;;;rfiJ~4J
A ""'',(J~':-(fco I ::: '7 5'~ . /f) Depth End: lll lJ~ .... ct:' · Sampling rate:_" __
Round trip error check of depth: if 0 J- should be <2% of the total depth
Note any problems or points of interest:
USGS science fora changing world
Mount Sopris I AL T OTV log (OBI 40) Tool serial number:
WELL NAME: __.._P_.:_S_· ~_;_~&_._q_._4-_· __ Date: 3,... 'J-- J/ RP (bottom of tape)
NWIS 15-digit id: -------
Location: } C( ~ :-;- H(}.. ( ; Fav< B.d_ Operators: > +avh t CoJJuJf!.'·/l.
I .-' ./ ,.: .·.· ,
Project: f<. 0 )C b 0\'C) £ f> 1+- 6-:/YJ If
Geophysical log reference: meas~ing pt or.~
watch time: I 1[/ computer time: /// 7
Well information: rl nnoe <!>Y\ feo c.?f Co,l )1'!!1-.Describe measurement point (MP): ---~.C----':...~~,..l,il.L=-----•------0----Depth of well: J Otc;l. ft below land surface Height of MP above land..,...s_u_rf=-a-ce-:--,-'j_:::7-../~::..._--ft Water level from MP ~.30, I fo ft Depth to bottom of casing: 1' a. ft Nominal diameter (p inches
@ 90tJ (time)
Notes on well (water quality,need for PPE, or problem areas:
Checks: ~ 1. Data sampling interval: 0.01.5 ft v· Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8-10.
.·' .. 'fop ofTool
,.
s 0 96>,/ ,/
2. Prior to actual data collection you can do the real-time mode data collection as a check. Be sure to record the depth before you start the time drive!!
..... j- f't;J· J'l.-t
·." \ ··.
Field form for recording discharge and drawdown data used to compute open hole specific capacity
Continued a 4 . WELL f.S ..-Q -, Date: 5-/6-} I
Pumping rate __ gpm
Watch water drawdown time level rate
90l3 :ru. tJ /Oil ~Oo /3 II D '.5 '30 .I~ 1] r5 <0.() 'i? IJJS 30~37
Operators: S +OJ..~ 1;.; Co..ld u) e. 1/ watch time:
.Iro~-re..cts-k,,'l\ed. Wu·.,tt:.r' .
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p 5-0 if 4 2 Or/ 03/ (; -i= S--f-res.S eJ Disch~~ate measurement
vol I time (s) Q (gom) Comments:
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.. MP=measunng pomt, dd= drawdown, Q=dlscharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. d- 7. 7:o i That is we start the HPFM under pumping conditions when the drawdown rate per minute / (p ';1.2.. (converted to the borehole storage) is Jess than the resolution of the tool. So for example:
dd at 0.01 ft -->is 0.015 gpm and we can just bearly measure that with the
· T'o\\ : HPFM_and_Q-test2.xls
s N ~ \ "l. '-s 0 " \~\ow \NS. ·, 11. ~ \ l
[email protected] 1/24/2011
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~ss !!n: for a changing world A((/" A 15[... Mount Sopris I AL T ..Gnflog (OBI 40) ? Tool serial number: ..-
WELL NAME: __ p_5_-_Cf_£/ __ _ Date: . S ~ Z.S" Zo I f
NWIS 15-digit id: ---------
\q .('s__. HttuFit;( J2oo.J Operators: WS C..- /BAtt
7 Location:
Project: {lo;Cboro GPA watch time: /)1: 5'5>.-:r: 3l)
computer time: df :s-~: 3o Geophysical log reference: measuring pt oljaild surf~
Well information: Describe measurement point (MP): __,_Tl.=D_G_-_:.A_;_t-'tJ-'f\\_;_t_&U_u_lfllL _________ _ Depth of well: ....r- /2 3 ft below land surface Height of MP above land surface: D, 1J. ft Water level from MP 28. ~ z. ft @ 0 q 2 7 (time) Depth to bottom of casing: /_ g z...- ft Nominal diameter cp inches
Notes on well (water quality,need for PPE, or problem areas:
Magnetometer/Inclinometer ~ck: Tilt check (-45°): GI"6K Directional (N,S,E,&W) tilt check:
North check (placing object in front of camera window at north): OOK
Top of tool zeroed to land surface: GZf(check) b () t)-lfJ I L) p
Starting time of log: OCf 5 '7 /ol:.) ·
Ending time of log:
Logging speed: Logging direction:
"' 8' (<8ft/min)
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Depth End:
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RP (bottom of tape)
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~ Magnetome er
Collection Note any problems or points of interest: ~ , ~ Window
~~~~~~A~c~7uR~~f~~~?~~/~o/~-~~-+·~~zd~·~s~v~'~=b~~~~----~~~+-~----TooiBottom - ' I
li-ft! 1. Data sampling interval: 0.015 ft Pts/turn: -~ Checks:
Light: 6 or 8 in dark rocks choose a higher light intensity -- 8 -1 0.
2. Prior to actual data collection you can do the real-time mode data collection as a check. Be sure to record the depth before you start the time drive!!
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mea
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' ft
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: /3
34
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ndin
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: / 3
57
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u ce
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ter l
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i ft
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o b
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f cas
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: ~ '\
ft
Nom
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es
Not
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n w
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er q
ualit
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r P
PE
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r pro
blem
are
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Top
of t
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eroe
d to
land
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face
: [i
:}1
ch
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ud-p
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g D
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p
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:
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No
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f in
tere
st:
_ . .!;
//
E~· science foraclrarrging world
Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: .· p .£ -(} CJi;;;:: NWIS 15-dlglt ld: __ ~----.,..
Location! I b06 V/rslf/,tO, Project R.o;<l>c:>~ "13p JJ· (f/Aff-
Geophysical log reference: measuring ptor~
'·,
Tool serial number. (}f>
Date: 3' .- ;L - tl Operators: 5-favb {!_o}Jir!,f,JI
watch time: I ? :2 s;computer time: 1 ~,;). ~
@ /200 (time)
Notes on well' (water qu_ality,needfor PPE, or problem areas:
Magnetometer/lnclinomB!:~heck: _ __/ Tilt check (-45"): [9'0K Directional (N,S,E,&W) tilt check: 'tJ OK North check (placing object in front of camera window at north): [96i'<
Top of!ool zeroed to land Sl!rface: ~ck) . -: - 'f:rt~_bJ .·; ~: ' ,. t' :
Starting time of log: / $"';). S Depth Start: 1'5'1/ g·ft .; :·
I I- 0 'j ...ror::J . _ Ending time of log: () c;<.. Depth End: $-tJ /' 9 ft
Logging speed: cp /h<s fflmln) Depth Bottom: 3 0 I 8 ·ft Logging direction: &o fl...
Round trip error check of depth: 0 should be <2% of the total depth
~o hie§:\ -"'()\?.. \F
RP (bottom of tape) . \ • 0
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. Note any prf?blems or pofu of interest: I 0 §" 0.% .1 c-t$ ~{hl.t:r 1 Window
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,.,+. --"'-"'-~...:::W'-"'-~J>.<=----f'~""'-"~"'-'--------' ..... :=!---------'--Ho.,Jw/flfh -"l>ll,; seelP?.5 j;J-<e
s . ea rorn{i ,_ -11"-. i 7 • +:- ( ia.t-'t-e v F' ~ i+ loS-+ C:<J;nm .,,,:co. -tlo~
Chc..okn· tflve&,_te>.i.s.,'\1\~-L.o.,l}i? 171 -" 2._ i·h'<-c-~7-ror ~;,G>i~'5 o.ho .... -1- ;:!f"eet_ ec s. .• I_, , .. , ·.; J ,.....0
1. Data sampling inte!Val: -8.01~ ft. Pts/turn: 360 Liglw.-6-or-8--_s., in dark rocks choose a higher light intensity- 8 -10.
Z: Prior to actual data collection you can do the real-time mode data collection as a check. Be sure to record the depth before you start the time drivel!
HPFM AMBIENT. Well Name: ?S-09S,.ool serial no.]./ Q(, Operators: Sio.v~Co- /Jwe-1/ NWIS 15-aigit ld. (c1): Describe MP: +of oft= \«n,y e... Dll +•,::> of: c .SJ For NWIS archiving, log type and sequential no.
Date ~I :LJ .D._ Ht of MP above LS: Q q;). Heat-pulse flowmeter: HF 0 1. Initial Water Level ~ >. (, "> ft below MP Rnd-lrlp depth error. a. bL ft above/below MP
Time ~:.3:j watchtlme: /l'•>&::sq ?htk. t>t:tz' t r 11'36'3'1 I)/) ::: compu er 1me: . ' z.
Flow Rate (in gallons per min) Depth Flow Note direction with - or + Diff. in Notes • include interpretation
(in feet) Direction or with up or down arrow Time flow rate r,c.. {see below)
"2<;;".S'"} --¥ t>l.)f- C) V..l~ ,, ... ,, WI.< a'<',t:-;.1371\"/ NOT 61>- IN \.lo..@-1
WL:.. ·ztf,7 I t :S
z_q. 01 '/J o.o ,, 3'1"!.1f,,~ t> f,!J41/&ot> II fJtJ/lot,r.) jJ<;"tf
3tf,o1 'Y 0 ,(.) {o3'f'lftJ;6tF t.?/i7j,~()1 I' tJo F/dw 120";
'B1·0D l.fl o.o lo?lt%.to f,31Y,bf> '~-J!10 Fll)v-J /lO'i;'
~~.or'+' D.D .• o~.t> /.?>1~, ·~o /-fWF/fh-) _/_~11 LIJ..D -z, 4-' 0 t,-;o/.;,a /, 'MJ:t.o ;f. jVtFF/utr~ n~'f
'-( '1·5"1 1.,]/ D ;,3'1J/10 ,g<9~.:;~ 1·3Y,Go {2- 31 elR ~ -fAe?-pvl.Se J.s O.rr,·vi .... wei/· . S::?. 00 '/-' 0 •OJh/,;:Jo ,o%_95' t?f!Y.bo I·SJJ(roo /';)..!.7 o.(-/-tY- LJOsec.., 1~ Ci9~rQ·~-I-~r: G'f.CJO 'f' 0 -.J.'1%1J 0~ • "'S' /JY.J::(cP l17/l'V,6o 1.2.1 b _d&·e:s a_ ·g l i+ck P.•'c. k , i+ o.PG
. <;56. Of) IJl 0 ,o(~·20 1.3f}4o . ~- ~ _ ... -... ~ .. '
,•'
r:tJ~.ot J'J.S;g tt(llj\.S,t IL;+ -t="l0t.. 9 • -
<?CJ ,_q '1 t() .otJJ-1o,ou I.JI]io );3~9 /.30;;!...
I (f)I!J,o?:. Y-' ~ ,o'~.ts' J,3'!X(o ;::s<J71f,, J30l I (J "1, OJ Y" 0 ,!>~,;!$' l?,(oo (5!1
I0'3,oor (() (,3~ tarr:t;o 13 ;;z_o 'it'd-· s-o '-/' ,o::>..J'?, 'I; 6-o ,.,~60 )3')..4- 'fNlVJStPil-j- floti.l GF IfS',o~ C.V l·~&o ·~~ •
0 7,7fJ '·1Y,60 ) 30l-7 ~qe-/- wo.~ JJf dfc!,•'l t.JG\n+-l-o Col'<l!.c.~dlll (•check the lime on the computer and change If necessary so that time tagged data matches the field notes.)
gp, glitch pick Is the reading that Is automaUcally picked In the absence of flow. Note "gp, no flow" means no measureable flow
transient flow means that the flow rate Is changing, typically It occurs In response to the effects of tool movemen~ which causes an apparent verHcal flow.
Late-time flow means that the heatpulse has arrived after the GP, but the computer has picked the GP. Be sure to note this occurrence!
check measurement Indicates that a duplicate measurement was made to check the consistency of an earlier measurement
umbrella marks: Indicate the way that the dlverters were set -It may help with the lnterprelaHton of the dala ---J--.-- for anticipated upflow and '--!---' for downflow
]. J<tt~-f/ M<: Flo (}I.
e.O..r.s +a be.
+-ot> I 9'e.-l/o '"~ hu1t~ up.
source: 1/24/2011 [email protected] Ambient Condltloris Forms
... ;
Continuation of HPFM test under ()../'VI b/~11 f--: conditions Well Name: p S _ 0 Cj ':?" Date Z I']__) _}J_
ueptn I-lOW Flow Rate (in gallons per min) unr. m Notes • mc1uoe mterpretatlon, WI, etc. (in feet) Direction Note direc~ion with • or + Time flow rate (see below)
J .35'" ,n '-1--' 0 .au·::v 40.0. ,ooli_A<;,(" J 3.5'3:' }31.s.t 'Y ~ 1-3'/f/.1;;>0 ):33 6 {5[" +r'<lb!S.; etr'f-fTOIJI ar-r-i 1/,-.,q /n+e~"tl"'e. J1s.s o/. ·• IJ /,sll1/.bO '·">1J':Il-o 1:510 l68,o~ . .JL D /, '3'~Y,t,o (, ;<f~/." (I f"3 </7 lt1. $' \:}..1 0 • 00Yc~o.o '·''!%:6 /3<:(5 nt./. s:'l ""'
0 1<3'1}-6 60 /3~ :1-oo.or \jJ D f,J<f7.6cJ ttf"03
.'2--tb .. O( ~ C> ·"3'i]':6c> ·;vo.;:--:?? 'f. 5 I l,p 6 l• "¥1J{&o b:1Wo l:lt:.ctd~ /t/12-2- 3. z.,_o I \V D • voyt(tl.u _1,'3'1](67) f((J5e-</
ll/17 ;z... 'f.Cf,~oo .tV D ''J't~.Go 1¥"2-2-"j')8.0U lv D t. ;,q %.oo lt.fz..t. :;?6 7!-0D 4-' 0 ,o"k/t!o It/so z"' e. r-o l.f..J 0 f.3cr~.ta fl/3<f_ 2 "1CJ. t:;'D lY 0 11·317;{,,60 !If?; f
1--q, c.f. fiz..- l.f-1 0 l·3~J£t.o tN2-:z-'1'1--s. '-~-' Jl/t/P.
source: 1/24/2011 [email protected] Low Rate Pumping Forms
. ··
/&or
.. v 1r
q if, ;:,
;C{
/2.lJa
..J F
ield
form
for
reco
rdin
g di
scha
rge
an
d d
raw
do
wn
da
ta u
sed
to c
ompu
te o
pen
ho
le s
pe
cific
cap
acity
/k 01
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LL
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ate:
3 •
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pera
tors
: Wf
c?t-
/~LS
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ate
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atc
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ime
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eig
hto
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mp
ute
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e: ;;t
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M
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ese
dat
a a
re u
sed
to
com
pute
the
ope
n .h
ole
spe
cific
cap
acity
. W
ith a
dditi
onal
pro
gra
ms
you
can
calc
ulat
e th
e o
pe
n h
ole
tran
smis
sivi
ty.
(see
Bra
db
ury
an
d R
oths
child
, 19
85)
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um
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et a
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elo
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e an
y ob
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atio
ns In
the
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ed w
ater
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ell,
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idity
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lor ..
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ote
wh
en
th
e p
ump
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turn
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ch
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ge
s in
pum
ping
rat
e, p
um
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ff, e
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ese
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ta a
lon
g w
ith fl
uid
tem
p an
d re
sist
ivity
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ta c
olle
cted
aft
er p
umpi
ng m
ay
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th
e in
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tion
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ter d
ata
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raul
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he
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roc
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h
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ter
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n Disch~ate m
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nt
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ring
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nt,
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wdo
wn!
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ge (
or i
njec
tion
rate
), v
ol=
vol
ume
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wa
nt t
o r
un t
he
HP
FM
test
un
de
r pum
ping
co
nd
itio
ns
once
we
hit
qua
si-s
tead
y st
ate,
w
hic
h is
de
fine
d a
s th
e a
mo
un
t of w
ate
r co
min
g o
ut o
f sto
rage
is <
10%
of t
he
pum
ping
. T
ha
t is
we
sta
rt th
e H
PF
M u
nd
er
pum
ping
co
nd
itio
ns
wh
en
the
dra
wdo
wn
rate
pe
r m
inut
e (c
onve
rted
to
th
e b
oreh
ole
stor
age)
is
less
tha
n t
he
res
olut
ion
of t
he
tool
. S
o fo
r ex
ampl
e:
dd
at 0
.01
It in
a 6
-in
ho
le->
is 0
.015
gpm
an
d w
e c
a11j
ust b
ea
rly
mea
sure
tha
t with
th
e
HP
FM
tool
. S
o d
d ha
s to
be
<0.
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lmin
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e an
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ewdo
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data
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d to
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pute
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n ho
le s
peci
fic c
apac
ity
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ring
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t, dd
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n, Q
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scha
rge
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njec
tion
rate
), v
al=
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ume
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wa
nt t
o ru
n th
e H
PF
M t
est
un
de
r pu
mpi
ng c
ondi
tions
onc
e w
e h
it qu
asi-s
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ate,
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hich
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efin
ed a
s th
e a
mo
un
t of w
ate
r co
min
g o
ut o
f sto
rage
is <
1 0%
of t
he p
umpi
ng.
Th
at i
s w
e s
tart
the
HP
FM
un
de
r pum
ping
con
ditio
ns w
hen
the
drew
dow
n ra
te p
er m
inut
e (c
onve
rted
to th
e bo
reho
le s
tora
ge)
is le
ss th
an t
he
reso
lutio
n o
f th
e to
ol.
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for e
xam
ple:
dd
at O
.D1
ft ->
is 0
.015
gp
m a
nd w
e c
an ju
st b
early
mea
sure
tha
t with
the
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tbo.6 vtrcti/liu4 1'2J
HPFM "t!IGHER RATE" PUMPING NlNIS 15-digit id. (c1):
Well: P:5 -0 '1 r-' Tool serial no. Operators: uJ '5 t:..-/ €/..,. S
_ . Describe MP: TOG shd- up "' D ,Cf '2- ' , q
I oo I, Je.pf~ Pump set at 3~ feet '1:- ~ Watch time: II:~~· _3 q
Fluid Res & Temp· yes
s;.-::: li: • I '2. WL at start of HPFM ~7q71 at !? I} f). Computer~ime: /1. :;,.G.~ J ~;e_J.c , e~b-2.'1~ WLatendofHPFM 5 , ~at /716 Svr~~;fj"'.!l w,-J,f,::"(;:4 w~ · Tl.:eoP1cr, ~ A in WL during test ft 1- • • WL after test:--- at 2~------------------. --- J-
Rnd·trlp depth error· • '20 ft ·-------------------
Date~t.:U.J.L 3,..,;).11 Pumping Rate .,I gal/min Pump Started J.i2j)
Initial Water Level :15". b :.S feet Pump Stopped /7/7
or no Flow Rate (in gallons per min)
Depth Flow Note direction with - or + Diff. in Notes - include interpretation (in feet) Direction or. with up or down arrow Time flow rate (see below)
Z'j'1. <)"( .._y 0 1·3'1~0 (s-'J3
'2-1'1.~3 A D f, 3'i}(L /~-zJ1 -'?71 • ')0 /1\ 0 I·3"1Y,.Gt> /';;'CL
Z '7 .8 . s-o r-t'\ 0 lt?,C!y focJ. ,~,.,-
7.- & 'Z ~oo n-, 0 1-~17/.i,o /<)2..0.
'25~$. t:) l "' 0 t. "3"1;Y.6o lr-'2-3> "2- Lftf,o Z-rh 0 {.?>"i1f.e.b l~z.'\'"' Z ~'2.- .o I A\ 0 /.3'i1/(.,.l> /<:;' 2-4' ?7-'f.~ II\ 0 '·317/.t.i> IS""3( '). {{.. vO'Z-- rl\ 0 /. ?/'17~?1:> I s-'3¥ z.ou.o:z.-A {) ',3'1?}(1;, 0 (f_)37
11tf. so k. {) f,JfKc,o IS""'fL /t1 L ~D /h 0 (.3'1r.{,t> !S"I.fY
.t5S.oo A 0 /.3q7/.t.o ll'l/7 1'17. s-o A t) f,3q7,0e.o /)')0 /5'1· -:;-o II\ .o /.3'i)(6,1 ,/ I 5'"'5''2-Bs-.s-v 4-> o.o;r{ 1\ b,o'z'}{V,z.. o.o~.l / ISS<-( /ll(. oo ;\\ o.03(tJI/o • D'3Y'fo,[O ,o"3%.1o ,o,%.41( ,v?f,oo ft.ou
/ Remember to record the calibration values of the flowmeter. You can do a screen grab of the calibration page on MsHeat or record values.
transient flow means that the flow rate i~ changing, typically It occurs In response Jo the effects of tool movement, which causes an apparent vertical flow.
Late-time flow means that the heatpulse has arrived after the GP, but the computer has picked the GP. Be sure to note this occurrence!
check measurement Indicates that a duplicate measurement was made to check the consistency of an earlier measuremenl
umbrella marks: indicate the way that the diverters were set -it may help with the interpretatlton of the data -+----for anticipated upflow and '-!----'for downflow
source: 2/24/2011 [email protected] Higher Rate Pumping Forms
ContintJation of HPFM test under gpm pumping conditions . ' ' Well Name: p S ~ o'j~ Date .3_ I :i_t _.!l
ueptn I'" lOW Flow Rate (in gallons per min) unr. m ~ores - mcruae mterprelat•on, w1, etc. . /
.· (in feet) . Direction Note direction with - or + Time flow rate (see below)
1/1.-.~6 ;h ,D:f/ '[I ·D% .ro .• 0'3%, 2) ,;. ,a""%.o~ /boc, .......... IDK'.D I th , ot.f:;-'1' 'dlf';1 ,II> ,ollf)4,q~ -o<f%_oo /f::,ll
/D'3:oo m otf"; 1 .orf'Jg .30 ,o1f}(.2\ I /bl [e.
9 q .C(. )/ "" .o '3z .. :1' % . .:;,) ,o%,1/J '7to.2f) I&ZO ~$"(') )\ .o251' .o'%,oir" ,o%.'1f" .o']..%t'll> .u%1(
13· '"' :z...s-" ~,_(){ A o'fl/1 .o'%.t'D ,O'f%.zY N>37-··· t,t:j,oo ~ ,0)~&/1 .o<:y,teo .oryg.ro ,os%.50 ,o~.~c IL"Z,$1
1)3 .oo rl"'- .ol.(glf
~ ,oiiY?.?S" .6%.15" ,o%,t.S""' !f:Jt..fr;:""
·'-ft:t~)D A • o"')'/ 1- . lJ ,os;k?,t)" .os-%.~S" .o>%,1lJ .. ,&~3 'fz~o o A ,0&~1' br" ,DG>f.15' ..... ·r7c/a' >1.oo """ , o'S'<;;" ~ '~70 . o~K" 170~
"1.tJo If\ ot>61' .cbf/f.1D ,O~c, 1/.tJ't 7lf .. o.f; /II 1) l•?o/.6o l·¥i)(6o 1-lwu r:'fiJ(JJ /l!2- Wt--:.. "' 3'2 / TOG
!
.. " ...
source: 2/24/2011 [email protected] Higher Rate Pumping Forms
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tury
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. ':"f'
HPFM AMBIENT Well Name: P5- b '1 b Tool serial no. 31 0 0 Operators: Co-.1 olw e. I), S. +o... tJ b. ' . ' ;o
NWIS 15-digit id. (c1): Describe MP: 1DC, w/olJ{ I)Lul\tiN\Iin lockt<~!.C~ For NWIS archiving, log type and sequential no.
Date~ I _5_1 Jl Ht of MP above LS: 0 ,Do # Heat-pulse flowmeter: HF O:i Initial Water Level '2-C:, ·If b ft below MP s4M-1- 1./, It> Rnd-trlp depth error: ~ ft above/below MP
Time O'tr:bl'f .Pu,J11"-'f·l0watchtime: 8.01: 1.!:'
computer time: % il'l: 1 s-Flow Rate (in gallons per min)
Depth Flow Note direction with - or + Diff. in Notes - include interpretation (in feet) Direction or with up or down arrow Time flow rate (see below)
(p(. {)(;) o.t> l.?"}{.6o t.s'%o *Nt> Flow tJ<iif1 fJO Tflptlo 'm'~j)05rl11lN o.<!Z"+3,1'G"' . '-AD"-
{pf{,DC D.{)lr;1w ·ll~'h.ro ,!1*'30 ,D% rr.tF> O'F;'Zf(
ft:,"f.\o 1.-;;_y ,, ';'!lt.',;;c. E lj j1lD (.:/DlN o.o "'.iJ. .t.o 0€'3D
1 I. 5' I 7 /,'ij%.s· /,), (> l>,(l%
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'•' '?. ~ f,:i'f%,,
;:>• II o~3V "TWO .fJO F'fOWS; I WO (},D I .flOWS']\
I
('check the time on the computer and change If necessary so that Ume tagged data matches the field notes.)
gp, glitch pick Is the reading that Is automatically picked In the absence of flow. Note "gp, no floW" means no measureable flow
transient flow means that the flow rate Is changing, typically It occurs In response to the effecls of tool movement, which causes an apparent vertical flow.
Late-time flow means that the heatpulse has arrived after the GP, but the computer has picked the GP. Be sure to note this occurrencat
check measurement Indicates that a duplicate measurement was made to check the consistency of an earlier measurement
umbrella marks: Indicate the way that the dlverters were set -It may help with the lnterpretaUton of the data ~for antl~ipated upflow and "'--!---" for downflow
source: 1/24/2011 [email protected] Ambient Conditions Forms
-;?"2
--7
' -1:
/z:dc
/evY-
; ;lr)
F
ield
form
fo
r re
cord
ing
disc
harg
e a
nd
dra
wd
ow
n d
ata
use
d to
com
pute
ope
n h
ole
sp
eci
fic c
apac
ity
qp
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LL
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h
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e:
3 -'1
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----
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----
----
--H
eig
ht o
f MP
() •
Q
co
mp
ute
r tim
e: ~ft 1
/'J 5
/ T
he
se d
ata
are
use
d to
com
pute
the
open
ho
le s
pe
cific
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acity
. W
ith a
dditi
onal
pro
gra
ms
you
can
~
calc
ulat
e th
e o
pen
ho
le tr
ansm
issi
vity
. (s
ee B
rad
bu
ry a
nd
Rot
hsch
ild,
1985
)
Pu
mp
se
t at 3
0 ft
be
low
Ml'>
5 b
~ c;
;,:{4
, <6
f. '3
£;
(;.
. .::l {
a_
g-
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e an
y ob
serv
atio
ns in
the
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ed w
ater
: sm
ell,
turb
idity
, co
lor..
. /
SLI
,fi,.
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i-
IJI\
al ~
, ; r
f) '1\.
ro
s+ c
o <
=>I
v·
~-/
---------~
----
-/-
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sure
to n
ote
wh
en
the
pum
p w
as tu
rned
on,
ch
an
ge
s in
pum
ping
rat
e, p
um
p o
ff, e
tc.
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ese
dat
a a
lon
g w
ith fl
uid
tem
p a
nd
res
istiv
ity d
ata
col
lect
ed a
fte
r pum
ping
ma
y h
elp
in
the
inte
rpre
tatio
n th
e fl
ow m
ete
r dat
a a
nd
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rau
lics
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he
bor
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e.
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atc
h
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ter
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isch
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e r
ate
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HPFM "HI~HERRATE" PUMPING NWIS 15ldigit id. (c1): Da._\e ~[.!l..J ...!..L
. Pump! g Rate ":S 0 gal/min • ·-Pump dW"I:~d 01 ~ Initial W'i!tt::r L!'lvel 2-t,, :b feet
Pump Stopped 1.12!::/:.:7 I ;<1J
Fl 'd R & Temp· yes or no Ul e~. .. '•" ..
· J -:<fo6 -o · . I · Well: fJ5, ()9 ~ ToOfserial no. r/'fr&'?joperatorsf. W'i:.C...tf?L- S
Describe MP: IOC w./t;v-1 Atu~wuum ttJc.k:.. Cavae. Pump set at .3 0 feet ' Watch time:
- ' J D•
WL at start of HPFM Z.€', u. at /btU> Cpmput~r time: r 111 F' WLatendofHPFM ~ at ;i>'/) 5t.J.M"Ou"t}'V>S \lie..\\ wa-.-\-~tr \e.v\2-l..s---rcem
• o..o\r.t>.> +;,..._ B4 WI.. ) Ti,.,c. o.r;'ft;-, W t..-6.inWLdurmgtest ft :1<;~:!>10 o-,ll¥o-. 'fiOO ;;)5.o3 • 11:07 , -:J.S.OO
-sf'O'*:,~~~o WLaftertest: ___ at "a§C:l/l o,\'Jf:O>X 9:V5' IM"J.; 1/:/o - CJ/1."7;;!. ~''"' Rndtrlpdeptherror· 6 o ft ,3:;r~6'o M-o.llr=o..x "J•J;;; ;;21; gq· //•11 .d~ [{1-
Flow Rate (in gallons per min) thf' D~th ,.,,, -~OW Note direction with - or + Diff. in Notes - include Interpretation lve.f I i= • fti4 • It ..{•·., :jjirtiction or with up or Clown arrow Time flow rate (see below) ( m 1 eet).:. ·; . ."
---n kl~'-+' Milo 1' ,OI/1J1G ,0/f,,;;J; li.>'Z- 3 6q,$'o .+ o,ot/'1 1' .~~'15'5' ' 11~:1-s\' .~>;':?ff.r-o ·~IJ$"' lo:J.5
b'7,bo .rh 0 ,03'1 fl ,lf.l''/'l.{,p .<>~.3r ~7rl • rt.S"l> ·"?ri.o.:. /D 3?.--h.o.q'1 ,..!-.. 0 .D'iri1' · oY:~Af.•tr .O~r;-D .l>f:J~. t/b /036
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RememJ;lerjto record the calibration values of the flowmeter. You can do a screen grab of the calibration page on MsHeat or record values.
transient flpw means that the flow rate Is changing, typically It occurs In response to the effects of tool movemen~ which causes an apparent vertical flow.
Late-time rlow means that the heatpulse has arrived after the GP, but the computer has picked the GP. Be sure to note this occurrence! ., I .. - .
.
check measurement Indicates that a duplicate measurement was made to check the consistency of an earlier measurement.
umbrella rrlarks: Indicate the way that the diverters were set -It may help with the lnterpretatlton of the data ~for anticipated upflow and '--!---'for downflow
sourcf!: 2/24/201~. [email protected] Higher Rate Pumping Forms
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Mount Sopris I AL T .J)T\/Iog (981 40)
science for a changing world
WELL NAME: ___,Pc.....=5_-=o9~~=------NWIS 15-digit id: --------
Location: 2 z1 I, /-1/tirfo./-. (loa~ Project: ~oxhoro EPA
Tool serial number: ~·
Date: _ _;;:5_-_2_5'_-_Z_o_l_l __
Operators: oJSc_./BAtl 7
watch time: r :f'!C) I ." I r;"" computer time: 3 : D I : I S" p 1'h •
- 0
Geophysical log reference: measuring pt o~ /,25 f! f:ut.(ow La,'\1\d S'cJ({q_t.(( ) :
k l\l-v~,.J~' Well information: ~ · /Too \ ~ Describe measurement point (MP): 71) p 6.{ /Y.-f!J& fl.t.'SJ (lJ b {lpL\t.Cb(lt\'1 o{_f-) ~ Depth of well: v- 72.. ft. below land surface Height of MP above land surface: 0. 0 ft Water level from MP Z3. -:;-9 ft Depth to bottom of casing: 34 ft
@ !L/r;'9 (time)
Nominal diameter <f> inches
Notes on well (water quality, need for PPE, or problem areas:
---------------------'C...:():::..:"O:...' l_. _L&-'--g{L SJfl
Magnetometer/lnclinometetrheck: _/ Tilt check (-45°): Q'OK Directional (N,S,E,&W) tilt ci)!Zck: 53' OK
North check (placing object in front of camera window at north): Q"OK
Top of tool zeroed to land surface: w(c:heck) A£)~'(.\ (. i..6 4 JJJfth. yl)u,.r-J /. cJf })6wN J f
Starting time of log: .,.... lr' I G> 7 I S"'tj Depth Start: 6 ,3 Y: ft 12 , tJ c/ Ending time of log: I S/87t 6Z&' Depth End: 12 ,ot.ftt ~. 3 '-
Logging speed: Logging direction:
""'~ • ~ (<8ft/min)
DD~N/dp
Round trip error check of depth:
Depth Bottom: ____ ft
should be <2% of the total depth
RP (bottom of tape)
...... /. zs Top of Tool
Magnetome er
Note any problems or points of interest: .• .· Collection ~Window
-----------------------------Tool Bottom
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
! ;
u science for a changing world
Century I Caliper log Tool serial number: 9065a
P.S - 0 q.~· 7 I WELL NAME:-__,...-----''-- Date: ...:> ..... 3 . ..- :{
{~ ... , / .~) r ~_1_... _r · m m lB NWiS 15-digit id: ' I I ! Li i. t ru j .;;. -,. Operators: ..!>lf'&!f.(lj''Q. . ( (i!-~. ~ l()~ l ~
Location: Ill 1/.bl "! 1/( ~~l' ,"''\ watch time [13 0 Project: If- ~ l( (!) .• N;:. G r ; ~.YffV· computer time: II 3 0
Geophysical log reference: measuri~g pt or~·
Well information:. f r.r· L ? ~ Describe measurement po1nt (MP): fop 0 '_:.. r"'1 <l{A.~ Cl&t\frP p ,.r.:)l .. CO .. ((':) Depth of well: \' .t\ a ft below land surface Height of MP above--=1-an-d=-'s'-u-:rfac....::c=-e-: -m-r.'lJ.------ft · Water level from MP 1: '15. ,,~;J;. • ft @ { /,S 0 Depth to bottom of casing: .5" .S ft Nominal diameter b inches
Notes on well (water quality, need for PPE, or problem areas:
.<
Top of tool zeroed to land surface:
Starting time of log: _.!..l,-!..f_ • ..t.s--_··J:;.:.;':....~ __ _
Ending time of Jog: __ i_?-_0_· ·_3 __ _
Logging speed: I a.. , l Logging direction: ..::U;.:..P_...,.__
Sampling rate: 1 ,Q
Round trip error check of depth: _ ·~ \.1_ . 1/1
2-pt Calibration: 1 ., Point 1: (o, ..;:.l inch
Point 2: 8 '·~ 'ti ~ch Note any problems or points of interest:
+on( D~pth Start: foe\ Depth End:
.11/.J.i~: ft -4, ·~:~17-ft
Depth Bottom: l1il .. ~~ft
should be <2% of the total depth
CPS: J f 53 { J ~ CPS: 1 () \ (~>:: \ ~ S ,
IJ1 ,. n. ; Qfl. 6' 3 &&01 t&..v71 f.
II science for a cltanging world
Century I Combo toollo~
WELL NAME: _u_e;_~_.--_0_9_7 __ _ NWIS 15-digit id: .---------
Location: 0 7/2 //r",-1 ;ft'r..q . \1. j. !1 .
/J I J'i-i!-~ 11 Ll Project: qcat C(!;> f'a? c:i'f tt & M C't
Tool serial number: 8043a 1
Date: :s.-s- II Operators: 5~ , ( CR.l oftJ..Ji&./ /
watch time: I ~- I:;;_., computer time: I (ii>.J rJ.....
· Geophysical log reference: measuring pt or ~o'E!· :;.~·
Well information: · /:'; . J "-·C · .. ,. · Describe measurement point (MP): fYC&t .. 1e.... O'P""l("-Oi> W ·cQ;,.(/ 4.T Depth of well: . 1 {,;) ~ ft belo~ land surface ' · "''· Height of MP above land surface: o ~ ft Water IE;vel from MP ) f6 /h ft @ //3 0 · Depth to bottom of casing: BJ ft Nominal diameter (;,. inches ··.·
Notes on well (water quality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ~heck) E-log mud-probe grounded: ~ck) Log Down Log Up . 6
Start time of log) ;;t J End time of log: ~ -~ L\ <i
Start time of log: [ct.:-~.~' . f4t34· End time of log:
Logging speed: Logging speed:_L >' ~ ( ·;~~;~·~;~~~<7s-~·.:;;~-------------------~~~;~-~~;~;;;~-;-4"5:-?·--------------------·
i 00\ Depth End: ! 'r{,i" '2/7 Sampling rate: P' I
Round trip error check of depth: ~ I S should be <2% of the total depth
Note any problems or points of interest:
science for a changing world
Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: _f>_~_--_0_9_7__:_ __ NWIS 15-digit id: -----------
Location:
Project:
Geo'?..hysi~allog reference: measuring pt or~
Tool serial number:
watch lime: computer time:
Well information: · C f i·:;) ·~ . f: C ! 01 Describe measurement point (MP): I I() Pt t:'fe., 0 t·'( (.1· U · · ~- · ; Depth of well: / ·L} X b ' ft below land surface -Height of MP above land sufface: ·cPJ · • i} 4t ft /fJ I{) Water level from MP I .f ft @ _ (time) Depth to bottom of casing: , / . . 5 :S ft Nominal diameter 10 inches
Notes on well (water quality, need for PPE, or problem areas:
~1 H F.:J
t:~ ~~ :~
Magoetometerllnclinomet~¥,check: ,' / r ''l Tilt check (-45°): 11ZloK , Directional (N,S,E,&W) t;;:k: C9"oK !n;j
"'J tr6 lp)n ibO \~ ", . North check (placing object in front/camera window at north): . OK ~.;:_. ·_:_~_,_j
.l~~{~\.f, e&~~~\Top ~fto~l zeroed to land su,rf~.:e: ~~~e~~) .. ....
1
t L 1 ~ Lj
!~!.f' bl 'V.~'"ng bme of log: I.;.~· ' /J.Lfl Depth Start ~' J,t ft n .. ·: · ~:,~ ~0.~ .·J\'fi~)\('&ding time of iog: __,_/'4_0_6=---- Depth End: '/41. I ;l ft. ~; ;~ ·d\;(}(\1'~- · CZ KA. '"') t 'l
/,p'1P · ~·- · Logging speed: 0 (<B ftlmfn) Depth Bottom: FlP}, ~~. (: -~ ~ \QJ'&, Logging direction: _ b, f.d2b.
1 ,t_:._,;_._ ;.: .. -_l,·,
· :· · ·· .:Round trip error check of depth:-"' I · should be <2% of the total depth . 1 r .. >'P \ \l~h+ ~9.:% ~~-io~;,oJ..Jepth @ 14'r J 5,o r._. · @.141;;2 t:.~l .\J' r f :;; Collection
_ Note any problems or ppints of interest: / ...... O ol /. r·/ f.!/..·l,'>; !. . n ;s.;£. ~ 1 Window · ·· .. · · · · 1/t/f'p'l Ckl. E.'!J .C..t;:t.r.; · !;'), ('<:) JP · Jfl"'l. 1\u Tool Bottom
__________ ·4~~~,~~e~d~---~~-~~-·~·~~~~~~~~~~~~~~w~.e2~~-~~1~~- · ); o.c, \!:;..
re o..J.
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 o,rs
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior t0 actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
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1/24
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1 cj
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~USGS ·science fora changing world lf('J AAJ: Mount Sopris I AL T ,J:RV log {,9131 40)
wELL NAME: Ps .. oCJ I
NWIS 15-digit id: --------
Location: I 1 {'f J,rq t/11'\JCt ~J Project: l2oxbolo ePA Geophysical log reference: measuring gt.ot'fa.~d~~ c___, __ , _____ _
'? Tool serial number: .:.-
Date: __ 5_-_z_s._-"_-_Z_b_l_l __
Operators:--"'W:...;..,.:5'-'C::..,1,_~-==b"'-Att"'-'-'---watch time: I Z : :31·. Z 5" computer time: l 2 : 3 7 : 2 ~
RP (bottom oftape)
Top of Tool
), .
Well information: . Describe measurement point (MP): TOe_ - A-L-Uf'I\.Jt'-hJ~ Lod~- ( 0 /(a...,
~ Magnetome er
Depth of well: .,_,..._ llfO · ft below land surface Height of MP above land surface: D, ~ ft c Water level from MP j 5. Cj 1 ft @ 1 Z S u (time) Depth to bottom of casing: 6 ,3. ft Nominal diameter (::. inches
Notes on well (water quality,need for PPE, or problem areas:
Magnetometer/lnclinomete_ycheck: / Tilt check (-45°): ~OK Directional (N,S,E,&W) tilt check: [i6' OK
North check (placing object in front of camera window at north): doK
Top of tool zeroed to land surface: ~heck) !)t>UJN Vb~t-J/ufl
Startingtimeoflog: /Zt../7 / /3tJS" DepthStart: 5'.o9 ft lt/0.05" 1 , Ending time of log: (3t:> { /!3 Z I Depth End: Jlft>.t:£: ft 5 .D~ ..
Logging speed: Logging direction:
I
.,... ff. l. (<8ft/min)
Wt~N/>Jf
Round trip error check of depth: 0.0
Depth Bottom: ____ ft
should be <2% or'tlie total depth
: ; Collection Note any problems or points of interest: · · - ~ Window
~:?:<.t;"U-'<-fJ._.PP-rt:7'""· !)"'--"--~""""~ -?f.-:--t(';.;.;.t>=-'ti"-:-'1-'-:-'-o_u=e·'-· .!...,;.(-Z),---""1'""""()-_,~"-f-"""'~'--"'-M._;;,l.....,.,_.. """'M'-"-"--ticJ---79'-"D""""I_· _,_,t ;J'---· _·1> ___ Tool Bottom h. i> ffvm e> + Toot. · r
Checks: ( tft/ 1. Data sampling interval: 0.015 ft Pts/turn: ~ Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
science for a changing world
Century I Caliper log Tool serial number: 9065a
WELL NAME: .P~ --o 9 8"' Date: 3~::?-1/
NWIS 15-digit id: --------- Operators: S{-o./! .. )0 C tJ...I J (..ve 1/ Location: ~ [7 6 !I()..// f"b..X -
watch time: I ..S /3. Project: Rox: b Of'Q ·t="P!f 6z1/l If computer time: / .S"'/ .S
Geophysical log reference: measuring pt or~
Well information: I ;_ r Describe measurement point (MP): f { O..h!J f' OJ!\ W P . @~ CO:S ..... ~ ·~ Depth of well: G-a. ft below land surface· V Height of MP above land surface: ... ;23 ft I ~o fo Water level from MP 29, (p~ ft @ :!;';> ' Depth to bottom of casing: .3·S ft Nominal diameter 0 inches
Notes on well (water guality,need for PPE, or problem areas:·
Top of tool zeroed to land surface:
Starting time of log:_;_!""_. -'.J._. q...,...· .. __ _
Ending time of log: _:....(_5_....-_3_. ·_P __ _ Logging speed: J { Logging direction: ....;U;.:_P __ _
Sampling rate: ~ \
Round trip error check of depth:
2-pt Calibration: Point 1:
Point 2:
Note any problems or points of interest:
Depth Start: '~;::?tq ft
Depth End: 1 ;~ q_ ft
Depth Bottom: b ;;t 35'\ ft
should be <2% of the total depth
CPS: 5J1•6 61- Of
CPS: ·''lfJ:.td lr () ~
' , =-O:j{J F';":,';)J'.i-7 /Yllrr 1 /(A- r;-~~c'J.
science for a changing world
Century I Combo tool log
. '7~ /oac-( WELL NAME: --'c..LL~P ___ ___.:IO;_' __ _
NWIS 15-digit id: --------
Location: .:2 f7 b /1 fJ. I f.{.~ fl.,J Project: a 0 v.&o ro ePA
Tool serial number: 8043a
Date: 3 - 3 - ( / Operators: 5 flt.vfo ·, ( 6\.1 J /).) e_//
. ,. -watch time: .f .> 17 · computer time: I =:F4 7
Geophysical log reference: measuring pt or leqi~~
Well information: r .. 1 C:: t\ Describe measurement point (MP): ±J c.! II\ 9 e_ 0 1'\ ('·IS fl (}) r· (a.£. I -1. ~
· ·Depth of well: cfJ cL ft belo~ land surface
:~r:: ~~:~fro~~~ land surface: $ Ot ~q .(:,~ ~ @ I s;-Qb Depth to bottom of casing: 3 eC ft Nominal diameter ({z inches
Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ~heck) E-log mud-probe grounded: ~heck) Log Down Log Up
Start time of log: I t6 Dl Start time of log: ·/ s-, 1./3 End time of log: 
science fora changing world
Tool serial number: Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: f> "0 f g Date: ..Y ..-:)-/ /
NWIS 15-digit id: -------
Location: :2/ l 6 )-h.e 1 '{:CA.;( l)d
Operators: s·f.o.-.vb; (vt /J M&ft 7
Project: R. 0 X 6a ro e ?/f' ~>1 tf watch time: /:f.tJ-4~ computer time: /r?:Jf
Geophysical log reference: measuring pt or~~~
Well information: r-r {o , .. Ft(..Q .f/~ Describe measurement point (MJ): llCi/11...~ tJ /.1 /? O. · · · · r Depth of well: c:::? ;}_ · _.. ft below land surface Height of MP above land surface: "::20!7 ft · / _.,.fl6 · Water level from MP ;:l)q vii> d, ft @ _ S f/ (time) Depth to bottom of casing: (.:;., ...35" ft Nominal diameter "'-"' inches ... ,,:1:-:
Notes on well (water quality, need for PPE, or problem areas:
Magnetometer/Inclinometer qpeC'k: Tilt check (-45°): OCJ6K ·· Directional (N,S,E,&W) tilt check:
~ ,J North check (placing object in front o/era window at north): (36K
~K
· ~t(I1W~ss GO~~P of tool zeroed to land surface: [!21(check) ·
e'J(..p ~ de Starting time of log: / filf i Depth Start: G, I C6 ft
JN!)f'fll"@{ Ending time of log: / b & g Depth End: b ~,./] ft
Logging speed: · Logging direction:
--r-....l~L.f-:--(<8 ftlmln) t..{i!~u ....
Depth Bottom:
I (J~I r.! )' f\-0 . 4'1 I ..! ./ .,V Round tnp e~ror check of depth: @ t1 '0 should be <2% of the total depth
Uf' '~ \'706t; b;)~l.7 top•' /7~ t01 5, I~, Q,..;~ .... ijQ~J~j~ ~ ~Gl ~ote any problems or pointlof interest:
-""W i:.J f.l----------------------------- Tool Bottom
Checks: 1. Data sampling interval: 0.015 ft ·1·
in dark rocks choose a higher light intensity- 8 -10. Light: 6 or 8
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e ef
fect
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f too
l mov
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t, w
hich
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ses
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ppar
ent v
ertic
al fl
ow.
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e fl
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ns th
at th
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fter t
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P, b
ut th
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icke
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e su
re to
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e th
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ent i
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t was
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t -
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ay h
elp
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rpre
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f the
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ntic
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.-; 00
11
sour
ce:
1/24
/201
1 cj
ohns
on@
usgs
.gov
A
mbi
ent C
ondi
tions
For
ms
Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL f'.S-0'1f{ Date: '3)1 /11 Operators: LtJ~t.-/t;t.. S ····--Pumping-rate_ gpm,--=--......_;=----watch-time.:----· ---~-----------------
Height of MP C5, 2-t;;' , computer time:
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at __ . ft below MP .;; ~ J t;;' Note any observations in the discharged water: smell, turbidity, color ...
jro IY .j;lr>. k I? .5 I" tvo.. ter )
Be sure to note when the pump was turned on, changes in pumping rate, pump off, et~. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water drawdown Disch~te measurement time level rate vol time (s) Q (gpm) Comments:
f'rwn .MP ~ {) '14·'1 r:J '1.-3 5 511CJ a q, S"-T 100"1 Ol Cj I G'6:, I '0 d.:.O ~Ct55
:l 0 1./-?..-- Z-1~r...3 10<:0 zq .("'-J D '§7 ::Jq.~~ l/t)? zq .'r-tf 2Cf -S"'Z.:. 'lfl..OL.l-Jl '2!--1 I'L /3CJ .II'-! 2-Cf t.o/
17. l/ zq.\'i 2'7. 5'5'5 /2-? -zq.~~ -zq- ("'b z.:..
l/2B 21.6'3 (11.~t, I II 3~
.... JL- 1.5.3 e/03 ...
!139 :21,!!31 ().Cf,$;L 114:5 /L J 7~ .. f>'l ;;:a,~~ /15"f0 ;;l'f ,6 3 /L 1~'3 ,.,/03 &CJ. s-.3 t~l I /'i!3 .037 r:J9, .$'2,. d,/:;1.. 2'1,57 ·Fiocu Sl ODPP r,\ ,+ rneJ num ,P UP .2'1~->tt?
/OI..['S lbwe ~etJ flOMf: .. I I~~ 1:1.1 JCf, S/ 1 CJ. at~- ;J~.s7 ·:· f /0~ ,/47 ,JC?,$'3 I ;i.d-"6 " ~ I o ;z a'f~ ':7 a 'l. s- "5' /237 .;}I\. b4 J /(}(L, oJ1fJ ri .. l'L .> l JQl4&:, cl Gj, (l)"t .. ; /0~ a 9. :r"f ,.
'
-. . ..
MP=measurrng p01nt, dd= drawdown, Q=drscharge (or rnjecbon rate), val= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping.
· That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftlmin
fjtJ 1~13Df TrtoU,.,
...
HPFM_and_Q-test2.xls ., 14s:- [email protected] 2/24/2011
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t or
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alue
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ccur
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cts
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ause
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e rl
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ns t
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ived
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er th
e G
P,
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ter
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e G
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to n
ote
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occ
urre
nce!
I I
. ch
eck
me
asu
rem
en
t ind
icat
es th
at a
dup
licat
e m
easu
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ent w
as m
ade
to c
heck
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iste
ncy
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rlier
mea
sure
men
t.
um
bre
lla n
iark
s: in
dica
te th
e w
ay th
at th
e di
vert
ers
wer
e se
t -
it m
ay
help
with
the
inte
rpre
tatit
on o
f the
dat
a ~for an
ticip
ated
upf
low
and
~for do
wnf
low
sourc~:
2/24
/201
1 cj
ohns
on@
usgs
.gov
l
Hig
her R
ate
Pum
ping
For
ms
.' ;-
;\
1kH;
EUS science for a changing world
Century I Caliper log
WELL NAME: _P__;_)_~_{)-'-q_..;..q __ _
NWIS 15-digit id: -------
Location: J<JtJ() tf,rqd11vct /2J Project:
6;vlf{ f)&drotvt~s ])pl>tU
'5/fll tb9 Tool serial number: 9065a I
Date: 5 · '2- ;a. - tJ
Operators: W SC:../Il'i-S
watch time: I 0 : ,·g;lt> computer time: l D: I (;; ID
Geophysical log reference: measuring pt or Jand surface
Well information: . • Describe measurement point (MP): 7bc.- - 6\-!;vrn.oi\.1 \}fill. Loc.k..,Nb eo llt.Vl. Depth of well: 3DC> ft below land surface Height of MP above land surface: o · qfl ft Water level from MP 2.&. _ ft @ /0 13 Depth to bottom of casing: t;, cJ. ft Nominal diameter t;; inches
Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ~heck) Starting time of log:
Ending time of log: _ _,./_.}_,3:;...D____ Depth End: 2t::J6,1Jtt
Logging speed: I b -12.-{ t.JiVS/etuJy) Logging direction: -=U.:...P __
Sampling rate: • 1 D
Round trip error check of depth: ~ C>. I I
2-pt Calibration: Point 1: tP. 3 f inch CPS:
Point 2: 8, ~Z.s"inch
Depth Bottom: 3D I. B'tt IC>o£.. tert.qfh -=- S'./3 4
should be <2% of the total depth
?>!t1to.7
.J._o}- # - 'l'i. q 1./ l> s 3 7 /...b tv? t:t 3 ((;;. t.f J $" 9 g r'
[J..N)l1118 I ;v(.o : ua:h Cof¥1eted ~ /31/Cf2
3o e> ++· De.p+t,.. ~ t../ -A- CD.'6 I ('>.1"
'/Jel J ru ~ p~
0,13--c-----------
science for a cllanging world 5/IV 8gf.:.. Century I Combo tool log Tool serial number: 8043a
WELL NAME: _P_..!'5::.._~ D_9_:_Cf __ _
NWJS 15-digit id: -------
Location:
Project:
/800 -Vtrqt J,N6.. !2.oa.J /lo}t boro GfA-
Date: __ 3_~ _2-_2-_-_l_l __ _
Operators: uYS.(...(t;l-5
watch time: f/.33:4/ computer time: 1/: ~3 ;4{-D
Geophysical log reference: measuring pt or land surface
Well information: ' Describe measurement point (MP): ·-,bC "'Alt../J'VW'\.him. LDc..bn'-'6 ·toi/DIJ Depth of well: 3 DO ft below land surface Height of MP above land surface: 0. q 5 ft Water level from.MP z.C.. .l tf ft @ I D I 3 Depth to bottom of casing: ;;.. 'I ft
. Nominal diameter C,. inches
Notes on well (water guality,need for PPE, or problem areas:
11/\ 11\il ll..M?' 3oo D -z.. C> DDro h1q Ufd:· w/ A_ wd"''JD.f-, o t\:l . f'l . l f I
Top of tool zeroed to land surface: !l( (check) TOP 6t>tfofl"-· o=/- o.oo · 1 .r .ff
---------,---'=-u.t~g..rn.ur:bprohe_gmunded· ~-(ch_e_c_k ----~.<:.==--___Jt...!'~-=---------------
Log Down
Start time of log:
End time of log:
Logging speed:
Log Up
Start time of Jog: (2lY1
End time of log: / ~31
Logging speed:_l_;i...- f(p
Depth Start: '7.5 fl bt>"l/b""o.f-.f;.()l Depth Bottom: 36/.DI f?f- 13oth>fll'.()ffool.
Depth End: 'b D l ' 0 I 4 bb-1/r,fV\ of~'D~£ Sampling rate: , I D
Round trip error check of depth: - l> • Z 3 ff should be <2% of the total depth
Note any problems or points of interest: , 1 q ToP o+- :loot- 0 qJ.77 -Pf@ 1N1 J th 1
USGS science fora changing world
Mount Sopris I AL T OTV log (OBI 40) Tool serial number:
WELL NAME: __ p_~_-()_·Cf_,_<=[ __ _ Date: ;3 - 22. - 20 ( I
NWIS 15-digit id: -------- Operators: uJ'Pt:-/Gl5 . Location: { @:, () b lftlCfl/ r 1\l t1. (Lt.H'.i.~
,.., ,·t.tQ.·i/0 lA: watch time: a c; ' Project: ~!..ox horo b computer time: 12 ;t.f<::J: 3'S
Geophysical log reference: measuring pt ~rf~0 Well information: ·
. Describe measurement point (MP): roc.,, AL.vtvtiNtJPJt>tUtNb Collot. Depth of well: Height of MP above land surface: Water level from MP Depth to bottom of casing: Nominal diameter ·b.,
3D D ft below land surface o.tt~ tt ·· Z6il' ft @ /DI3 (time)
&.__:_. ft inches . PTW/31tlf':TJ.§.tf7@. 1343
Notes on well (water quality,need for PPE, or problem areas:
. Magnetometer/lnclinometel/check: / Tilt check (-45°): 0 OK Directional (N,S,E,&W) tilt check: · [0' OK
North check (placing object in front of camera window at north): !S}d'K
Top of tool zeroed to land surface: ~eck) . -. I . 7 .. Jot.J < p DD~t1/up . 'l&f? [efl., :_.-~~n /). '-' ..
Startingtimeoflog: /304 I J ~47 Depth Start:~ :J.~.q.{t,
Endingtimeoflog: ):S44f 1'-fZZ-- DepthEnd:~i.rs Logging speed: -g /S'(<B ftlmln) Depth Bottom: 3 01~ 9 J· ft Logging direction: b6.ti-)rJ/uf'
RP (bottom of tape)
T~ II ~ Magnetome er
Ll f, :1 r 'j ( :'. [!;l P·l
i! ~: :_ "; f~· ~ .;
H rn: !i t~·l r; ~j !" [\ ;j 1:''1
~;::1 ;\':l
Round trip error check of depth: should be <2% of the total depth /! !j d~p-\--\-, 6· e.~o~ ... ?. !5 j J; Fe ~ -· ' D 3 __:.. f' ·] Collection
Note any·problems or points of interest: + 1 p JJ Window -'=l-""lr{/._,M:ut.:..:;'N=!-o/~~='ei-::!-...!h:l-"'---l:tf:,=D:::;_____,h=o~r.N=-=-"l=----,;~·..!-J1~
1
~~h:--f--e,.:...1-~,@:-=--~.!::::0.:.._. !..!h:.l.-r--=..U__;__' Too!Bottom
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drivel!
-300.~
s sciel!ce for a changing world
I . ~ ,4-Mta te;,tr
Century I Combo tool log
WELL NAME: __ P_5_-_o_1._. ~----
NWIS 15-digit id: ---------
Location: f f' 00 t}r f q l f utlu. P. r)o.d
Project: /2o}.c:bor o EPA
-s/rJ 8ffb Tool serial number: 8043a
-Date: __ c-f_-_7_-_z._o_u __ _
Operators:_..:::.t.;.X. __ '-~(1....;/ii._~_S __
watch time: 0 1: Lf/; 'fl computer time; t> 1 :if/ :c{--f
Geophysical log reference: measuring pt or land surface
Well information: . Describe measurement point (MP): 1"'0 (_.- /tl..U(llluJ u(Vl lucJ. U /{a-, Depth of well: '3'00 Height of MP above land surface: !) · L 15 ·· Water level from MP "2. ), "3 \ Depth to bottom of casing: C, cj Nominal diameter (!? inches
ft below land surface ft ft @ 0 rs-'-1 2-ft
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: (check)
E-log mud-probe grounded: ~heck) Log Down Log Up
Start time of log:
End time of log: I{) 11 Logging speed: ..-.... I tJ ~~,v 'Yf:
Round trip error check of depth: - 6 ,· D 1ft should be <2% of the total depth
' I
0
1 f o
o · V
c rq
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ll N
ame:
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l ser
ial n
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pera
tors
: V
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Des
crib
e M
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ocl..
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For
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rchi
ving
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ate
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f MP
ab
ove
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e flo
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r:
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dept
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ror:
D. '2
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belo
w M
P
/ --
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ch t
ime
: I D
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pu
tert
ime
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w R
ate
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llon
s p
er m
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epth
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low
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ote
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ect
ion
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h
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r +
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iff.
in
Not
es •
incl
ud
e in
terp
reta
tion
(i
n fe
et)
Dir
ect
ion
o
r w
ith
up
or
do
wn
arr
ow
T
ime
fl
ow
rate
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Century I Caliper log sltJ (,o1
Tool serial number: 9065a
WELL NAME: _..:_fJ-=-5_-_o_~_;_{_· __ Date: __ 'I:_·_-_7_-_Z_o_l...;.l __ _
NWIS 15-digit id: -------
Location: I fj Do Vtrq)uvO.. aoa.J Project: (!_Ol.Obo(b ~PA.
Well information:
Operators: {r.SSC-(GL-5
watch time: {) 1 0 0 ; :Z.O computer time: !Jtz i) 0 ,· r-:1
Describe measurement point (MP): [DC- - Jl-£... \.ltvtcrrJ tlrF>t Lotft1"'9 Cot/tJ;fl. Depth of well: "'So o ft below MP Height of MP above land surface: 0 , q ~ ft Water level from MP -z. Q I ft @ t>t t.f Z-Depth to bottom of casing: ~ Y ft Nominal diameter ~ inches
Notes on well (water quality, need for PPE, or problem areas: ==============~====~===================~==/DoL. L~ -5", 13
uP 16 -c.r A/IVltN Bo /:laf"'. a.f- TiJIJ L
Starting time of log: Depth Start: 5".13
Ending time of log: 60f3{ Depth End:
Logging speed: Depth Bottom: 30 I. 30 ft Logging direction:
Sampling rate: b. t ()
Round trip error check of depth: .- {) I s t.f f (- should be <2% of the total depth
Note any problems or points of interest:
LoX tt - '7fr, qq. tJ~.3 lorvc,# 3~.tftrrqttr
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL P5~Dqq Date: '1-ZZJ -z.ott Operators: _$ +a.__v£ co...lJ.c../e.-1/ , _ _,.; Pumping1ate _ gpm atch-time:-. ---t.D~&B"-'flf:{'7-8H4t'EJ::r-~· ----------......::...;___-----;_.._ __ _ Height ofMP C>. Cl5 4 computer time: O'itt{S ( b
These data are used to compute the open hole specific capacity. With additional programs you dn calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at Th ft below MP Note any observations in the discharged water: smell, turbidity, color... A
Be sure to note when the pump was turned on, changes in pumping rate, pump off, et~ . . Thes~~ data along with fluid temp and resistivity data collected after pumping may help in the/Interpretation the flow meter data and the hydraulics of the borehole . . ~~-
Watch ,_time
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water level
~4,1;;! 31.47 31.4 7
drawdown Discharge rate measurement · rate vol (g?il) time (s) Q (gpm)
II I 44 .v
MP=measunng po1nt* dd:::: drawdown, Q=dlscharge (or injection rate), val= volume
..<' •l I /('{)ff
We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of th~ pumping. Tha.t is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft/min
Comments:
r
HPFM_and_Q-test2.xls [email protected] 2/24/2011
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EUS scienc;e for a changing world "5/1\J gg-~ Century I Combo tool log Tool serial number: 8043a
WELL NAME: _ _:.f...::::5_-6_9_9 __ _
NWIS 15-digit id: ---------
Location:
Project:
I ~oo 1h1qJ/11~v. !2J f!ox:~oro FfA
Date: __ '-/:,.__-_2-_D_--_z_o_f_l_
Operators: uv5G /Fl-5
watch time: tt/: Df/:zt, computer time: z: {)IT.'?'/ PI!-\
Geophysical log reference: measuring pt or land surface
Well information: /: · L Describe mea~urement point (MP): I 0 C • 4lviVl.tf\JcJn, l OC-r.. Col/cue Depth of well: 3 0 D ft below land surface Height of MP above land surface: .6 , dJ ,..- ft Water level from MP ;:;;:__~2:!-'1~ • ...:lr.J...,.. -'1-ft @ 135;'1 Depth to bottom of casing: t, t.:/ ft ·Nominal diameter 6 · inches
Notes on well (water quality, need for PPE, or problem areas: 1
~~L .. terfA rt.r · . P~CJ '"" I =-t:i-~tY'-
Top of tool zeroed to land surface: ~check) E-log mud-probe grounded: [ff{check)
. -------·-·------=L=og Down _______________ -----------· Log Up --~~~--------------------------------- ----
Start time of log' (l/ 0 fl Slart time of log,---v
End time of log: I l/3 if End time of log: v c I etv-'\ rsz( I --~-/ . /1
Logging speed: ..,.... ' ~ "'f!nlN Logging speed:_.~ __ ' __
Bc:>Hof\1\. Ti>Ot.- ---------------------------------------------------------------------------~--------------------.: ___ , {.~t>./1· Depth Start: 0. oo ToP of.TDcH..- Depth Bottom: 3tJI;if>b . ' ;/::: a . ... Top o.f mot.. . :,:•"
?JO 1 :oo . Depth End! z. 7 §, S D Sampling rate: 0. I 0
Round trip error check of depth: - j)' '2~ .¢1-' should be <2% of the total depth
Note anyfroblems or points of interest: .. . 75lottJe ~ zq .C·t -..:;,. t,?./ R- of r!C!.'GJJt.co -h:r T~~~.o. :5-frur-·f.l-.~.~
{8) >&.t./-..f-.1- 1/'V ~~·f+lf'!ll!N ...- < ' ' •
."".f!)~Oec....f- !AJ'll\l Lt-. f\Mll111-; fi.J',::J/.11'./LI M,, / 5r?.n) U ,/,"1),".':. , . '-611'frfi · A..dd-uo:11i..D - )2.-.• '7 -- u fJtt.D ..,_tt:/-_l'ffinll-:..; : ilJf>tr C-Da'<iftdur.l-:1/'~
• .y ,.,..
I q f 2.. Hvlc.~ (2d ~ - '7<6-. 9'-/lf
Lt>N6:tt 34. t./-1 ~b
science for a changing world
Century I Caliper log
WELL NAME: _J-P....!:!:s_ ..... _..!_,-=-D_o __ _
NWIS 15-digit id: ___ _:_.. ___ _
Location: 11/ Z /}~l~ f'lbo.J. Project:
Tool serial number: -5{r;:,5a?tjl
Date: __ -s_-2_._2_-_Z_o_l f_
Operators: W'.S L / t;' L.S
I r-()2 -d watch time: .S j 1
computer time: {Co2- 3/
Geophysical log reference: measuring pt or l_and surface
Well information; . Describe measurement point (MP): JC,c - /1-lvrv\\ NU f\1\ l,oc}?. l.'oUQ-1\ Depth of well: . It/ Z..·:·: ft below land surface Height of MP above land surface: I • 0. ft Water level from MP 2~ ~~ ft @ It/ S'"'~ Depth to bottom of casing: :21 ft Nominal diameter & inches
Notes on well (water guality,need for PPE, or problem areas:
7> ,:uere-11114 L .LPJ1A11 -! :-J.?..Il 1 II~ , J ;J})J.J.f)tJ .aMd. f-'k~e.l dM:f IJM.(~M.& ~ tJO.~lil\iti "> . . Df/Jf1-. . -· . . . .. .
Top of tool zeroed to land surface: ~eck) 7t>P ?>{(iJ()r. ----------_-_----_----_---~--t~rti·~~~ti·;e.of-log: ===!.f-::;;:5:t/:z:22::::3:2::=::=====----Deptb-Star.t· . 6 ~ /) D- ft
Is_., I? Ending time of log: _ _;_:=-..;r:_?-____ Depth End: - • 2-D ft
Logging speed: il> Logging direction: ....:.U_;_P __
Sampling rate: , JD
Round trip error check of depth:
2-pt Calibration: Point 1: G. 31b inch
<!:: /--:r··../ Point2: e:;,o¥:::; inch
Depth Bottom: Jt/J.B7tt
-()."""_ V<..J should be <2% of the total depth
bJjf£>;'-4! Cps·. . 3 I 3 "11,., Z- ::<- f aa z:>q-t:fO,f::,it
(JJ-4.)) (t;u:f
[lj 2-- r b etlft.. _ 31 1 ~({\)b
E SGS science for a changing world t.?'N fj&'"b Century I Combo tool log Tool serial number:· 8043a ./
WELL NAME: ---'f5'---... _l_D_O ___ _
NWIS 15-digit id: --------
Location: / '11 2.- tfoli·().l)(. fllJ Project: f2oxhoro f3 PJ!l
Date: '3 - 2-"2- 2 (){I
Operators: uJSc../et..5
watch time: IS'" if 7 17 lib¢ computer time: I (lf7 I 7
Geophysical log reference: measuring pt or land surface
Well information: Describe measurement point (MP): roc .. A-t.v!Vl/ ,Jt)~ Lod. thtltvl Depth of well:· I tf-2 ft below land surface Height of MP above land surface: J.D ft Water level from MP . :?5'.~ ft @ I tf!'"s:' Depth to bottom of casing: . .39 ft Nominal diameter b inches
Notes on well (water quality,need for PPE, or problem areas:
Top of tool zeroed to land surface: cz('(check)
----------ilog.mud=pr.obe..gr.our.Jded~· ··_idi(check)_· __ -_ ... _ .. _-.. ----------------------'---_ .. _____ .. _--_--_-_
Log Down Log Up
Start time of log: l~f'-1 Start time of log: 1 tori r/' End time of log: fj,oJ End time of log:
I? lB . c/I!CIM- 5ef ujJ
Logging speed: 15_ Logging speed: 15 __ rof·root o.o -~~~~~-~;~~~--;;-.-~o--!;~;:;:~-b"~---------~~~;h·;~;~~~-T¥3-.~0i---------------------·
/3S.S I Depth End: ,/l/-3. Dl Sampling rate: • I D
Round trip error check of depth: --. 18 -0- should be <2% of the total depth
Note any problems or points of interest: . 5ToHifl> · IDP of wst & z.~ zl.fi· e9 f.rs6 -15:"0
Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: __ P..::...S_,_l_O_o __ _
NWIS 15-digit'id: ---------
Location: 1'1. I Z- Hal1bx,/£J Project: lo V bDfo EI~A-Geophysical log reference: measuring pt or land surface
Well information:
Tool serial number:
Date: _ _,3~~-=2:....2;:__-..:...2-_D_(..:...f __
Operators:--=6J=--.:.S_t-+/...::f....:L:::...:5:::___
watch time: / b l/ B ~3l> computertime: ~~~/BZ'f
. Des~ribe measurement point (MP): JDC. ~ Al.Ufl?.ff')Um l.t)c..ft Lol}a_.r/ Depth of well: I£/ b ft below land surface Height of MP above land surface: I,/) ft Water level from MP 2-5".BR ft @ !l/.((.:' (time) Depth to bottom of casing: / 8:=} ft Nominal diameter V"' inches
Notes on Well (water quality,need for PPE, or problem areas:
Starting time of log:
Ending time of log:
Logging speed: Logging direction:
-:::';: c;{ (<B ft/min)
~ Round trip error_ ~~eck of depth: o .o(o .C-+ should be <2% of the total depth
24:88 @) t139 elose oo+ n~
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!l
RP (bottom of tape)
j.D ?f Top ofTool
-,
t} l~r6t /t'f/ i'
I /, 3
ltfJ;.~t> , .r•
A·nth~.e~t "l
Century I Combo tool log Tool serial number:
WELL NAME: _......,0'-'-~r~)-'"'_I_D_() ___ _
NWIS 15-digit id: ---------
Date: f -2D- ZDll
Operators: f..,JS.t:- frL 5 t
Location:.---l.f...:.q..:..:/ Z.=---'ft,.!...!fl:-!..!1-~l..:..P~A:,'(~~-=---Project: {lry;cbfo ~fA
watch time: / s":.SD : t/ { computer time: 3 ; S:D ;3Cf .pG""\.
Well information: Describe measurement point (MP): -[bc_- 4i.tJn"\.ti-JrJ;t.,_ ib<:..k,. C.::li..{t).-"'1 Depth of well: ) i/ &- ft below MP Height of MP above la_n_,d-s-urf"""""a"""'c'-e-'-: =--,-_-D ____ ft Water level from MP z.c./. bo ft @ Depth to bottom of casing: "g9 ft Nominal diameter ;;., inches
Notes on well (water quality, need for PPE, or problem areas:
Log Down Log Up
Start time of log: f ':{' 3 Z-- Start time of log: • , 1 .• /
r l A ?.. y ,~·le:ci·ru ttt/ Ell End time of log: /.:> u ..::> End .time of log: {...- '
Logging speed: ·-,;;::- r_s--qf,r.;:; :v .... _. _____ Logging speed: 1-~ . '·
-~:~~-~;~~~---;;~-;;-o---nr~~-;-o-~~-----~;~;~-~~;~~~--T'l3-:e;7--------------------·
Depth End: I 7>S.. SD lDf Dt.2f!.loi..- Sampling rate: 0, I b
Round trip error check of depth: _ {). D3 ,?r should be <2% of the total depth
Note any problems or points of interest: 5tOPPt?JJ TDP ~ tDOL c.k 39 .3r; !+-@ L\3>~ fc, Pcitad ... r:: ·· UX:::. {\;1 d.ri 'PaJ.&~· •
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WELL NAME: __ f_'J_--'-/_O_O __ _ 7---(2.-Z.{)fl Date:---------
NWIS 15-digitid: --------
Location: I q I '2. lfo.J+o1(, f2.6aJ Operators:_W=----=-S-=-t.---J.,/~B;TwM__:__
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Describe measurement point (M.:...,Pt.::.,): ,---__:...,"{j_D_C,..-...:.___· _A_:_L-=.-V..:.flA-:.:.:..:.1 tJ:...:tJ:..:.i'_"~--=.[...:.v..:::c~. k.:...:-·· -=C=o::::..l::.::.l~_ Depth of well: ) L-f 2_ ft below MP Height of MP above land surface: I . 6 ft Water level from MP z_if.'J I ft @ Depth to bottom of casing: __ .:::3::_'j.JL_ ___ ft Nominal diameter "' inches
Notes on well (water guality,need for PPE, or problem areas:
Log Down
Start time of log: () B IV End time of log: !) '6 Zh
Logging speed: v-- \ S"' .f+~;"' I
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Start time of log:-'-. __ _
End time of log:. ___ _
Logging speed: ___ _
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q I f! d lDGff../1 Field form for recording discharge and drawdown data used to compute open hole specific capacity
Date: Pumping-rate-.==·gpm-· Height of MP J, D
Operators: W S L-/ P.:.J~'Y\ ----watch-time. ttf:or · 2~
computer time: 2~: D I: 2 :;· pr.t~
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at 30 ft below MP Note any observations in the discharged water: smell, turbidity, color ...
Be sure to note when the pump was turnecl on, changes in pumping rate, pump off, etr;. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water drawdown Discharge rate measurement time level rate vol (gal) time (s) Q (gpm) Comments:
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L\rJq 9.S.,5A I Dt:>6 fl/'1 L ~o.l£:.. ,.os,S:r Jsn Js. f<f {c06n1( ;::)o.o ~ [email protected]:/13 ,:)S.55 lDhl""' L .f1,'$; .. ~s;sc;;~_
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.. MP=measunng pornt, dd= drawdown, Q=dlscharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft!min
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HPFM_and_:_Q-test2.xls [email protected] 2/24/2011
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WELL NAME: __ P_5_,_1 O_o __ _ Date: --~..:.._~__:-1:_::.?:___-_2-_D_l_l __
Operators: {tJ 5" I /!Jf fVl NWIS 15-digit id: ----,------,
location: I Cf I Z .JicJ~JG f2v 0-.cJ Project: ~J:;Xhon) ~fA
watch time: I q ·' J 2- : I D computer time: -7: 12 --6 '1 fE'"''
Well information: Describe measurement point (MP): /b c ~ /!ll..i/'l'l ( n._lt.)Jo/\ l()c.J u> !!~·- I
Depth of well: ( t/2;_ ft below MP ~--~~~--------
Height of MP above land surface: I. o ft Water level from MP 2- 'f. 9 7 ft @ lCf 2 I Depth to bottom of casing: 51 ft Nominal diameter .b inches
Notes on well (water guality,need for PPE, or problem areas:
Log Down Lq~. ~l.)p .· ...
Start time of log: / q ?/ Start time of log: __ _
End time of log: J q 3 f End time of log: ___ _
Logging speed: .._/' iS:-%~ Logging speed: ___ _
77> p [Do~.-- ------------------------------------------------------------------------------------------------------· o,_oc--:> Depth Start: '1. So (3o-t/~f'l'{" ~~Depth Bottom: I</ 3. 8 7
I 75'.5$ Depth End: J V 3,obf!o+/oM -/v.>e~o/ Sampling rate: D~ ru Round trip error check of depth: - 0. zz_ .({-· should be <2% of the total depth
Note any problems or points of interest:
/
5"/D~() douJtJ =thrd b.J{i]S-t /'"I, ltvo -r·hfd /'rr Stii..C, t-:,., C.:)O t ddt . ../ I'···"' tf?.t,vtp.::; o..J·P.J'e ? "7 1:_\o- P
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Century I Caliper log
WELL NAME: _.f._P..::.s_~___!...:t D_;t __ _
NWIS 15-digit id: -------
Location: ISSs- /fo..J4fPIJ f4la.J Project: ~o>CbDro t. Pll
Tool serial number: '5/N ~tJ1 . 9065a ~/""
3 . z. 3 - LD I. I Date:---------
Operators:__,&J_S_t,-,t./:.._!~JJ_L_S __
watch time: () 'J:l/r;:z_o computer time:c:;lq. "t(C /1
Geophysical log reference: measuring pt or~
Well information: . Descril:!e measurement point (MP): roe- -Atufl'IJ~tlpil\ Loc.k- 141/cva Depth of well: -:---:---:-...::2-::...6:::..,:::3:....,...,,_--ft below land surface Height of MP above land surface: I . o'S"" ft Water level from MP 2 3 . (p '7 ft @ t)q t{ r Depth to bottom of casing: J2Z, ft Nominal diameter &. inches
Notes on well (water quality,need for PPE, or problem areas: f .I IJ G - us . I f.x:c.e { I "-Ofo - 'Hfti/.'Lk.. '5fJmf) • Dt4 v I D ~ r.r tr fV\
_ M={ererv..tEc, _: sud,. a.~ f.N..f2..L! ca.<.t!VCJ f..lo5.ea · _ ,L -tz:> 52- ..ff- -1-l,.ow. s~ ·A- -~~f.~V(Jh:Qh.., 65'-5",tt="ts. corre.w ... Top of tool zeroed to land surface: uz{che.ck) fo 0 l. lB-Vl6J fL. 1-u 56!-1tt-5 0 (l.. t;;".J 3 .?t
------"tar.tir.tg.time.of.log: ··w Lk.. O:~Pfu=st~rt:.i'i¥5?~~~------ 'r47:-zL/==--Tc>-P--(j.P-f:-ol!.l:.. ---·--- · -+!.I~
Ending time of log: ( D 31 Depth End: -, 3 8 ft 2-~ ·
Logging speed: // Depth Bottom: 2.{)2.··31 ft Logging direction: ...;;:.U.:...P __
Sampling rate: , 16
Round trip error check of depth: should be <2% of the total depth
2-pt Calibration: Point 1: ({,. 310 inch
. M/tX(J CPS: 31 f(2 ·S 3t37C.. to/1
Point 2: ~. Cl~inch CPS: L/otlo ~-: 7 3.~'1~0.fig
Note any problems or points of interest:
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Century I Combo tool log 5/N 98G
Tool serial number: 8043a ";:/
WELL NAME: f~ "" ( D { Date: ""3 ~ Z 5 - z_ot{
NWIS 15-digit id: -------- Operators: (.,..)?'-ffL.S
Location:_...:../.,;._0i?;:_~--'(!...!..!'fi1C.L.' L.:...:..t..:...;(A'-'-')'-'---.!~!2-=d.::.._ Project: flox:-hD(D fPA
watch time: I D ; r.f D : 13 computer time: ID :i./D ;y 2..
Geophysical Jog reference: measuring pt or land surface
Well information: Describe measurement point (MP): roc - lll .. c.lfVI.ii'-IUfY\ Lock /!o{{(J./\ Depth of well: --,-~2:....0:....3"""--__,..--.,--=---ft below land surface ......., . ~ Height of MP above land surface: I tl>~ it (Ot:JL 1DIJ · Water level from MP 23.~7 ft @ o9tfr = 2 3.11 e;/1-zo Depth to bottom of casing: Sfo ft Nominal diameter G inches
. Notes on well (water quality, need for PPE, or problem areas:
. MmJ.RC/e .30oo o. D PPM (t!) to ll8
Top oftool zeroed to !arid surface: uz((check)
- --- --·-- -- ~-~~~~mud-pmbe-grG~nded-: --~eck),~-------------···..,..· ·_··-_---_-·_· _·-~-·-·-_··_····-_···-----'--
Log Down
Start time of Jog: I D r-r End time-of Jog: · II I D
Logging speed: ..__... 15 f~
Log Up
Start time of Jog: l /I Z- · I ' . j 5ef vp c; t'ttl\rN'J 0
End time of J~g: // ~ 'iJ Logging speed: v-1 \'~
-~~;~-~;~~~--;;·.--oa····;:;-;-o~·;;a·t-·------;~~;~-~~;;~~-2o"Z-:31·---------------------·
Depth End: l 93.{)2- ri>P ofToDL Sampling· rate: , ID
Round trip error check of depth: - 0. ?8 4 should be <2% of the total depth
us science for a changing Wl1rld
Mount Sopris I AL T OTV Jog (OBI 40}
WELL NAME: __ P--==5~-_{0---'--( __ _
NWIS 15-digit id: ---------
Location:· /88r- 1/--cJl-~ {kxtJ Project:
Geophysical log reference: measuring pt o~~~~ Well information:
Tool serial number: ll>lla ll
pate: _ ____::;3_-_2_3_-_z_o_l_l_
Operators:.--::;.VJ....:5::..:C.."-tf~Gi::..:::;..l-S,::::_ __
watch time: // s;-tt computer time: 11;;: S.
· Descri~e measurement point (MP): [oc. ~ Aiv{ll1.1rJUm btL Co/farL Depth of well: · 203 ft below land surface Height of MP above land surface: I .o~ ft Water level from MP 2.3 .~ 7 ft Depth to bottom of casing: 5~ ft Nominal diameter G inches
Notes on well (water quality,need for PPE, or problem areas:
@ ot:tr.fr" (time)
23.88 ® (( s-s;TOOL ovT o.fw a:JjA
·-·--·-·-·-·----.. ·-- ......... _ .. ---;----· ............ ·z Tilt ch~ck (-45°): ~OK Directional {N,S,E,&W) tilt ch~ck: I.:S!f OK
North check (placing object in" front of camera window at north): ~bK
Top of tool ze·roed to land surf9ce: ~eck) down/':., f'
Starting time of log: f d.O I / 1 [).()..Cj
Ending time of log:
Logging speed: Logging direction:
0/g bo-fh-
Round trip error check of depth:
{<Bft/min)
. os:-4
Depth Bottqm: ZD2. 31 ft
should be <2% of the total depth
RP (bottom of tape)
TopofTool
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Note any problems or ~pin~ of inter,st: ?0 J 1 t r / ~ Window _ _:_/_,r':)~J-,:.!..:·+~.;z:·6:..J::0~1_: <o r~~rll& w=n...:..._· :...___.,d C:J-\ -+---=--....:..t-a=3--=-"--t-_oo_;C""_U_,_f__:.·-=(f).....;C;_;.\_ Tool Bottom 7er u e t.letW\;;"''( iii' . - . _,
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c~~ ./ 1. Data sampling interval: 0.015 ft Pts/turn: 360 ~ Light: 6 or~
in dark rocks choose a higher light intensity- 8-10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
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science for a changing world
Century I Combo tool log
WELL NAME: Date: __ L/.:..__--=6_,_::2-=-(.-::> _u __ _
NWIS 15-digit id: --------
Location: I esS' NP-Pi'CAI)L lf!.oo.J Operators:.--..::{/J~S_c..-_6tr....:.:..;;..:;;;L..:::$=---
watch time: ; I t :j? : 'f 3 computer time: I 2. ,· 3 Z ; tl Y Project:
Geophysical log reference: measuring pt or~rrac;)
Well information: . Describe measurement point (MP): 1DL- - A£,)/lll.fr.)iJfl~ LIJd< Df{t.t/1. Depth of well: 2;D 3 ft below land surface Height of MP above land surface: I, D~ ft Water level from MP "2-Z-. Zf Z. ft @ 12 3 D Depth to bottom of casing: E) (p ft Nominal diameter ~ inches
Notes on well (water quality, need for PPE, or problem areas:
Top oftool zeroed to land surface: ur{~heck) E-log mud-probe grounded: Q{ch.eck)
Log Down Log Up
1l>Dt ;~~, r;-~o:l:P-. zz.3 e> t3t2-
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Logging speed: '!(-16;_ tl-/j.,;, Logging speed: f __ , - ( s ?!~~,.~ -+-
/-:. /.. ) n.. -----------------------------------------------------------------------------------------------------· "J~~~~ r Depth Start: O.oo r:,Jfif- fr)()l. Depth Bottom: 2l>2 • 3'7
. 1 /\ Depth End: /11./.rai Tof nt1fJOI. Sampling rate: ' I D J_./) ,':J
Round trip error check of depth: - D, z._g should be <2% of the total depth
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
Date: L/ ..-t ...-/{ Operators: (/J -5L / ti" L <;,
Pumping-rate gpm-------watch-time: 0'1 : oo -.32-· Height of MP 1 • ot:;;"" computer time: 0 q: {)0 : 33
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at 33 ft below MP Note any observations in the discharged water: smell, turbidity, color... ··· Reqti.Fv£/ tJP 15 £-r below ·f,iJs, - .:1e.n<SDrz.. Ja.p1.J...-;.. t.J /,18 .{f @I 0'11) Below Toe..
Be sure to note when the pump was turned o~. changes in pumping f~te, pump off, etp. These data along with fluid temp and resistivity data collected after pumping may help in the interpretatiory the flow meter data and the hydraulics of the borehole.
Watch water drawdown Discharge rate measurement time. level rate vol (~!) time (s) Q (gpm) Comments:
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.. MP=measunng pomt, dd= drawdown, Q=d1scharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftfmin
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HPFM_and_ Q-test2.xls [email protected] 2124/2011
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USGS science for a changing world
Century I Combo tool log
WELL NAME: P5- f 1J I 5fre~5eJ
NWIS 15-digit id: -------:----
f rJo0 r 1L 1,· f _ _ Location:. ___ 3 _ _;m:....~--=---tD?C___, __ _
Project:
s/,J ¥&-IP Tool serial number: 8043a
Date: _ _.:.._l/_-_&._-_z.._o_t _1 __
Operators: . ..._~.VJS,!_:::::....?!-t-.0....:G=-;-t,.....:.S:__. _
watch time: !t/:01: (b computer time: II./; 61: tli.
Geophysical log reference: measuring pt or land surface
Well information: Describe measurement point (MP): Tt> C. - Jrlr)iM« NVM loc/t-C'..rJ{{e,r./l Depth of well: Z.D 3 ft below land surface Height of MP above land surface: /, oc; ft. Water level from MP z '?. 0 D ft @ /l/ I ( ~tO O&.(t .vq Depth to bottom of casing: [:;"(p ft Nominal diameter (p inches
Notes on well (water guality,need for PPE, or problem areas: . 1 __ .;__ _______________ ____;._,...::l;;::;;.6::.:G:;...::::;D..:::.;c.uJr:l v--_;::_-A; rtt"j . ·
--------------------.!..'r.::::.:).;;;.r.>.!:..f...~:t.:.:::.:eril'f/.f, /·,) .c-f
Top of tool zeroed to land surface: ~heck) E-log mud-probe grounded: [i?{check)
l-og Up ·
Start time of logy· j A 1 • L 'f c.tBM\IN154--rv
End time of log: / tf31 End time of log: .
Logging speed: - 15 f~,~ Logging speed:_LJ I -
5 e,r.f3bi- ·---------------------------------------------------------------------------------------------------· fl.t{ 1 Depth Start: 6 . Do . foP tJP Tool.. Depth Bottom:
1 '2LJ 2..., 31
Log Down
Start time of log: {t/17 ,::gf·
1-Dl ,{b Depth End: [q'-f. ()'D Tcd of2 ToDL- Sampfing rate: (), { 0
Round trip error check of depth: -- (). r.f[) H- should be <2% of the total depth
~iUS S science far a changing world ,it(' J A!J / Mount Sopris I AL T s:rf"\1 log (.081 40)
WELL NAME: _ _..:.P_:$;__---!...,;/ D:...._;_l __ _
NWIS 15-digit id: ---------
Location:
Project:
I B B s- t+oJ lc)JJ<- /2DCJ. c) {Lo;x foo ro E fA
Geophysical log reference: measuring pt ~;u~
Tool serial number: 2--
Date: 6- ? <;;.- 20 l f
Operators: wsc/ BAH I
watch time: /0-, ~g· t t./ . / computer time: 10 : $o' llf
Well information: f Describe measurement point (MP): IOC - AL0(\'\.lo0U""'-llXIL Ccd(t!./'1 Depth of well: 2 0 6 R- ft below land surface Height of MP above land surface: I, 0 5"" ft Water level from MP 2-l .C( f ft @ /ll>~ (time) Depth to bottom of casing: 5(:::, ft Nominal diameter (p inches
Notes on well (water quality,need for PPE, or problem areas:
Magnetometerllnclinometeyeheck: Tilt check (-45°): [}1 OK Directional (N,S,E,&W) tilt check: ~K North check (placing object in front of camera window at north): []}6K
0ovl~ /v?
(Y-101
RP (bottom of tape)
-/. t) s Top ofTool
W Magnetome er
i.':
i::;·
Top of tool zeroed to land surface: ~ck) po~,.,./ JP
Starting time of log: v- lIt~ II t/ I
Ending time of log: II tf D /,z cYi?
Depth Start: 5. D Cj ft 2 ot> · 2-3 ,
I
Logging speed: ...r- f5.t:;; (<BfVmin)
Logging direction: r) DCJJ "!lv p Round trip error check of depth:
Note any problems or points of interest:
Depth End: ;?M( 2 3· ft :J, Db
Depth Bottom: ____ ft
should be <2% of the total depth
· · Collection E:::i Window
..,...,.--.,......--;--:-fi---M-~¥-:-..,---=-:,.,...;-+:::-----:-:-;:::--:--.,--:::-::-~~=-------- Tool Bottom DrJ OP d $a • Btmu jPft.>blevn -· tiV\ilN ~ fflflDt.S
Checks: / '/ Y 1. Data sampling interval: 0.015 ft Pts/turn: ~ Light 6 or 8
in dark rocks choose a higher light intensity-- 8-10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
r ··-- ·!'
science for a changing world
Century I Caliper log
WELL NAME: _...,.:.P_5_-_:/_D_· 2-__ _ Date: ---'2_· _~_2...::::3'---, 2_D_l_l __
NWIS 15-digit id: ----------,
Location: { BZ-5" iftrc;t f 1 NGt t?6aJ Operators: W7?/ft..-5>
Project: watch time: ti: zt:,: t3 computer time: { 3 ." 2b .T2--
Geophysical log reference: measuring pt or land surface
Well information: . . • . • Describe measurement point (MP): Toe. - f/{C. Ape-/ N5tde 5/ee.( p,pe Depth of well: /22.- ft below land surface Height of MP above land surface: 0. I 0 ft Water level from MP "2.1. s;-t, ft @ ( 3 2" Depth to bottom of casi~q: .t;t=l ft Nominal diameter y inches j)ve. ~Pvc. 1Nse.r-t
Notes on well (water quality, need for PPE, ·or problem areas:
Top of tool zeroed to land surface: cg{check) ro f o-(: "lC»t.. /!ID-flol"'. '{OcH--
-----~-tartin§-time-ef-leg:===.!::lil~t:~J:::::J.f=======----Deptf:t-Start:-O-.-DO-'-ft-J57[ -er-'-~---------Ending time of log: _....;..J_t,f_D_o____ Depth End: I I 6.13tt
Logging speed: ' ( - I Z... Logging direction: ...:::U.:_P __
Sampling rate: ,. I D
Round trip error check of depth:
2-pt Calibration: Point 1: b~ 3lb inch
Point 2: €5. bZSinch
Depth Bottom: /22' 0£, ft
- () , 0 ~ ff should be <2% of the total depth
CPS:
CPS:
~~ "3t~$""Z ,3D(
t-/ D f k r{. .& Cf1
Note any problems or points of interest:
~ .o "'tr £, rr .d& .,01 '. . [3.~,
,,
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E S science for a changing world
Century I Combo tool log Tool serial number: 5j;V fjg't 8043a ./
WELL NAME: __ ._f,::_5_-_{;_b_2.-__ _ Date: 3-23 · z.o (!
NWIS 15-digit id: ---+----
Location: I '2 25"" \1 f•'ti ,},f\lo..l2t\r~ Operators: LJJ?c.../ ifL S
Project: (4 t-ho f D ? f? /-l-watch time: f Yb t/.5 tf fusef computer time: zcil:stf PM
Geophysical log reference: measuring pt or land surface
Well information: · Describe measurement point (MP): TC>C. - Pif C ftpe 'liV.5ef'i~ ,~:r,Je 5feef Pafe Depth of well: p .... z... · ft below land surface Height of MP above land surface: o. 7 o ft Water level from MP ?I, ~k> ft @ 13 2~ Depth to bottom of casing: 5''7 ft j\Jominal diameter t/ inches NG rf'lUrt-
Notes on well (water quality,need for PPE, or problem areas:
./.l.tf1!!JIN~1LllillA::!!<£~,3D~Db~-=='¥.~.~!f:=-...:JfJ~'P:!..:flll.L··.!.!..M!l:!iAX-C::..-__ ......JT0~Dl~/.et:Yf/J,_fv ~~IL f{,&' #
Top of tool zeroed to land surface: ~check) ----------e leg-mt~d-~:Jr.ebe-gr.gt~nded-: -8i(GI:!eGk-)-----------------------
Log Down Log Up
Start time of log: It./ 13 Start time of log: !VZIP - . / J , 1 , 1 7Q.f-uf cleav" "'tt rszf ·
End time of log: / r 2- fy End time of log: /L/.3 'L
Logging speed:v-f.b \.){).;(ul.J).r; Logging speed: I~ ...... !..!:::__ 1-o ~o a. ------------------------------------------------------------------------------------------------.----·
1 ,!{D Depth Start: o.Do -lop &f -!Doc.. Depth Bottom: tZ-Z.bb
' " '1 r~· / 2-/.SO Depth End: 1/ '1·.06 r•-::-1' 0 · ( (J(.,r_ Sampling rate: , I D
Round trip error check of depth: - 0, Off .fl- should be <2% of the total depth
\
science for a changing world
MountSopris I AL T OTV log (OBI 40) 5DZ.3
Tool serial number: /lJL{p ( {
WELL NAME: __ lrJ-""{_~-1..,.;( 6:._7--__ _ RP (bottom of tape)
Date: 3 - 2 3 - 2 ° ! 1
Operators: (~t-(€/...5 NW!S 15-digit id: -------
Location: I g~s If, rqd J(JCt flt>a.~ TopofTool_
Project: (!.oXb!Jfb EPA
Geophysical log reference: measuring pt ~~
watch time: / Lf; 50··<// computertime: -z; so:t./8 {JM
Well information: II [be- P\lt 11(?1? JtJ:se.rr 1 JJ-J;Je 5/eJ 1,je ~l !z:z.- ft below !and surface
Describe measurement point (MP):
· o.Jo ft z_t.~t:. ft @ 13Zl? (time)
Depth of well: Height of MP above _land surface: Water level from MP .
"19 ft inches {Jtf(..; 1('l'!;e.rf
Depth lo bottom of casing: :' Nominal diameter '::L_
1.
Notes on well (water quality, need for PPE, or problem areas:
Tilt check (-45°): g OK Directional (N,S,E,&W) t~eck: 1.0 OK _,_._:_.,·: __ !! North check (placilig object in front of camera window at north): IL]OK
Top of tool zeroed to land surface: ozRcheck) bo1,~r-.i t)P J i}Dir·tvv ·'f , ·. 1
Startingtimeoflog: ft/S"<j~/5tfa DepthStart: 5.ff:> ft (Zt>l(/ lil / <;'J(ji5'3Z.. Depth End: /ZD.t/]ft 5, l'l ' i! Ending time of log:
Logging speed: Logging direction:
.r- 8 (<B fVmln) Depth Bottom: /22 )!~ ft 1Dv.JrJ/!)p
I I
Round trip error check of depth: o.ot -A- should be <2% of the total depth
.~f J
!i 11 t:: :j
Magnetome er
~~ :.~ . f' '1 Collection
Note any problems or points of interest: . . 1 ~ Window ·
-lo'-D o"'"'t""'"'''"'"'N'---""L"-":t!frk)--=-..;:;;tP_D,1'-"J"""'o'""e"-..{i'-D4,P=?Jc.=t't;;..._U=l$-'-i l_, ;'""'f,/---f:y'-7-r·_.;;._U.._P-'L=r-'11~--"'...;;.'~:...-_.}_0 ____ Tool Bottom
Checks: (,.6 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drivel!
EUSGS science fora cltanging world AIVth ie~ Century I Combo tool log Tool serial number:
:5/;v BBb 8043a
wELL NAME: Ps- flJ z...
NWIS 15-digit id: -------
Location: r-82.-s Vtlt'ftluvt:t J2oaJ
Date: lf- h- Zoll
Operators: W'SC.. /GL-"5 t
Project: IZolLhoffi ePA watch time: 15: 5'7: tf9 computer time: ts:·'S"CJ: c.ffl
Well information:
Des~::ribe measurement point (M:...P)~.:..: -...!.r:::.o..:;;c_-__:_P_:~..:::L~.P,.:.!.,p_e-!!.,rJ..:.:lS::.!.:·,cJ::.::e:......:::fri:J.!e::.::e::..:.I-'P~r.:..:Pb:::...-.-_ Depth of well: /2-2- ft below MP Height of MP above land surface: o,-7 D ft Water level from MP zo , "7 o ft @ Depth to bottom of casing: 5q ft Nominal diameter '{- inches pVc, /rJSer-f
Notes on well (water guality,need for PPE, or problem areas:
Log Down Log Up
Start time of log: /b { g Start time of log:_.~,--.,..
End time of log: /t 3 7 · End time of log:~-_-se-f.v P "-'"' J .prj /l'I.IN -CPf":>JrJl. . .
Logging speed: - f.5 J:f/11,_,;,.- 13C>re..(t...o le. Logging speed: • I --
1-;:. [email protected],(7,.. ------------------------------------------------------------------------------------------------------· '1, 5' 1 Depth Start: (.),. lJ b IP P of -/-co 1, Depth Bottom: I zz.. D6:>
/Z-1- -(t:/ Depth End: {/ rf. Ob Top t)f11) ot.. Sampling rate: 0 •. ( D
Round trip error check of depth: 0, {) 3 .r:f- should be <2% of the total depth
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1/24
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1_ c
john
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usgs
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A
mbi
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ondi
tions
For
ms
/16--zs tfrrq,{rfiLL (2d /{777 3 Field form for recording discharge and drawdown data used to compute open hole specific capacity
i' .. , .
WELL P-5~/D'Z--- Date: l/..-?i-l.OU Oper!tors: 'l_;.jSt.../ FlS Pumping-rate_ gpm wat~h-time:'-: -,Oe-'1'1r.:-<::o~S:ro-: -"iLfp·O:..L.-· --:'17/"-------------------Height of MP c) ,·1 D .(-.t . computer time: Cl1: o~: afD
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at~ 0 ft below MP Note any observations in the discharged water: smell, turbidity, color ...
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etp. These data along with fluid temp and resistivity data collected after pumping may·help in the interpretation the flow· meter data and the hydraulics of the borehole.
Watch water drawdown Disch~~~te measurement time level rate vol · time (s) Q (gpm) Comments:
T't2.DLL CfO'I t;2Cl.l> ~~0 {.>U(VJQ ( JN /liter OJ s e.c..
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. . MP=measunng pomt, dd:::: drawdown, Q=dJscharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tooL So for example:
dd at 0.01 ft in a 6-in hole-> is 0.015 gpm.and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft/min ·
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Century I Combo tool log ·Tool serial number: 8043a
WELL NAME: -~f_;:,S:..._~__:_;l 0_2--=-------
NWIS 15-digit id: ---------
Date: t/-:? 1 - ZO I )
Operators: ~,; ... Y5L- / Gl--5
Location:
Project:
J <t ~~ lA (a d 1 rJtt l2.cJ
f2ox.h()! ~ I? I' A watch time: I?. : 30 ;q f ,/ computer time: 1 '2.: ?. tJ 81
Geophysical log reference: measuring pt or land surface
Well information: . fJ Describe measurement point (MP): It> C. - Pvc_. 1"1pt J {\) &2rTtJ\JGlUf' r:)feoJJ P, pe Depth of well: /2. Z... ft below land surface Height of MP above land surface: D , I D ft Water level from MP '2-0, '-18 ft @ I "J 33 Depth to bottom of casing: t;:;'1! ft , Nominal diameter 4 ·inches Que. h Pvt.. JN'E,e., .... f Notes on well (water quality, need for PPE, or problem areas:
1. $"'" .f{ fr)tJ t.- U!1•'q,LL ---------------------... -,_ "'"'1 (:.,;;.:,Ro+?l-:7/\-'·!o~
/ Top of tool zeroed to land surface: ~ (check)
E-log mud-probe grounded: ua{c'heck)
Log Down Log Up
Start time of log~. : \
\ c.A..etA;v'lt f\1 cl fi2/ End time of log: End time of log:
Start time of log:
Logging speed: - I~ .fli,.,~ Logging speed:__L\ __
1d ?ttn601v ---------------------------------------------------------------------/-----·-------------------------1,(' 1
Depth Start: t> PD 70P o({DOl..- Depth Bottom: /']. ;z. .tJh,
f J I • (.3 · Depth End: 1!4. D 3 /iJ P t>{ fOol.. Sampling rate: 0. l 0
Round trip error check of depth: - tJ. D tJ /1-- should be <2% of the total depth
Note any problems or points of interest: . . 5fJEA\ ..,.. 'B.S: .PU/v1w'J t!A.nl IIL<:.hVtJ .P.or /e;.,_,J)erolur-e -s/r.JJVif~.-.v
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• s . science fora changing world AT V A d],f Mount Sopris I AL T .J)'W log (Pifl40) Tool serial number:
WELL NAME: _ __J.p_S_-_(:_0_'2 __ Date:---,----!)--_Z_~_-_c.._o_r_l_
NWIS 15-digit id: --------- Operators: u-)~l..-/ BA· H I
Location:
Project:
f 8 ?c;- \J,rq d1N4 tQoa.d f2ot: ~D ro r;.PA
watch time: I 3 '.L/ 3 '</2
computer time: / 5 : L./3 : V '2.. .
Geophysical log reference: measuring pt or.-la~ li....__.,,..........,,..._,_.~ ......
Well information: •
Describe measurement point (MP): TOe - Pv {, e IN5 I de ~J In')€ "' • I
Depth of well: vr-- t 2.0 ft below land surface Height of MP above land surface: D. "]D ft
1 1
Water level from MP /'7 , {o 3 ft @ 13 'i 3 (time) Depth to bottom of casing: 5Cf ft Nominal diameter tf inches PvC. tf\I<S-e..r+
Notes on well (water quality, need for PPE, or problem areas:
Magnetometer/Inclinometer pheck: · Tilt check (-45°): Q/OK Directional (N,S,E,&W) tilt check:
North check (placing object in front of camera window at north): QO"K
Top of tool zeroed to land surface: G2J{'check)
{)t>vJ"'I UP Starting time of log: 1'-{ t(;~ I t/ 2../ Depth Start: 5".l>~
C!ioK
ft rzo.ol Ending time of log: J L/2. / / I tj 3' Depth End: /ZO.o!( tt 5.D3
Logging speed: Logging direction:
--"- 'i? •S (<8ft/min)
ODtfJN/tJP "
Depth Bottom: ft
Round trip error check of depth: 0 , 0 S +r should be <2% of the total depth
RP (bottom of tape)
Top ofTool
* Magnetome er
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. Collection ~Window
~~~~ww~~~~~~-7~~~~~~~~~~~~~rf~~·~_Too1Bottom . ;.e./; ?i' (/.$
science for a changing world
Century I Caliper log Sill~ t::.o~
Tool serial number: 9065a ·
WELL NAME: --=.f~j_, ·_/_0 3=---- Date: :S -;), S - J I
NWIS 15-digit id: -------
Location: I CJ 15 Vrrcp /(lvi:l: t2J Operators: .5fo.vb : tal, . .)t..veJ'/
Project: watch time: / fo I I computer time: I 6 II
Geophysical log reference: measuring pt or land surface
Well information: Describe measurement point (MP): ro 1". "" F n./ I ~""j·, 1' • .r.:l ""·"' ~ v · ·· '--'- !hV<-1 A.V'ri'.., f-, ct t1..v ,;::___ v, 1
·Depth of well: / 7 () ' . ft below land surface 11
Height of MP above land surface: .. 7 C:L ft Water level from MP '3 .;J. f, tf, ft Depth to bottom of casing: g S ft Nominal diameter f inches dve. f-e .f"I/C J, i-t e.r e
@ i0/4
Notes on well (water quality,need for PPE, or problem areas:
/JIIIt\1 AAE.3oa>& O .. o ;oorn
Ending time of log: -+/~7_0~_;;8 __ T oc 1Depth End: /,.Or;) ft
a+ loJ 6 I!J' Depth Bottom: 1 f61 tb~,.~ 0 ft Logging speed: J I • J
Logging direction: _;;U;..;.P __ _
Sampling rate:
Round trip error check of depth: '--'" "t!) ;:/_. should be <2% of the total depth
2-pt Calibration: 1 ? I Point 1 : 0 · .:; inch
Point 2: C{, b :lS"inch
CPS: 3/5"3 s: I CPS: 10 ) q S, ~
3/ S'ol/ ~~
1-o 1 'iJ '-- G ?r
Note,any problems or points ,of intergst: ... / .. ·. ...,,.:_.,:. ' .. , - ·-··
... ';•;
··.
:5)tJ &8£. Centu~ I Combo tool log Tool serial number: 8043a
WELL NAME: __ f_,_~_/_0._3 __ _
NWIS 15-digit id: --------
Location: I '1 I r" IJ I kif/uv~ ~CY-LJ
Date: _..;_3_~_'2-_lf"-----~_6_1_1 __
Operators: ~t.. ftl. 5
- u.·• ,--_. :?. o ,n 1 watch time: _l=:..;,.oc.:--;:,:-··-Project: fi!...(J-L_!f)O{(I t;;PA computer time: r: ~~ :40
Geophysical log reference: measuring pe~
Well information:· fl Describe measurement point (MP): 'TOP o( ALJM/N UIVJ. Loc...ft u//M -Depth of well: I 7 L> ·ft below land surface Height of MP above land surface: 0.1'2- ft Water level from MP 3 ';;) . 1 3 ft @ Depth to bottom of casing.: 8' 3 ft Nominal diameter hole=-& ,CSJ=4inches . Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: IE({check)
----------5-log.rnud.probe..grounded_· _l±l(check)------------------------
Log Down Log Up 70 p a/ (f){) L 'f37 ~58 Start time of log: Start time of log:
q c;; 5' End time of log: / 0 I { 5-1-o,f-~t.. = I ~'1
End time of log: e~td rh;slt.. =- - .... o ~
~/> Logging speed: ~ IS:, 1 Logging speed:
-~~~7~-~;;~;--?:·s:·---1;,;~~-----------;;~;~-~~;~~~--7l6~-7"i ____________________ , Depth End: /.#6; ~.i)'~'ll-6~/t Sampling rate: .,. J Round trip error check of depth: - ,.Dfb should be <2% of the total depth
{. Note any problems or points of interest:
us science fora changing world
Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: PS-103 ----NWIS 15-digit id: --------
Location: J q I~ tlt't',q ///fleA.._ Project: '/2()J(horo fP/.1 . .....;._c __ _
Ge9phyl?icallog reference: measuring pt or~e
Well information:
s-oz3 Tool serial number: I i:;l2.b ~I
Date: ___::3_-...::..~--'-~-,.._// __ _
watch time: I 0 I '6 computer time: / (!)I '6
Describe measurement point (MP): -f-lckl-\9(1. o ~'\ {o tO of::. Ctl.<. /a 7 Depth of well: J 70 v ' ft below land surfa~e
·Height of MP above land surface: D 7 a. ft Water level from MP ., :sa. ~.S ft. @ 0 9:2 {, , (time) Depth to bottom of casing: g S ft Nominal diameter -1 inches
Notes on well (water quality,need for PPE, or problem areas:
RP (bottom of tape)
{),12.--'
TopofTool
.f ______ ___,Mc:.:.a:::;grietometer/lnclinom~~eck: / Tilt check (-45°): l!a'DK------=D-:-ir-ec~ti:-on-a-=-I-=(N7,7S,-=E:-::,&::-W)::-::-:t=ilt-c-:-he-c7k-: "'tfF'T'L?-::-0:-::K---~~;-:,. ~-----l------
era window at north): E::f6K [ North chec~. (placing object in front of ca
J----Top oftooFieroed to land surff!ce: (check)
Qo~fljY vp . Starting time of log: . I r J I;}, 02.
1//t:t 7tt49 )
Ending time of log:
Logging speed: Logging direction:
;_. 'iJ (<B ft/min)
C--~-J,-
Round trip error check of depth: should be <2% of the total depth
Checks: ?D 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8 ut7t6~!tf,
in dark rocks choose a higher light intensity- 8 -10. 2. Prior to actual data collection you can do the real-time mode data.·collection as a check. 3 e):Cce{le~.
Be sure to record the depth before you start the time drive!! ·
~f/V t~b Tool serial number: 8043a
WELL NAME: _ _:..p...=~::__-_f_.f)_3 ___ _ Date: __ tJ_~_f_1_·_?-_o_l_l --
NWIS 15-digit id: --------
Location: ij1~( VD{{g! ij4r.'ll Qd Operators: W Sc. / E L S
I
watch time: I~; s~: :t-( .. computer time: l b; 5'~ ~ 2-?:. Project: ilDxlooi!?h u::::Pp{
Well information: Describe measurement point (MP): ToP o.f A-LaJM.I r..>UV""l. /_vc.../'- ~£letA Depth of well: 8 =to ft below MP Height of MP above land surface: 0 • '1 2- ft Water level from MP ~-z a 2 3 ft @ « 0 fi ~ Depth to bottom of casing: 8'3 ft Nominal diameter L/ inches PVC. 1 rJSe!Z-1
Notes on well (water quality,need for PPE, or problem areas:
/ oS" -r-l!('.tr•~ _,'51'-'-P."=Zl7f\l_..T..!...lf\'-!::'f\)-=E"'=6::U:=":5:-'P:......,t>"-'kVlf~ft:h~.tJ=/:........~DZf=-------...:.7i...::;l>..:;;.O..-:.Ir_..L=[~w{. ~l 7 • r-(..;-· ref2-l!Je-D not-~
Log Down
Start time of log: P l D J
End time of log: II "J.,-0
Depth Start: 0 .0 ()
Log Up
Start time of log:-1--r-- c.)eO.I'Ill rvct _ rsz{
Logging speed. . ~--.---,-
Depth Bottom: lloh. '1'8'
Depth End: I t5 8. '5b TDP Df /DO lr Sampling rate: 0" IQ
Round trip error check of depth: - b 1 11 # should be <2% of the total depth
Note any problem~ or points of ~nterest: . ~- S~ . -\ :r/oUJeJ ..- 8 RJ~~~ J ~ t. .tiDl.~ ~~r 52. ,4 4 t'4SJN4 ft. 5? 3 .J~-!- · 1&\"'f · . '~J 6t?PJ:;;h. Uf!J ~1!> 1'C" .C.!·~Jmgr. . ., > l.73. .('.:f.- " Te-vnne-ro.:Jl!ure. :"lfc-.J.A:J:tU5 @l '6[;" ("">r -:5/ovJl,., ·ff....ru rc~.GJ;vcu:~/z,z.r} tnJa.l:rv; f~/~1 Opf-JI:e {/.-N2..->;:f• OOt;JrJ T~ f!!~ '/:~/""p; , 111-..f!-1-c-,•-:. .Ci!..stNi:!i W!J.tJ~...,
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Field form for recording discharge and drawdown data used to compute open hole specific capacity 3
WELL rf 6 ~ I 0 3 Date: t/ .--fCj .. 2-D ( / Operators: • • · ···-· -·- fllliT)pinglate gpm watch-time:-: -!-/-3-s=;,.~('-1!Z.~Lf'f-J7'-'----------~-------
HeightofMP {) ,/Z.?'f computertime: ~~~ 1 z.·,q-7
These data are used to compute the open hole specific capacity. With additionai programs you can c;alculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
/ . r: Pump set at __ ft below MP i /
.1'\/ .·' Note any observations in the discliarged water: smell, turbidity, color ...
\ . -~ Be sure to note. when the pump was turned on, changes in pumping rate, pump off, et~. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole. : ") A»D ( /+ {-<> T/20 ~L fo o.... "'"'w:-::-a-:-tc-=h---w-.,at,...e-r .-. -d.,-ra_w_d.,...o_w_n-----::D:--:i-sc...,.h-a-rg_e_r-,at,...e_m_e_a-su-re_m_e_n-:-t- tl.l rz/2.e·rrf· T () S) {1/J.f;)
time level \ rate vol (gal) time (s) Q (gpm) Comments: +ro II sl/oJJe.cl· ~ 4" I I • _.. . ~ ,.,_1. .;;..H.. i~tl..., g 7 1·
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MP=measunng po1nt, dd= drawdown, Q=d1scharge (or inj$3ctron rate), vol= volume We want to run the HPFM test under pumping conditionp-' once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is Jess than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft/min
. ~ )
HPFM_and_ Q-test2.xls / [email protected] 2/24/2011
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ived
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icat
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ent w
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5Tf2.b-£6&D Century I Combo tool log
{'} n ..,.
WELL NAME: _ __;_~_::')_· _.,.·_u_O_.:;;_· __ _
NWIS 15-digit id: -------...-
Location: I q..J~ \Ji f 4 I ) I (1)4 eJ Project: OtJxbo;(.) ··FfA
~~{I} cg-C~ Tool serial number: 8043a
Date: _t-1_-_J _'f_ ... _2_.o_ll __ _
Operators: l./-''6G I!! L-5
watch time: I '2>; -:51,; ).b computer time: tb : .S b : 2-D p fVI
Well information: Describe measurement point (MP): Top Drt ALum 11v u ~v~ loc./c, · (o //,~VI Depth of well: // D ft below MP Height of MP above land surface: 0. 7 2-- ft D G: -:f'rt., Water level from MP :?.~. "?.~ ft @ :?' ..::S.t. .. , Depth to bottom of casing:.
1 6 3 ft '
Nominal diameter '-1. inches p{/ C. l r.JS/2-~W
Log Down ... ·Log Up
Start time of log: / B L{ V Start time of log:_,__+s-
End time of log: J q {) Z,.. End time of log:__,.··y!..+--\.
Logging speed: v- rb~/ivt;;;-1;;;:~;-------;L-::o=gg::;:in=-=g:-::s=-pe=-=e::;d;:--:_:!r~----~==------------~'---
1lJ1NJ\ ~ orJ w~ty up) tXppeMed +r> ~'JF;.p CDurJh'{IJy -+~.~ Tt:.Jtce_,~
'1i..vvc1k-+ ~~· ctvJqiw-1· o./se.lf Jf·· Pee-l :JDod dak ~PN -/-it!- wa-, JovJ,._,/ No p~"ob /~.s t>r 1 hk.Ac5 ..
science for a changing world
Century I Caliper log
WELL NAME: --'-A..:::...5_-_, tJ_f.,__ __ NWIS 15-digit id: --~----
Location: I q39 tf;rq1 fuva tzd
(l'EtrJ ] 38CJ J -flD5? CM u elL,
Lo:f -18,CJ3Ci'1- . LoN~ ""3 6. L/ I 7 e,.ci .
Tool serial number: 9065a
Date:_!}"_-3_-_J ~-----:::-~& !G / .r'~ b
J( c ' I 111. ' j· <..._..-{J' !)..r.) I. :> n ,' . "'~lr\ j.-'' .I '
Operators:---=-1/.--"'-vv-=--~~"-...:."---!.r·-"'-·' v /
Project: Ro~kro .GP f+ GdrJi}' watch time: I 3 l f ~ 1 :;computer time: J 3 I '7 ; 1 ::--
Geophysical log reference: measuring pt or land surface
Well information: · ' Describemeasurementpoint(MP): ((o._v'\(\e., on foe of I'::>VC CCJ-ifi'I(-Depth of well: ?lf '-' ft below land surface Height of MP above land surface: .,3 ft /""' ). S Water level from MP ~ 7, q G ft @ c;;><-
Depth to bottom of casing: 0 q ·:. . . ft Nominal diameter 4 inches C.(f61rJ& 1~1Je ..,.. '-( -fr of' 6 '' fVC..
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: 1'op o{-{19~ C ~nl~. c" . ,.
Starting time of log: ') ~ :;)_ ~ Depth start: O/fJo~ .-ft
Ending time of log: \ ~-; Sf Depth End: .-4 'J.d.- ft
Logging speed: \ 'S r ~ so .. /J-3.. Depth Bottom: ft
Logging direction: ...:::U:.:..P __ _
S<!mpling rate: e \
Round trip error check of depth: ) d-. should be <2% of the total depth
2-pt Calibration: __... " A/ e Ce/ / ~e.+bcc__ . Point 1: 6,$10 inch CPS: 3l (;,oG,. 7 3 I ~I ;Q: tfr· Point 2: 1, 6 J.Sinch CPS: 4-o :;:2.79'' ~
Note any problems or points of interest: ~ efoc-e_ !1
us s science for a cllanging world
Century I Combo tool log
wELL NAME: ----'P'--s_-.!_I o_f __ _ NWIS 15-digit id: ---------
Location: } 'f 3' I V t f' d; It no. fl c{
Project: lto 'X b o ((;) t---=-/Ji- G-!YJ H
Tool serial number: 8043a _5; J.;, ' '·iJct, 6
Date:S-J -/1 Operators: (.a lJUJe- If S ~ub
watch time: f ~ \ J ~~ computer'time: I .S I /"" 1 ~
Geophysical log reference: measuring pt or land surface
Well information: J Describe measurement p_oint (MP): ·1- fv,V\ 9e_ e> 11 :0 f of C .S: q Depth of well: . 8.0, 4::?: - ft below land surface Height of MP above land surface: ., 4 ft Water level.from MP 'd'7. <t b ft @ l :A;;:). 5" Depth to bottom of caswg: (;,I ft Nominal diameter q. inches
Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ·if< check)
E-log mud-probe grounded: 0""(check)
Log Down
Start time of log:
End time of log:
) s 57 l~b'
Log Up
Start time of log: /4/ ) End time o~ log: / Y 2- D
Logging speed: I f) ioo ( ( . Logging speed:~-- rrJCl ( bo-ffo,
-~~;t~;~~~--~~c5;~~~---f,J!~-v---~~~;~-~~;;~~~--r~§~---------g&:oa··--· '-( l ./ o\ epl-~ l-o lJ .
Depth End: I ""'' ~ '80 1 00 Sampling rate:._:_-e....!)'---
Round trip error check of depth: - 6 . 2--3 should be <2% of the total depth
Note any problems or points of interest: 1 Tof tl~ 16~ '-® . . .L c I
o.../'Ouf\CA. ~0 -rl-&.- -tr-, po~ \'C. I over. ff/re'i!d y tfl)tJ"uJe co...zt{\}6
us science for a changing world
Mount Sopris I AL T OTV log (OBI 40}
WELL NAME: _ __..;.P....::.'J_~_{_D_tf __ _
NWIS 15-digit id: --------
Location:
Project:
Geophysical log reference: measuring pt or land surface
Well information:
Tool serial number:
Date: --'r;;"'"· _-__;;:5=---.::ZJ> __ ~ _J __ _
I'
Operators: vSSt:-_/ ~t;s
watch time: / ~ •\ 1 ~4 ~ computer time: I "?J',\ -r·fr5
Describe measurement point (MP): _--,_/ D'-c-"-~-/-1--'-"-i =J r.:....;.''\=!tJ'---'-u"-en"..:.......;L"'-"-o..;;;..C-..:::/c_;;..._:{_;j=-.;[:.;../ {JV).;::__.;__ __
Depth of well: "&' I ft below land surface ~~~------~~------Height of MP above land surface: o.Lf ft /
Water level from MP 'd.1 I q (o ft @ rr:>. 7 . (time) Depth to bottom of casing: fe '7 ft Nominal diameter L/ inches
. Notes on well (water guality,need for PPE, or problem areas:
Magnetometer/Inclinometer check: _/ Tilt check (~45°): GfoK Directional {N,S,E,&W) tilt check: [W OK
North check (placing object in front of camera window at north): uz{oK
TOp of tool zeroed to ~nd '"rfaJ'ii "!~heck ~p Starting time of log: l 4 cS ,.J . /£50 6 Depth Start: 5 • I B ft
Ending time of log:
Logging speed: Logging direction:
l~oi·/,\,1 /
g .(<Bfl/min)
doro~r-. /0 p
Round trip error check of depth: -1- ()' DL}
Depth End: 5. Z 2- ft
Depth Bottom: %0 • JO ft 51-oppeJ ca.;.,vJI~
oep-rk
should be <2% of the total depth
RP (bottom of tape)
TopofTool
f:p~ C fe_a, 1'. >"' .r::r;::. Seof f.I'Y!P.11'f.. b V /?tt/S./r-1';),.- '-" "M\' J,;_.,,V(>o-r'n'\.•r l·~ '-' .ff\IA.al"i • r,p ( d ;:A.(}.cf lt? Cl;c:;- /..,-;_'7/, {CY i'f'/) ~' 1,-:rr).f./i C!f!.fJ!•Jf!tT
liJ i' ~· ..;..,. o- ' -..,;
P.J.(IJ~Jo.11 f..f C&J;mera. vp fo .,.. 3 ;z ..... ~t fk lofl...l.lW'el badc;..dor.rJ'rJ A. d1J5e. -o Jf- €>5. z.z..-9. Checks: · 1. Data sampling interval: 0.015 ft Pts/turn: 360 · Light: 6 or 8
in dark rocks choose· a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as -a check.
Be sure to record the depth before. you start the time drive!!
51\J 'i? 8'19 Century I Combo tool log Tool serial number: 8043a
WELL NAME: __ P_;_:?_-_(_o _L_/ __ Date: __ ~1_-_· _I 3-=-· _-..:..2_C:)_f_l __
NWIS 15-digit id: --------- Operators: L~>...J SC / 6T t·>
Location:
Project:
I 9 3<1 Vrr'q 1 /uJc.. fZJ 12o ,>{ boro r;pA G f\·'-{1
watch time: () '6 : (J 1-1. · S"8 ,/· computer time: 6 s:: ('. {!: s-e
Geophysical log reference: measuring pt ot!~rf~ Well information: Describe measurement point (MP):
Depth of well: ---,,..-,;_-~~-1 ___ "'"""" ___ ft below land surface Height of MP above land surface: 0 . if ft Water level from MP 7'7, 8 3 ft @
-,....--.1::!.?._7!..---:---::-ft inches !f'..l:;i{d.~·· l;. ,. ,"',;:t·::1r---;,
Depth to bottom of casing: Nominal diameter l/ r.·· '/I~'
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: ~check) E-log mud-probe grounded: 5Jf~heck)
Log Down
Start time of log: 6 11 ~ Start time of log:. ___ _
End time of l~g: () tt 2-3
Logging speed: \./" ( D % ,,'.; Depth Start: C) ·OD ToP c·f.1ooL
Depth End: '7 1 .~ fo f cJ.. fo 0 t.
End time of log: ___ _
Logging speed: ___ _
Depth Bottom: 8 f.\ L/ 3
Sampling rate: D · l D
Round trip error check of depth: - C>, I fo (-(~ should be <2% of the total depth
Note any problems or points of interest:
(_
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r H
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ime
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res
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f too
l m
ove
me
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wh
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ca
use
s an
app
aren
t ver
tical
flo
w.
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flo
w m
ea
ns
tha
t the
he
atp
uls
e h
as a
rriv
ed a
fte
r th
e G
P,
bu
t the
co
mp
ute
r ha
s pi
cked
the
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. B
e su
re to
no
te th
is o
ccu
rre
nce
!
che
ck m
ea
sure
me
nt
ind
ica
tes
tha
t a
du
plic
ate
me
asu
rem
en
t wa
s m
ad
e to
ch
eck
the
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sist
en
cy o
f an
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rlie
r m
ea
sure
me
nt.
um
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lla m
ark
s: i
nd
ica
te th
e w
ay
tha
t th
e di
vert
ers
wer
e se
t -
it m
ay
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with
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rpre
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f th
e d
ata
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r d
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL tfJ'f- (0 Y Date: 7/t 3/2DI! Pumping rate __ gpm
Operators: 1;-J 5C-/ 8:J (\'\ watch time: I D; 1/: d G. computer time: {{); 17.:6 S
-;s:l 1\ ...- z.._< s. u/)-- q jPV\-
Height of MP v, •-lo
o, "l/ ~s ?'
~ D I~ 1,-Jr/0.. k"'V-f These data are used to compute the open hole specific capacity. With additional programs you can 1\
calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985) 1X c~ 7..--"
Pump set at ? S ft below MP Note any observations in the discharged water: smell, turbidity, color. ..
.Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch time
water drawdown level rate
Discharge rate measurement vol (gal) time (s) Q (gpm)
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Comments·
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.. MP=measunng pornt, dd= drawdown, Q-dJscharge (or mjectJon rate), vol= volume We want to run tbe HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftlmin
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IIUS S science for a cflanging world
Century I Combo tool log Tool serial number: 8043a
WELL NAME: __ p_~_--'-( O_L_f __ _
NWIS 15-digit id: ---------
Date: ---=--·_1'_:)_-_Z_~:J_! _( __
Operators:_l_,-.J_S_c.._. -'-/_6""-J-_f_~--
Location: [) f watch time:
Project: ll &/- bO r 0 F fA G j'!!t I! . computer tim_e_: --
Geophysical log reference: measuring p~
Well information:
Describe measurement point (M,;,_P)t..:..:_/.'-""D:...::C::;,__-_;A_;_L_J.::....:...f\A--'-1...:1\J:...::V:...:~""_...::.[...::o...:c:...:. ~;...;r.:..;,P<-.C--i-f_C_e>_!,;,_l:..;,(j/'1_ Depth of well: ----::---::--"'i?--'-1 ----,---ft below land surface Height of MP above land surface: D . LJ ft Water level from MP "l "'1 t CJ ~ ft Depth to bottom of casing: Nominal diameter tf -:---:~te~IJ..__---._tt
inches ; /\) 5t' rl
Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: ~~eck) E-log mud-probe grounded: ~heck) Log Down ,J-og-tJp-
Start time of log: /2~3 Start time of log:
End time of log: /3oC/ End time of log:
@
Logging speed: ._,... ( 3 ~~If•~ Logging speed: ____
Depth Start: o . 0 o I o f ,:,C 7 i•IJ t Depth Bottom: 8 0, '-1 3
Depth End: '12 · 5' h' Po...(- 16 0~ Sampling rate: .· 6. I d .
Round trip error check of depth: - 0 ' 0 2.. 4-should be <2% of the total depth
Note any problems or points of interest:
A-n/ A~r. Mount Sopris I AL T _.O:PI'flog (OBI 40)
WELL NAME: _ __;P......;::s:::::.__-_)_O__;Y __ _
NWIS 15-digit id: --------
Location:
Project:
I q 3'1 V c tq d t f\.IC{ eoc:t J flo!dooro EPA
Tool serial number: 2-
Date: _ _,5::__-_2_t, ___ z_o_c_J __
Operators: t.f0St.~· J /)Itt/ I
watch time: D1: tf 1,· ~') computer time: ()9 : l/ ( ; ~
~ ~ ttA;VLJ -'5"vr.fatR Well information: · . · ·· ··
Describe measurement point (MP): TQ[_ - A lvf11ti'IIU!)fVI.. LocL LO ( ~~ Depth of well: '-.... 8 D ft below MP Height of MP above land surface: () 1 Q ft Water level from MP Z '/.S"o ft @ D1 3~ Depth to bottom of casing: 6 7 ft • Nominal diameter '7 inches 1 1'1-)e cf _ ,g,V\f1re LeW{-J-1,.. e> 1- ca. S '''-'7
Notes on well (water guality1need for PPE, or problem areas:
Starting time of log:
Ending time of log:
Logging speed: Logging direction:
i;)O•••c;,/r >f
!Yttfu /oc;r 3 !J 9(z_J;oo<.-
' v- 7 • S (<5 ftlmin)
JJP· j)D~,j/ JP
Sampling rate: 0 • () {
Round trip error check of depth: o. og- Ct
Note any problems or points of interest:
Checks:
,)~u ~~,J U f Depth Start: ). D1 ft 1'i 1 7tf
Depth End: to 7q 1 1 Y ft 5:0 I
Depth Bottom: ft
should be <2% of the total depth
1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8 in dark rocks choose a higher light intensity-- 8-10.
RP (bottom of tape)
Top of Tool
~ Magnetomet :Jr
Collection ~Window
2. Prior to actual data collection you can do the real-time mode data collection as a check. Be sure to record the depth before you start the time drive!!
3. Bottom of lower centralizer minimum of 20 inches from tool bottom 4. Note the version and build of MS log that was used and consider archiving a copy of the tol file
science for a changing world
Century I Caliper log Tool serial number: 9065a
WELL NAME:_. --=-P....::5_-_{ ...... 0_S ...... -" __
NWIS 15-digit id: -------
Location: / 129 f}f(L.-1 Ffl-){ f2cJ
Date: --=S:::.._~_,__'/_'_::2-:.._0_l_( __
Operators: l.AJSc.. / G"t, S ~ ~ I
h watch time: b'1 ;t.fj, ; 35"' /
Project: f2D!C D(O t;;fJA computer time: D9.'£/b; 3S"
Geophysical l~g reference: measuring pt or~ s~ Well information: Describe measurement point (MP): /DC ..- JUurn.ttJlifV\ lock Chl/dJI Depth of well: I 0 2- ft below land surface Height of MP above land surface: b, 8 0 ft Water level from MP '2.5. '15 ft @ t> q 1./3 Depth to bottom of casing: ..}ie( ao ft Nominal diameter ? inches
Notes on well (water quality, need for PPE, or problem areas:
/ Top of tool zeroed to land surface: D2J (check)
Starting time of log: } D ?-()
Ending time of log: ----Li...:.0--=.3>_& __ _
Depth Start: 15. 0 D ft
Depth End: IS G, I f:• ft
Depth Bottom: I b /, Z. ~ ft Logging speed: .... ~ ~ \ .(.!'!~~\ .. ~ Logging direction: -'-U.;_P __
Sampling rate: 0, I D
Round trip error check of depth: -- 0, ·~ S' ?-f· should be <2% of the total depth
2-pt Calibration: Point 1: 6 • "3 J inch
g;.,{~l..(! CPS: 3t&JtftJ.'J 3Jh{)b.f?q9
' I ..-- 52.~
,_ s~.'i' Point2: 6.0Z)inch CPS: L-/o?.71.'-/ 1.-/ D I b 0, (l)Z. '"'/1, ;,' -l 9' (;
Note any problems or points of interest: 7JZ.<i'_ 5.' ::.'T ~(..- ?_I' Dr-· '~ o~.J-- o·:-·!
~{Q ~rs.b' r;'1. ~ Cf8.4-'Jp ~ q~. ?... bff W' (+{-.:;'. ! iJ{j {
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•usGs science for a changing world S/fll 8 86 Century I Combo tool log Tool serial number: 8043a
·wELL NAME: _ _.:._()~'5_--..:!....:..D.-.>!S'_-· __ _ Date: _o __ .... _-_'-1_. · _-_z_o_i_l ___ _
NWIS 15-digit id: ---------,• 1
Operators: £.,0'5C. / FL5 /Cl) it...J l ~
Location:
Project:
/ '7 21 l-/r;d v{cv,-c f2u ad
/2o ){. ~6o (0 liP /-1 watch time: ID; .3'1 ; t.f ·1/ computer time: 3D.' 3C$ ; ·L/ </
Geophysical log reference: measuring pt or land surface
Well information: Describe measurement point (M:...P.t.;.):_Tt.~....D::::;__;:C-:.._~....:/r:...:.i..::::~:.:l:tJ:..;!J..:..•1~1..:..1v::.:'u::.:':...n.:..., ..=L::.:u::.:C.:::::lc.:::.....:C£::.;o:.....;.:! /.:..CV'J __ _
Depth of well: ___,l!!.::b::...' -=2-=----__,=----ft below land surface Height of MP above land surface: D .{f o ft Water level from MP . 2 :=i. ~; t::; ft Depth to bottom of casing: 5o (TIM) ft Nominal diameter & inches
Notes on well (water quality, need for PPE, or problem areas:
/ Top of tool zeroed to land surface: IJZI (check)
E-log mud-probe grounded: 52J(check)
Log Down
I r! 1f,·· 1
Start time of log: 0 "'fJ.;!.Ti
End time of log: /0~9
Log Up
Start time of log:
End time of log:
"i7.) o L ceMifl,
/tl>D
Ill~
Logging speed: v- 12. A-j,v.,:V Logging speed:~Z (:.% ,",v
'/,r::;'
Round trip error check of depth: - D .2.~- (:1- should be <2% of the total depth
(!?J 1/11
. ,,
u s science for a changing world
Mount Sopris I AL T OTV log (OBI 40)
WELL NAME: --=P-=S:::...·_~_ID_~----NWIS 15-diglt id: ---------
Location:
Project:
, q 2-'1 l+t~--l ( fo.-i- Jwc.LJ lloxhorD EPA
5D23 Tool serial number: I D2-t0 I I .
Date: -~5-~_'-/_~ _l_D_l_f ------
Operators: wsc./rt-s I C.b H I I
watch time: II 3s-0 f J computer time: 11: 35".01
Geophysical·log reference: measuring pt~
Well information: Describe measurement point (MP): _,71--=0;..,.:C=---'fh_,_t-_v;;....:mc.....:...:t fi)'-V;;,..;fl'I. __ L_D_d,_t.-'U=tJ"-'{'-/ cv. ____ _ Depth of well: _..!../fp::::...;;.2--:----=--:::--:---fi below land surface Height of MP above land surface:· 0 . ~b R· fi Water level from MP 'Z S, '8'C( fi @ 1/3~ Depth to bottom of casing: 50 ( f-a.q \ fi Nominal diameter fa inches
(time)
Notes on well (water guality,need for PPE, or problem areas:
Magnetometer/lnclinomete~heck: _/ Tilt check (-45°): 1321' OK Directional (N,S,E,&W) tilt check: [}Zj OK
North check (placing object in front of camera window at north): @oK
. llDul~r-\ J P Top of tool zeroed to land surface: (check) ~()_ . · Dol>lf-.) IJ(=' q
Starting time of log: f) 4-~/ I 2-08' Depth Start: 5 .IB fi Is~ .<il'
I zog-i~ z z_'b Depth End: I 5e, 89 fi !). l ~ I
Ending time of log:
Logging speed: v-- 8' .{~~ (<B Wmln) Depth Bottom: J hf .,Cf fi Logging direction: Dl>tr.l N J uP
I
Round trip error check of depth: 0 , L> 2..-~ should tie <2% of the total depth
Note any problems or points ()f interest:
RP (bottom of tape)
TopofTool
.Bnqh{#;fs Dli(.JN &?o . clo.n h 2-- b I Tool Bottom (3oa rt<t:.S LJf' 'JD · •
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. . 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
•us s science for a changing world 7/r0 ~<t0
Tool serial number: 8043a Century I Combo tool log
II) L: /'\ <.:--' WELLNAME: ___ ~~~----u_~_' ______ __ Date: _____ !_·_· _1_1-_/_-_2_. D_t I __
NWIS 15-digit id: ------------------ I /"/ I ,lj .,..-1./\ Operators: "'.J?•-· / f::J.J ' · ;'
Location:. _ _;i_c....:. .. j_:-_i _cf _ _,_/-_,_l_.!L....:/;_r...;_·-f_tu-'-;~_-_.1_:.7 J_ watch time: og: l2: lL computer time:() (S': 12; 1-::: Project:
Geophysical log reference: measuring pt or land surface
Well information: Describe measurement point (MP): roc .. A L \.)(!)~I tiJ U{l1 I.{) c.~,, r~lk1-·· Depth of well: / ~ ~ ft below land surface Height of MP above land surface: 0 , 6 {) ft Water level from MP 7_0 , if! ft @ {) 7 cf6 Depth to bottom of casing: l)D { {o<;} ft Nominal diameter (o inches
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: ~check) E-log mud-probe grounded: [YJ{check)
Log Down
Start time of log: {) B'6.3
End time of log: () ~ lfo Logging speed: ...,..... ! S: %trJ. Depth Start: C) • 0 D
It,/. DIJ Depth End: I '53' ro /DP cl1ifM
Start time of log: __ _
End time of log: ___ _
Logging speed: ___ _
Depth Bottom: I !:, I, 21
Sampling rate: {) • I L)
Round trip error check of depth: - 0, 0 3 ({- should be <2% of the total depth
Note any problems or points of interest:
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL P5 ~ lbs Date: '7ft/ hot{ Pumping rate __ gpm Height of M P (J, fj() P:·
Operators: wSc..(IJfll\f'\. watch time: 1 '?:1<;:. tO computer time: 1; IS": 6'1 p i'-'1
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at 3~ft below MP Note any observations in the discharged water: smell, turbidity, color ...
Be sure to note when the pump was turned on, changes ih pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch time
/3 211:,
water level
2C..zet
drawdown rate
Discharge rate measurement vol (gal) time (s) Q (gpm)
I DIPO /lfll... 5 C"C.t>t:JrJJ,
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.. MP=measunng pomt, dd= drawdown, Q=dJscharge (or JnjectJon rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftlmin
/Jv;,.,/J is .f'wc#c..dt'-
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Century pumping -collection_forms_mc [email protected] 5/3/2011
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AT
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r re
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ate
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nce!
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ea
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nt w
as m
ade
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t.
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ESS · science for a changing world "5/Ju &'8;&:,
Century I Combo tool log Tool serial number: 8043a
WELL NAME: _ _,_P-"'-5-~ .;_! D--=-S--__ _
NWIS 15-digit id: ---------
Date: --'--~-t_t.f_. Z._ .. _O_U __
Operators:_f_J_-~_s_c-f...jJ_L_~ J_Y~_-1 __
Location: I q 2 '1 1-J.oJ 1 .Co.x tJ Rox 6c.~ to ;;PA
_.. _./ /)A ~ .-I-. as · tt:.eSr::::...:r watch time: l 7 · · 1.(-J / ·
Project: computer time: 5 : D s=: If) f ~ Geophysical log reference: measuring pt or land surface
Well information:
Describe measurement point (M"""P)'-'-: _,_1?-....:o_v;;.._;__· ,_J)i,_L_u_M_I_rJ-'-v_m_;;_;L D"'-""J::..tt._· """Cc:.::o:...:/.:..( c_ . .t..._·~-Depth of well: ---:--'-/"':6'---z-.::..__-:r:--=---- ft below land surface Height of MP above land surface: 0. eo ft Water level from MP '5/ 33 ft Depth to bottom of casing: !('o/ -ktc1' ft Nominal diameter b inches · ' "
@ /7/h
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: [~:((check)
E~log mud-probe grounded: ~heck) Log Down
Start time of log: Start time of log:. __ _
End time of log: I 7 3/ End time of log:. ___ _
Logging speed: ~ \~.(~,~ Logging speed: ___ _ ~ I /o tJe;rf? ----------------------------::::-----------------------------------------------------------------------·
{.ljo Depth Start: 0.00 toP n.-G fooL Depth Bottom: / bf,:? 9
10[.D Depth End: 153.) lofofTool Sampling rate: 0. ( b
Round trip error check of depth: {) • D ( +f should be <2% of the total depth
Note any problems or points of interest:
} IJt:;,r)p CO-Stt\./Ct fe.v'-P b..J{l.a 7/00 op JN'Sit t)(V't.?.r:f ' r
r C/fi,vne/3 I J /)
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science for a changing world
Century I Caliper log
WELL NAME: __ P__;5_~ _l_D_fo __
NWIS 15-digit id: -------
Location: I (3~ lJ v, '9''' N a 12o oJJ
Project: r;;.pA f2o;<.boro
sfo 6Di Tool serial number: 9065a
Date: 5' ,.. .t/ ~ z_o l f
. Operators: W5C... / GL.S / CJ) t1
watch time: 13; '5~: til / computer time:· t:.;:g.g;tfl {Jrn
Geophysical log reference: measuring pt ~
Well information: Describe measurement point (MP): ]b(J,." At.J/1'1.1 r0Vm Loe-/t. (J !ltJ./\ Depth of well: ~/ =-:~q,..:-~----=--..,----ft below land surface Height of MP above land surface: I • D ft Water level from MP 2:§5. (9. ft @ l 3ci f Depth to bottom of casing: 2!-2..- ( ~) ft Co-5lf'1 c.loser fo 35""H .. ? Nominal diameter ,P· inches -sJeel ·
Notes on well (water quality, need for PPE, or problem areas:
M•.v• 12ae 3DDD O.D PPM C!?> 133tf
Top of tool zeroed to land surface: ~heck) Starting time of log: / t./1 ~ · Ending time of log: /lf~. 8 Logging speed: . 1..N l3 -R--,4.,;(; Logging direction: UP '
Sampling rate: {) , /D
ToP lJf foOL-
Depth Start:· C>. D ft
Depth End: I 'ZI.1t/- ft
Depth Bottom: l'Z.6,B1 ft
Round trip error check of depth: - D , "'2 7 '.(t should be <2% of the total depth
2-pt Calibrati~n: / I Pomt 1 : lo ~ 3 inch
Point 2: 8. (p 26 inch
Note any problems or points of interest:
CPS: 3 15c.f2 ./
CPS: L/6!86,g
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II USGS science for a changing world S/N iJf(:, Century I Combo tool log Tool serial number: 8043a
WELL NAME: __ P_5_--_f_D_e:, __ _ Date: 5 ~ t.j- Z 0 I I
NWIS 15-digit id: --------
Location: 18 s:-o tftrq ,/ /l.jtt /2.tJaJ Operators: iN 'St./fl. 5 /C..'f) 1-/
' I
Project: /LDx.IDoro e·PA· watch time: I t.f; 3 2 : 35" t/ computer time: 2.: 32:35' f,.,..
Geophysical log reference: measuring pt or~
Well information: Describe measurement point (MP): foG. -A-l-..JMF/IJUil'l L{)c.-1:_ Cot/tl/1 Depth of well: 121 ft below land surface Height of MP above la-n'-::d-s....:.urf-=-a-c-e:-....,(-, 0.,.-----ft WatE:lr level from MP 2-'25- .1'1 . · ft @ 13tf I ? Depth to bottom of casing: ?2-f-f.t:t.-b..fo. ) ft CI><St j\)t; dosea h '3-S' fl- • Nominal diameter &::. inches' :JWtFl-
Notes on well (water guality,need for PPE, or problem areas: J
----------------------~----n~o~o~~L~~~1r~
Top of tool zeroed to land surface: ~check) E-log mud-probe grounded: GJ{check)
Log Down _Log Up
Start time of log: / '-{ 3 B' Start.time of log:
End time of log: 1'-/tJe End time of log:
- .ff-/ . .{{-/ . Logging speed: ..r-·11,'/-1 ~.fo (fll.fl" Logging speed:~S"' /fYI-JrV
-----------------------------------------------------------------------------------------------------· Depth Start: {),DO 7i>Pof-rooL Depth Bottom: 12-h. g7
Depth End: II 8 ~~ 0 roP of roo L. Sampling rate: 0' I D
Round trip error check of depth: - D ' l i3 H should be <2% of the total depth
Note any problems or points of interest:
ll sc~ence for a changing world
Mount Sopris I AL T OTV log (OBI 40) Tool serial number:
WELL NAME: ____:P:.....:-5=-----' 0_, ___ _ Date: sl t/ 12() 1 I
NWIS 15-digit id: -------
Location: I~ {'"D Ua (q 1/1 Alt. l2oa.J Operators: f.A)5c.ffLs/cbrl
I I
Project: /2o;choro b"PA watch time: tS: 12 : tlo / computer time: "3 : 12: «<o p M
Geophysical log reference: measuring pt or land surface
Well information:
Describe measurement point (MP): _-n.<..,.;D=--C-_-----'A=l-"'u'-'-IVl-"1'-'-N_;;U_IVl_l_o_c.._L_Co_ .. _l=-ftv~---'-----Depth of well: -:-"-'8 2"'+1---;:--------ft below land surface Height of MP above land surface: I . D ft Water level from MP 2 <£.. 3 z_. ft Depth to bottom of casing: z-z_. {/aJ.J.l.e) ft Nominal diameter C. inches -:7f"€1i'-
@ 1~18 (time)
Notes on well (water guality,need for PPE, or problem areas:
Magnetometer/lnclinometeycheck: Tilt check (-45"): ~OK Directional (N,S,E,&W) tilt cpeck: d OK
North check (placing object in front of camera window at north): M'OK
Top oftool zeroed to land surface: Q~) t3otiDf!l\ DovJrv ?JP /c> of-
Starting time of log: ~ l Depth Start: 5, £'6
;,;s~l ' & /b
~f ~-1<11Wmlo) bOvJrJ ()fJ
Ending time of log:
Logging speed: Logging direction:
Depth End: I ZG. 2-l ft
Depth Bottom: /2.0, 67tt
Round trip error check of depth: 0 . I 0 -Pf- should be <2% of the total depth
5?, '?>-'51 .q Checks: """"" r.wlhpw t1i~ 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity- 8-10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
RP (bottom of tape)
{, D #
TopofTool
~USGS science for a changing world -5/tJ bD '1 Century I Combo tool log Tool serial number: 8043a
WELL NAME: __ f--=.5_-_f {)_6 __ _ Date: _~_-_l_. _-_'2_c_'J _II __ _
NWIS 15-digit id: --------
Location: /8~0 \), (C( t/ 11'-1C\. t2oaJ
..::::: ) ~, <::: Operators: LJ.) ...JC- t:. (.. __;;.,
(
watch time: /0; DD ; 2 D / rza.¢ Project: computer time: ID: DO·. 2' D
Geophysical log reference: measuring pt ~
Well information: 1 l Describe measurement point (MP): TOG - lfL VfV\1 fl.) UJl'l l oc.J Ld f {V1
Depth of well: } 2-CJ ft below land surface Height of MP above land surface: I , D ft Water level from MP zg. b G ft @ ·I 0. o 0 Depth to bottom of casing: ZZ-t='ti f-;:JjjLl) 3 0 ft /JJQtJ rrtG Nominal diameter t:, inches
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: [}((check)
E-log mud-probe grounded: [YJ{check)
Log Down
Start time of log: I D I c;" End time of log: /D 7.--t/
Start time of log:. __ _
End time of log: ___ _
:r\t>~"' Logging speed: v- \'..;' ..{%,~ Logging speed: ___ _
1V ~~:V -~~~t~-~;~~~---;.-z~----f;i'-~I--i~-z------~~~;~-;~;~~~-----------------------------------· · f?-h·DO Depth End: I fg .$0 Tbf D.(-1<1 61- Sampling rate:. ___ _
Round trip error check of depth: 0 . 6 3 ft should be <2% of the total depth
Note any problems or points of interest:
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL Pf- (0 b Date: f ' ( .- 2 Ot..( Operators: W St.-/ E ~ S . Pumping rate __ gpm watch time: 1 S l b . · J s f' 11 A / I~ · 1 v 1 t/r .. e . .s(~ 1 Height of MP /. o computer time: ;.;;,-;c. ; 'J'$"
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at33 ft below MP Note any observations in the discharged water: smell, turbidity, color. ..
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water drawdown time level rate
Discharge rate measurement vol cw;Ii) time (s) Q (gpm)
0t<Url J5;J.7 ;;,P:.:-::7
jt('l/~ 2 9,66 I S:1 '1 I f 'T~{.l,; ;ss;;;: I 11. s I/-, \J (, 291 pt'f() i n.3 1 r; 3. ro (19',31 r 17.5
j{t/5 291 .'{;? _.) l/t>3
17 '1..s. If), .1/'h tP 11 r-.r::. 0
11~8. f'.,, rl•'l ~ f)/V / I I
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MP=measuring potnt, dd= drawdown, Q=dtscharge (or injectton rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tooL So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tooL So dd has to be <0.01fUmin
Century pumping -collection_forms_mc
Comments: Tt-o I I@_ S.:.) 1
[email protected] 5/3/2011
f2R_I\J !'-f7tp Cf . Laf- - '7/3 •.q'-16 t!-l/-'7 JD h 1\1 {2, I "-'1 (vpj) fj)) f;otil6 3 [p • .., I /, Cf_Ej_
science for a changing world
Century I Caliper log
WELL NAME: __ P_5'---~ _l_D_b __
NWIS 15-digit id: -------
Location: I B~ () Vir tjt I /IV a 12o (J_,J
Project: GfA- {2o;dtJ(){O
*" 6Di Tool serial number: 9065a
Date: 5' ...... tf ' Z-o I I
. Operators: VJ5C... / r;;L.S / CJ) t1
watch time: 13: 3f5: 1./1 / computer time: · '(:.;:~&;(// prn
Geophysical log reference: measuring pt ~
Well information: Describe measurement point (MP): Tbt .- A-t..rJfV\.1 t0tJm /.....oe-/? U //,tJ/1. Depth of well: ...,.:..1 =-:zq-=---=-----,----ft below land surface Height of MP above land surface: I • 0 ft Water level from MP Zt$, (9. ft @ l Yl f Depth to bottom of casing: 2!-Z.. { ~) ft Co.<!~ll'\ltj c.loser fD 35:"-H .. ? Nominal diameter 0 inches -:5/eel ·
Notes on well (water guality,need for PPE, or problem areas:
J\1\rl\Jr t2ae 3ooo O.D PPM (]) 133t/
Top of tool zeroed to land surface: ~heck) Starting time of log: / t./1 /P ·
Ending time of log: I tj-z, e Logging speed: . LN 13 -R--;M.f~ Logging direction: UP '
Sampling rate: '{) , 1 'D
TOP !Jf foOL-
Depth Start:· D, D ft
Depth End: I 'Zf .1tf ft
Depth Bottom: J!Zl(;,B1 ft
Round trip error check of depth: - D '"? 7 ·4 should be <2% of the total depth
2-pt Calibration: / I Point 1: 0~ 3 inch
Point 2: 8. (p 2-5 inch
Note any problems or points of interest:
CPS: 3 15'tf2 .f
CPS: tjCJffd6,g
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•usGs science for a changing world S/N ogg-~ Century I Combo tool Jog Tool serial number: 8043a
WELL NAME: __ P_5_.--_f_D_0 __ _ Date: () ~ t.j- Z 0 II
NWIS 15-digit id: --------
Location: 18 ~0 tftrtu/ lt.ja /2.tJa.J Operators: LN SC.. /trt. 5 /c'b f-/
, I
Project: /2-Dx.0o r tJ ePA· watch time: I t.f; 3 2 : 35" t/ computer time: 2; 32:35' ff"'
Geophysical log reference: measuring pt or ~a~
Well information: Describe measurement point (MP): to C- -AL·vl\ltf11..1t.Jm Loc..f.. Col/tvl Depth of well: .....!-:/2::....!.'7-=------.--,-----ft below land surface Height of MP above land surface: I. D ft WatE!r level from MP 2-'25-. 1'1 · ft @ 13!/ I ? Depth to bottom of casing: 22 ( -f.tt.-{J..fu ) ft C/1.-St 1\lG c.lo5e!l. h "35' f+ • Nominal diameter &> inches" ::57{5tFl-
Notes on well (water guality,need for PPE, or problem areas: I
----------------------~----TI~o~o~~L~e~J,~
Top oftool zeroed to land surface: ~(check) E-log mud-probe grounded: li?{check)
Log Down .Log Up
Start time of log: ) '13 8' Start.time of log:
End time of log: ltftJe End time of log:
- ~/· .?{-/. Logging speed: ..r- ·11. '/- I '.::., fo 1 fl1.fiV Logging speed:~ S" 7 fVI-IrV
.. ---------------------------------------------------------------------------------------------------· Depth Start: 0, DO 7i>P d-rooL Depth Bottom: /2(p. f? 7
Depth End: II 8, s-0 ro p o.f roo 1.. Sampling rate: (). I D
Round trip error check of depth: - D • l B ff should be <2% of the total depth
Note any problems or points of interest:
us sc(ence for a changing world
Mount Sopris I AL T OTV log (OBI 40} Tool serial number:
WELL NAME: ____,Pc.....::'S::.__-_1 O_C:. ___ _ Date: s/ t/ /20 I I NWIS 15-digit id: -------
Location: I~ ('D Vo 14111 All Qoa.J
Operators: vJ5c./ELS/cbrl ~ j
Project: l26;cboro t;pll watch time: 1 5: 12 : tfo / computer time: "'3 : 12: '#o p M
Geophysical log reference: measuring pt or land surface
Well information:
Describe measurement point (MP): _-n.._D=--C-~_A=l.,.t.J~'Vl_t:..::..j')-=t)'--IYl_l_D_c._L_fl>_ .. _l:.,_/0--'1---'-----Depth of well: -:-=-6 2""':::-'-1----.---:------ft below land surface Height of MP above land surface: I . D ft Water level from MP '2 ~ ~ 3 "2- ft Depth to bottom of casing: 2."2- (fa).J.le) ft Nominal diameter C. inches ~€/i'-
@ (time)
Notes on well (water quality,need for PPE, or problem areas:
Magnetometer/lnclinom~heck:
Tilt check (-45°): ~OK Directional {N,S,E,&W) tilt cyeck: i:ii' OK
North check (placing object in front of camera window at north): IS2)oK
Top of tool zeroed to land surface: [d~) t3offDf"\ DovJrv z,; p ic> oi-
Startlng time of log: ik / Depth Start: 5,ltl,
i i{Sz_/ I tJ? lb Ending time of log:
Logging speed: Logging direction:
~ li' lfu-1"' Wmlo) .DowrJ ufJ
Depth End: f2};, 2-l ft
Depth Bottom: rzfo, 87ft
Round trip error check of depth: 0 . I 0 -Pf~ should be <2% of the total depth
5 C., ':!> - 5.1 .{:f Checks: v-- t'V\vlhpfe fJt'N?.O 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
RP (bottom of tape)
{, D #
TopofTool
•us s science for a changing world ?/tJ bC> '1 Century I Combo tool log Tool serial number: 8043a
WELL NAME: __ f....:::)_-_( _0 _6 __ _ Date: _~_-_l_-_2_c_'l _ll __ _
NWIS 15-digit id: --------
Location: !8r:;:o V1 ( Cf! { 1 f\JCI.. t26aJ
C' / -c <:::" Operators: [_)..)..;.;C... t: l .....;;. I'
Project: E/ A- fDX b b Po watch time: to;oo; 2D /r2asrzt computer time: /D: ()D ·. :? D
Geophysical log reference: measuring pt ~
Well information: } Describe measurement point (MP): TOG - JI-L UfVI! ttJ U/l'l. · o{J U f{[J../1 Depth of well: } 2-~ ft below land surface Height of MP above land surface: I , 6 ft WaterlevelfromMP 28.6G ft @ ·j600 Depth to bottom of casing: ZZfi:( t-OJJ:tl) .3 (o ft ~llltG Nominal diameter t:, inches
Notes on well (water quality, need for PPE, or problem areas:
Top of tool zeroed to land surface: or{check)
E-log mud-probe grounded: 52!'( check)
Log Down
Start time of log: I D l ("
End time of log: / {) "'l--t/ Start time of log: __ _
End time of log: ___ _
fi> ¢~~ -~~~~-~-:~~~~-=-~-:~r~f~~-~~-L--------~~~~~:~~~~-~~~====------------------· "'1.':::> Depth Start: D. 01:> -r f(,J(J Depth Bottom:. __ _
f'2-h·o0 Depth End: I {g .SO Tbf b{Tb ~L- Sampling rate:. ___ _
Round trip error check of depth: {) , 6 3 H- should be <2% of the total depth
Note any problems or points of interest:
__!!
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These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
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Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
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dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftlmin
Century pumping -collection_forms_mc [email protected] 5/3/2011
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Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL fJ£- /0 b Date: '£'-:2-2-D II Operators: (~5L /c_ L5 Pumping rate __ gpm watch time: o(;.; 2s-; 5'1 Height of MP 1 ,t.1 £,+ computer time: o f5: 2.~:'5:1
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at3.3_ ft below MP Note any observations in the discharged water: smell, turbidity, color ...
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water drawdown Discharge rate measurement time .level rate vol (gal) time (s) Q (gpm) Comments:
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HPFM_ and_ Q-test2.xls [email protected] 1/24/2011
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EUS S J science for a changing world ?fr ~55' 'J';v ott. Century I Combo tool log Tool serial number: 8043a
WELL NAME: --l...f-"-7_~__:/_0_k> ___ _
NWIS 15-digit id: -----~---
Date: 8' ' 2 ,., 2 (.) II
Operators: ~?c.- J G. L-S I
I Bs-o \1, r q d uv4 f2.6o.J _,) watch time:
Location:
Project: (2() xn l> ( (j (;;; PA computer time:
Geophysical log reference: measuring pt ~e Well information: Describe measurement point (MP): Tl> C-. - A: L- UM. 1 U Ufl'\ { o C-/c ~ llo...., Depth of well: / ~ <1 ft below land surface Height of MP above la-n....,.d_s.._urf.;::a.....:c:.....e:-1""".-6----ft
Water level from MP ?8. 7 b ft @ I!:' Z~ Depth to bottom of casing: Nominal diameter h
22 (I{JAQ \ ?!..:. ft ~ TA·G inches ~
Notes on well (water guality,need for PPE, or problem areas:
Top of tool zeroed to land surface: g(check)
E-log mud-probe grounded: ~check) Log Down
Start time of log: ( (-z_(o Start time of log: __ _
End time of log: ___ _ End time of log: { S: 3 h AJ-
f D ?~?D~ -~:~~~:~-:~-~~-~~--:-~~--~=~:-------------~:~~~:~~~-~~~---------==------------------· 1· ~ 1 Depth Start: 0, 0 c (D p Df. loa L- Depth Bottom:. __
I u~ . b 0 Depth End: tl 8'. s-'o TO r o[ fooL. Sampling rate: () • I 0
Round trip error check of depth: ~ D • 0 v-(+- should be <2% of the total depth
Note any problems or points of interest:
-- 7 . - = I
f2ecN ft>CJ 3Cf . A-hb,-lt lJttfref50ru f1oper11es
Lo.f- ~<ft'tJE~l-DNb sfo .1/,fP._.q~
...:;;;:;.,o II science for a changing world 5/rU 6o"'' Century I Caliper log Tool serial number: 9065a
WELL NAME: _ ___;P;_;5___;· _' _( D_1 __ Date: 5" .- 5 - Z <? ( f
Operators: W.:;:, t:- /GL--5 NWIS 15-digit id: -------
Location: I 6; b Ur&; I ~riO. eoo..d Projec;: flD/_(.btJro GPA
watch time: t> ~: 3.'2; 35 / computer time: q; 3t:3s- M"'l
Geophysical log reference: measuring pt <(i_§ct·;g-=~)
Well information: . :\ Describe measurement point (MP): roC. "' -'Srtrtf"t- t/t?.t/IJ6{ialt-Ci>lk£A /IJ.#fl;$~t.P)j Depth of well: · > 15D Wv /1,;-iJfj~fl:. b ..rl- Nar corred)ft below land surface · Height of MP abcive land surface: 0. 8 .... ft Water level from MP Z? .6 o . ft @ 01 3~ Depth to bottom of casing: 2-l> ft Nominal diameter tf.. inches -s/e"f3Z-
Notes on well (water quality, need for PPE, or problem areas:
Mt/111 lllf!i 3t~oD 1. 1 Pem & tJ133 . foO L./&t.qf/... t). 13 {f
------------------------------~~~O~a~~-J~I=O-ClE~,~
Top of tool zeroed to land surface: ~heck) Starting time of log: /./):t--t;'
Ending time of log: __ I_D_3,b'-----
· Logging speed: \,.. l I 4--&,;.. Logging direction: -'U_P __
lt>f o-f '{(.)Cil..
Depth Start::'· b ; D ft ·
Depth End: I d·€, ':)Cf ft
Depth. Bottom: 1/t. 72- ft
I f
Sampling rate:
/06.'0 5". I 3 ~1 ..... 1/1.
Round trip error check of depth: -- , 0 7 .({-: should be <2% of the total depth
2-pt Calibration: Point 1: tf> · 5 I inch
Point 2: $. 6'2-~inch
CPS: 31 It./ CJ I 3
CPS: Lj6tf 32.. lf
~~ 3 ['{'i./ '2 ,/0°
t-/D t8t,. ro 1
(bPot j)) f)---LO?
r\JO (d.U (;4(;. ~o!)~vl')
EUS science for a changing world
Mount Sopris I AL T OTV log (OBI 40) Tool serial number:
WELL NAME: --"-P...::::5_-_(D_7 __ _ c ;·5:.. Zo<l RP (bottom of tape)
Date: __ 7 _______ _
' NWIS 15-digit id: -------- Operators: r..,;\}Scj i:3 LS D .'iS
Location: I Bffo Vtr••p(trJGt. TopofTool
Project: ~x:.boro G"PA watch time: I I; ID: '1:6 ( computer time: II : (D : tlb
'' [ l r ~ [ i
l' Geophysical log· reference: measuring pt or land surface [ J
Well i~formation: . · .. ~Wm•"-'u"" Lcd.do'IIOII.. ~o)1 ~ Descnbe measurement pomt (MP): 1b L-5Tff"GL(_" J 1l Depth of well: Iff,· 72 (f. tJOf > 15 0 ft below land surface ! j Height of MP above land surface: D, '6 · ft 11 Water level from MP Zb.b l:) ft @ _/;;...,l_t_D __ (time) 1 j Depth to bottom of casing: -z..O ft [ i Nominal diameter b inches <[email protected] I; l
' ~
Notes on well (water quality,need for PPE, or problem areas:
Magnetonieter/lnclinomet~~heck: / Tilt check (-45°): ~OK Directional (N,S,E,&W) tilt cpeck: ~ OK
· North check (placing object in front of camera window at north): 1}2J'OK
Top of tool zeroed to land SIJ.rface: ~eck) !)ovJrJ I uf Dor.Y•·t w~Gf , Starting time of log: II "Z t.// ll 4 \ Depth Start: 5, I B ft l D 8" .'10
/i3i/ it~p DepthEnd: )DB.~Cott ~.zt7' Ending time of log: . Logging speed: Depth Bottom: If/ .1Z. rt Logging direction:
Round trip error check of depth: D.Of _.4 should be <2% of the total depth
i . ;i ; 1
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5.18 ~+
f.! l ; Collection
Note any· problems or points of interest: { _ L ! \ bi Window -"b~nw•!::1g.!!..;~-.:~:ttJ-Qs="'~?a......~.D~o~ul=!:!.!.:N~f7..!..00~------'='C:....:..:;.O.....:..r...:.L..l..:q+-:--..:('-+H-ff2...=.D..=.o.:...(].....,;),__ __ -:-- Tool Bottom
br: G .h_i",o.Q. ~"'-, -...! f? -:,. ~ 0 , P 'L,P pS, I.>.I'P ·, v$--f..' C'v(;,. nVP. £r)/) r"M a.f v ,
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode data collection as a check.
Be sure to record the depth before you start the time drive!!
E SGS [;Cience for a changing world
Century I Combo tool log
WELL NAME: --'-P=:S_-_,_(-={)_f-'----NWIS 15-digit id: ---------
Location: J 8 t ~ V,rc, J /1 N ec._ t?-oo_J '
Project: 14'))(_ b (.} Ctl EpA
-) / 'I) r") ;:_\ l . / J C-\.:~) !£,"
Tool serial number: 8043a
Date: --~~-_8_-_z_o--'--'-U __
Operators:_..,(J..5;:........::::5:_v-+/_,/:j=·-=B<!_;f'rl:_.:__
watch time: ll :3 7 .· Z I computer time: II .'3 'J : 2 l ,r
Geophysical log reference: measuring pt or land surface
~ho
Well information: _ . /'" 5 . 1 ! . J \ Describe measurement point (MP): /D G ·- S+ee.( ( AiU(VI.H'JtllY\ frDGl Col {-!A fe,~ :J Depth of well: ""- \ ~ Z ft below land surface Height of MP above land surface: () , 8 D ft Water level from MP 20. D ;?_. ft @ f l 2 9 Depth to bottom of casing: Z.D ft Nominal diameter h inches 51·e e,: {
Top of tool zeroed to land surface: ~check) ·
E-log mud-probe grounded: · uz({~heck) Log Down Log Up
Start time of log: Start time of log: i z_.Dj
End time of log: I ZDD End time of log: ( 2- ll
TDP v.f-· TDol
f"DD. Db
. Logging speed: --{ L/.)- I$",~ Logging speed:~ S: f+Jv\, ;_. .. -----------------------------------------------------------------------------------------------------· Depth Start: {) . D 0 I:.: · Depth Bottom:. __ _
Sampling rate:---''-'-'/i)_· _
Round trip error check of depth: - D, I 3 should be <2% of the total depth
- ..... --·· ~··
i oos
A7Jf AB.r Ps- to 7- AlB!~ .\)()\~.\~'_) P-7- ro ,_ A-~:c- ~..lf>
Mount Sopris I AL T J;iiV log {OBI 40) .
WELL NAME: __ p_~_--,-/_0_7 __ _ \
Tool serial number: Z-
Date: S - 'Z b - z. o ' I
Operators:_-=f..J,_J_~_C--;/'-'8===-A'-H __ I
NWIS 15~digit id: --------
Location:. I B f ~ V t { r? tJ, ~ f2u (LJ' f q watch time: ( Z;) -7· It:}
Project: (/2 0 '/- II) D ( () {;;fA computer time: ( 2; 3 7 ; -z_O
~- L~ sur.r:::a.ce . Well information: J fl}.,. J. _I I \ Describe measurement point (MP): Toe ~ 5kc {'1° 1"
1tr.lv{!""" t.OC/t. to{lc~ [fk/J,fl"'e v
Depth of well: "'"' {OS? ft below MP Height of MP above land surface: Q .1? ft Water level from MP zt,, OS ft @ Depth to bottom of casing: ZD ft Nominal diameter (0 inches 5/e.e(
Notes on well (water guality,need for PPE, or problem areas:
---------~~~7.~~--~~-----------~D~~~u~J~N vf ;-J / v
I Z. :)1 f 13/7.- Depth Start: 5,{q ft I D8Jo Starting time of log: I
Ending time of log: I 3 U! .. / Depth End: fl);g jl) ft ), f ~ I
/ r'".f/ v- 0 ~·;r /'11 1,:(<5 fUmin)
.J:!:I? D C-}vJ l'.J /1 1 p .. " l ,.
Logging speed: Logging direction:
Depth Bottom: ____ ft
0 ' D 3 H- should be <2% of the total depth
* Magnetomet 3r Sampling rate:
Round trip error check of depth:
Note any problems or points of interest:
Checks: 1. Data sampling interval: 0.015 ft Pts/turn: 360 Light: 6 or 8
in dark rocks choose a higher light intensity-- 8 -10. 2. Prior to actual data collection you can do the real-time mode datcfcollection as a check.
Be sure to record the depth before you start the time drive!! 3. Bottom of lower centralizer minimum of 20 inches from tool bottom
Collection Window
4. Not!3 the version and build of MS log that was used and consider archiving a copy of the tol file
:5/N ?~? Tool serial number: 8043a
WELL NAME: __ P5_~_:_/_6_7 __ _ NWIS 15-digitid: --------
Location: / g II~ \)' ( 11 f, ¥t /Loa J Project: /aoJLboto t;PA
Date: £(-~ .... zb ( I Operators: (/..)';& /KB rfl
(
watch time: computer time:
Geophysical log reference: measuring pt o~e .
Well information: ..---- . · ~ L /f t1 · J~ Describe measurement point (MP): J De- 5kef ~/tttJtvt1rrJUM lDCC..lOUI:J.A (e_rv..o LJD- ')
Depth of well: \_...- / b g ft below land surface Height of MP above land surface: . 6. '60 ft Dq
1 1\__.,.
Water level from MP z7. f 2-- ft @ '-1 0
Depth to bottom of casing: 'Z-6 ft Nominal diameter (;, inches 5 .fee-/
Notes on well (water quality, need for PPE, or problem areas:
UlAttol ( {Jcuo .::s'DD () I. ~ - 2. 6 fP Yh (® !Y1 t.ft
Top of tool zeroed to land surface: ··(check)
E-log mud-probe grounded: [k?{~heck)
Log Down
Start time of log: {)C(,S"'fS
End time of log: / D D:: . ID 5eJ\-~ceogging speed: v- t_r' .rf{u,J
Start time of log: __ _
End time of log: ___ _
Logging speed: ___ _
, --------------------------------------7-----r-------------------------------------------------------· ~ • c;; Depth Start: 0 . 06 Top Z'lr-TM \ Depth Bottom: ·
J/D,{D Depth End: {6 3. c>v loP o(-/-nol Sampling rate: 6, !D
Round trip error check of depth: tf, q 6 H fhould be <2% of the total depth
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ause
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ote
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nt i
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icat
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ent w
as m
ade
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ay t
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ters
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ay h
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on o
f the
dat
a ~for a
nti
cip
ate
d u
pfl
ow
an
d
'--f-
--'
for
dow
nflo
w
sour
ce:
8/9/
2011
cjo
hnso
n@us
gs.g
ov
Am
bie
nt
Con
ditio
ns F
orm
s
Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL fS-1 V 1- Date: 5 -~ -z.oc f Pumping rate 66 gpm
Height of M P {) 1 ~ .::'} bcM-€- L&
Operators: lv!;. c..f ft.fi1"VVJ watch time: 71 !s'b-20 computer time: )J;$'fj-"?0
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at?d__ ft below MP Note any observations in the discharged water: smell, turbidity, color.... /
... "Vckr b tS c~'-M ;;eJ f(1J'2- I m~~ So/tC'J 6J?:.~J4.- p~v-.bc.__ .P--S;.,
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water Discharge rate measurement time level rate · VVV11 ~ vol (!'13i} · time (s) Q (gpm) Comments:
)VIL
115?- ?.1-,D<:, )lo(,o 1""v VI,< p 0 V\ \W~ )~~r2>2- SC/0 -10 (),qJ2...'{ -L..W :Jf!,t:S' 0,bZ'l-s fi-lvY~I"~ -::r. 'it> 20 Oti'LJ ,.._
17. 24 i.l!INI>.O 7.fA ..1-:o-f:f:-. 2.7__s t'vvvl_p i!Jc"l--/t:..-0 V\
2.:S,) 't-.q,52... w7o flO 0·S""..s- $ ~.b '{-(_ .A~LA-viO
17 lj. ') 2. t!j I '-/ fb < 1:>~ I'P I wC-J2o/If__ --P. b 0 t.V-tff y- fvvv r tJ -P-
<; ~.0..01 V\...( • .t:LJ..tA. 'd "'+-
v"tiA-JJ I !A y ~II I~OO N <, ./;v-hY t:UAA )<::)
1~11 · Z.C1t I 1 <tJtO/ 'o.-/I!VIt "- lfJ30 CPO 6, <i'J sl.. .bl-~J....,_ 1
I~ z.'2... ~¥t.t&t I 'ff,,.-, (aO (~:), L( ~ . S (;;. ~ 1--e-:S.l/1/J .tJ1 tO l- f /~{!){) (C) I'Jt r <., ::;k b {p_ -,
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2..cg,/oD e.W. I
i'-1<::,'2... L.-:fl "2fo be;+ IJ\.LP.~ .... wcJ tJL
.. MP=measunng pomt, dd= drawdown, Q-dlscharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tool. So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ftfmin
HPFM_and_ Q-test2 [email protected] 8/9/2011
Field form for recording discharge and drawdown data used to compute open hole specific capacity
WELL ,, - {l> 7
Date: Pumping rate __ gpm Height of MP {) . 7/ _Q..
't / <jj ...- zo l/ Operators: vJ5c-/ KIJ fl'\ watch time: I/.· 3g: 2-o / computer time: //,' 3 ~ : t..D
These data are used to compute the open hole specific capacity. With additional programs you can calculate the open hole transmissivity. (see Bradbury and Rothschild, 1985)
Pump set at~ ft below MP Note any observations in the discharged water: smell, turbidity, color ...
Be sure to note when the pump was turned on, changes in pumping rate, pump off, etc. These data along with fluid temp and resistivity data collected after pumping may help in the interpretation the flow meter data and the hydraulics of the borehole.
Watch water drawdown Discharge rate measurement time level rate vol (gal) time (s} Q (gpm)
\I s::J- ) .Y-ro <.
Comments:
1"2 O(n ~'--\..vo ~ \20 f.1 2~·87 s=t.fJM I {O_t:; I
~lb~{) lL\, y £; :\4J) Ws (<) i.,. \JtJ 1/1.- v 0 Vl--k ·I e.t'I.A. c
\L-(,.( 2£1,,)2, 0?0 7Jc)_'-. o,« .5 +,.;t,-1..., {2_ Lf7 71~crl3
VI~J VI. t..-''f..eV /.A-{/_ r:J VJ
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r<.: S1P ?_f;f ,(7\ 1Yo7 76._5"8'8 Tf2rHL
.. MP=measurrng pomt, dd= drawdown, Q=drscharge (or InJection rate), vol= volume We want to run the HPFM test under pumping conditions once we hit quasi-steady state, which is defined as the amount of water coming out of storage is <1 0% of the pumping. That is we start the HPFM under pumping conditions when the drawdown rate per minute (converted to the borehole storage) is less than the resolution of the tooL So for example:
dd at 0.01 ft in a 6-in hole--> is 0.015 gpm and we can just bearly measure that with the HPFM tool. So dd has to be <0.01ft/min
Century pumping -collection_forms_mc [email protected] 5/3/2011
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Re
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er
to r
eco
rd t
he
ca
libra
tio
n v
alu
es
of t
he
flo
wm
ete
r.
You
can
do
a sc
reen
gra
b o
f the
cal
ibra
tion
page
on
MsH
eat o
r re
cord
val
ues.
tra
nsi
en
t flo
w m
eans
tha
t the
flow
rat
e is
cha
ngin
g, t
ypic
ally
it o
ccur
s in
res
pons
e to
the
effe
cts
of to
ol m
ovem
ent,
whi
ch c
ause
s an
app
aren
t ver
tical
flow
.
La
te-t
ime
flo
w m
eans
tha
t the
hea
tpul
se h
as a
rriv
ed a
fter
the
GP
, bu
t the
com
pute
r ha
s pi
cked
the
GP
. B
e su
re t
o no
te t
his
occu
rren
ce!
che
ck m
ea
sure
me
nt i
ndic
ates
tha
t a
dupl
icat
e m
easu
rem
ent w
as m
ade
to c
heck
the
con
sist
ency
of a
n ea
rlier
mea
sure
men
t.
um
bre
lla m
ark
s: i
ndic
ate
the
way
that
the
dive
rter
s w
ere
set
-it
may
hel
p w
ith t
he in
terp
reta
titon
of t
he d
ata
~for an
ticip
ated
upf
low
and
'-
-!--
---'
tor
dow
nflo
w
Con
tinua
tion
of H
PF
M t
est u
nder
co
nditi
ons
sour
ce:
8/9/
2011
cjo
hnso
n@us
gs.g
ov
Low
Rat
e P
umpi
ng F
orm
s
h.-.
I _L
'Q11,,
~ (.,
.J)
~~.5
~ ... -.~.§ 5/-r~ ~ 8(?" Century I Combo tool log Tool serial number: 8043a
f5., I o I WELL NAME:--------- Date: , 0 --ff ...-~CI
NWIS 15-digit id: --------....,-
/'6 1 ~ J, rqr/,rJa. tRJ fuxhoro &II+
Operators: 1/JSC-/ K B IYI '
Location:
Project: watch time: ll/: r./1 : 15 computer time: -z : lJ q: I r.f p M
Geophysical log reference: measuring pt or land surface
~:~7:-:::::::~ment point (MP): 'Fl>6 /Jtt.tJMiiJ<im /oc[ ttJii® ~ Depth of well: '- I D& ft below land surface Height of MP above land surface: c. • '5? 0 ft l .t .. t / Water level from MP :;?- 7 . 2-b ft @ r T Depth to bottom of casing: z.o ft Nominal diameter {:;. inches
Top of tool zeroed to land surface: [ii/;c:eck)
E-log mud-probe grounded: ~heck) LogDown ~ Start time of log: / L/ {b Start time of log: __ _
End time of log: l L/: )'-/ End time of log: ___ _
Logging speed: . .,... J ~ f'f/(V1J,J Logging speed: ___ _ 70 5 f)A.fJJ!.:::_ __________________________________________________________________________________________________ , . ,,S 1 Depth Start: {), OD Top n[.'fo'tl.l Depth Bottom:. __
( f().SD Depth End: (?};?,00 Tbfl>(- foDL- Sampling rate: b. to
Round trip error check of depth: _ 0 . ) {) j} should be <2% of the total depth
Note any problems or points of interest:
